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Piebaldism: A Case Report and a Concise Review of the Literature
Piebaldism is a rare autosomal dominant disorder characterized by congenital poliosis and leukoderma. We present a case of a 10-year-old girl with a typical clinical presentation, followed by a concise review of the literature discussing the etiology, clinical features, diagnosis, and management of the condition.
Case Report
A 10-year-old girl presented for evaluation of a white forelock and multiple white patches of skin on the trunk and extremities (Figure). The white forelock was present at birth and a few white patches appeared on the chest at 3 months of age. During the subsequent 4 years, the white patches gradually progressed to involve the central forehead, abdomen, and extremities. Multiple frecklelike macules also appeared within the patches and the surrounding healthy skin.
Physical examination revealed a healthy girl with a prominent, large, diamond-shaped, depigmented patch on the central forehead that was associated with a white forelock. The hairs of the medial eyebrows and the eyelashes also were depigmented. Large, irregularly shaped, depigmented patches were present on the trunk and anterior extremities. There were multiple hyperpigmented macules overlying both the depigmented patches and the adjacent normally pigmented skin. The rest of the physical examination and the results of routine blood tests and urinalysis were unremarkable. The patient's mother and 4 siblings also were born with a white forelock. Similar depigmented patches on the trunk and extremities with a similar pattern and distribution were noted in all of them. Neither the patient nor her mother and siblings had midfacial anomalies, deafness, or heterochromia irides.
Comment
Piebaldism is a rare autosomal dominant disorder of melanocyte development resulting from mutations of the c-kit protooncogene.1,2 The disorder is characterized clinically by congenital poliosis and leukoderma. A white forelock is present at birth and may be the only manifestation in most affected individuals.3 The white forelock may have a triangular or diamond shape, and the underlying skin of the scalp also is amelanotic. Typical piebald lesions are typified by well-circumscribed, irregular, chalk white patches, often with hyperpigmented frecklelike macules noted on both depigmented and unaffected adjacent skin.4 The lesions often exhibit a classic distribution, involving the central forehead and anterior trunk, with extension to the flanks and anterior midarms, midknees, and midlegs. The medial third of the eyebrows and eyelashes also may be affected in severe cases.4 Characteristically, there is sparing of the dorsal midline, hands, feet, and periorificial areas. Piebaldism generally is a static disorder of pigmentation, though contraction of the affected areas with time or the appearance of new hyperpigmented macular lesions has been described.5 Progression of the depigmented patches has been reported in isolated cases with a novel Val620Ala mutation in Kit.6 Piebaldism rarely is associated with other disorders such as Hirschsprung disease, neurofibromatosis type 1, congenital dyserythropoietic anemia type II, Diamond-Blackfan anemia, and Grover disease.7-11 Individual case reports with associated deafness also have been described.12 Histopathologic evaluation of the depigmented lesions reveals absent or considerably reduced melanocytes. The hyperpigmented macules have a normal number of melanocytes and an increased number of melanosomes in the melanocytes and keratinocytes.4 The molecular basis of piebaldism was traced by Giebel and Spritz1 and Fleischman et al13 to mutations of the c-kit protooncogene. To date, 14 point mutations, 9 deletion mutations, 2 nucleotide splicing mutations, and 3 insertions of Kit have been described.6,14 c-kit Mutations are found in about 75% of patients with piebaldism.14 Mutations in the slug gene, which is a zinc-finger neural crest transcription factor, have been reported in piebaldism that lacked mutations in Kit.15 The human kit gene encodes the tyrosine kinase transmembrane cellular receptor for mast/stem cell growth factor, which is a critical factor for melanoblast migration, proliferation, differentiation, and survival.6 It would be pertinent to note here that the severity of the phenotype in piebaldism correlates with the site of the mutation within the kit gene. The most severe phenotypes are caused by mutations involving the intracellular tyrosine kinase domain, whereas the mildest phenotypes result from mutations involving the amino-terminal extracellular ligand-binding domain.6 The differential diagnosis of piebaldism includes any condition that may present with a depigmented lesion. Vitiligo is characterized by acquired depigmentation, typically in an acral and periorificial distribution. Piebaldism generally is distinguished from vitiligo by the presence of lesions from birth, hyperpigmented macules within and at the border of depigmented areas, and its static course. Moreover, piebaldism spares the dorsal midline, hands, feet, and periorificial areas. Waardenburg syndrome is an autosomal dominant disorder characterized by a congenital white forelock, lateral displacement of the medial canthi, a hypertrophic nasal root, heterochromia irides, and sensorineural hearing loss.16 At least 4 types of Waardenburg syndrome have been described based on the clinical and genetic criteria. The presence of hyperpigmented patches within the islands of depigmentation and on healthy skin; the absence of midfacial lesions, heterochromia irides, and deafness; and the location of depigmented patches on the trunk and extremities help to distinguish piebaldism from the various forms of Waardenburg syndrome.16 Ziprkowski-Margolis syndrome is a rare X-linked recessive syndrome characterized by deaf-mutism, heterochromic irides, piebaldlike hypomelanosis, and hyperpigmented macules, with a geographic appearance developing mainly on the trunk and extremities.17 Woolf syndrome is an autosomal recessive disorder consisting of piebaldism and deafness. Audiometry is crucial to exclude this diagnosis.18 Depending on its presentation, other conditions to consider include Addison disease, albinism, and systemic sclerosis, as well as use of depigmenting agents. Piebaldism is considered a relatively benign disorder, but it may have psychological impact because it is socially disabling, which presents a therapeutic challenge. Depigmented skin in piebaldism generally is considered unresponsive to medical or light therapy. Of note, the diagnosis of piebaldism should alert the clinician to the possibility of Waardenburg syndrome as determined by the results of ocular and auditory examinations. Sunscreens are recommended to avoid sunburns and to reduce the carcinogenic potential. To camouflage the exposed areas, makeup or temporary pigmenting agents such as the tanning product dihydroxyacetone may be used.19 The lesions of piebaldism do not respond to the topical agents used to treat vitiligo. Different surgical techniques have been tried, with variable success, including thin split-thickness grafts, minigrafting, transplant of autologous cultured melanocytes, and a combination of dermabrasion and grafting of the pigmented skin into the depigmented areas.20,21 Guerra et al22 reported achromic epidermis removed with the erbium:YAG laser and autologous cultured epidermal grafts were applied to the recipient bed in 6 patients. Autologous cultured epidermis, bearing a controlled number of melanocytes, induced repigmentation of all piebald lesions. The mean percentage repigmentation was 95.45%.22
- Giebel LB, Spritz RA. Mutation of the KIT (mast/stem cell growth factor receptor) protooncogene in human piebaldism. Proc Natl Acad Sci USA. 1991;88:8696-8699.
- Spritz RA. Molecular basis of human piebaldism. J Invest Dermatol. 1994;103(suppl 5):137S-140S.
- Ward KA, Moss C, Sanders DS. Human piebaldism: relationship between phenotype and site of kit gene mutation. Br J Dermatol. 1995;132:929-935.
- Thomas I, Kihiczak GG, Fox MD, et al. Piebaldism: an update. Int J Dermatol. 2004;43:716-719.
- Fukai K, Hamada T, Ishii M, et al. Acquired pigmented macules in human piebald lesions. ultrastructure of melanocytes in hypomelanotic skin. Acta Derm Venereol. 1989;69:524-527.
- Richards KA, Fukai K, Oiso N, et al. A novel KIT mutation results in piebaldism with progressive depigmentation. J Am Acad Dermatol. 2001;44:288-292.
- Mahakrishnan A, Srinivasan MS. Piebaldness with Hirschsprung's disease. Arch Dermatol. 1980;116:1102.
- Angelo C, Cianchini G, Grosso MG, et al. Association of piebaldism and neurofibromatosis type 1 in a girl. Pediatr Dermatol. 2001;18:490-493.
- Koklu S, Ertugrul D, Onat AM, et al. Piebaldism associated with congenital dyserythropoietic anemia type II (HEMPAS). Am J Hematol. 2002;69:210-213.
- Costa LD, Fixler J, Berets O, et al. Piebaldism in diamond-blackfan anaemia: a new phenotype? Br J Haematol. 2002;119:572
- Kiwan RA, Mutasim DF. Grover disease (transient acantholytic dermatosis) and piebaldism. Cutis. 2002;69:451-453.
- Spritz RA, Beighton P. Piebaldism with deafness: molecular evidence for an expanded syndrome. Am J Med Genet. 1998;75:101-103.
- Fleischman RA, Saltman DL, Stastny V, et al. Deletion of the c-kit protooncogene in the human developmental defect piebald trait. Proc Natl Acad Sci USA. 1991;88:10885-10889.
- Ezoe K, Holmes SA, Ho L, et al. Novel mutations and deletions of the KIT (steel factor receptor) gene in human piebaldism. Am J Hum Genet. 1995;56:58-66.
- Sanchez-Martin M, Perez-Losada J, Rodriguez-Garcia A, et al. Deletion of the SLUG (SNAI2) gene results in human piebaldism. Am J Med Genet A. 2003;122:125-132.
- Waardenburg PJ. A new syndrome combining developmental anomalies of the eyelids, eyebrows and nose root with pigmentary defects of the iris and head hair and with congenital deafness. Am J Hum Genet. 1951;3:195-253.
- Ziprkowski L, Krakowski A, Adam A, et al. Partial albinism and deaf-mutism due to a recessive sex-linked gene. Arch Dermatol. 1962;86:530-539.
- Woolf CM. Albinism among Indians in Arizona and New Mexico. Am J Hum Genet. 1965;17:23-35.
- Suga Y, Ikejima A, Matsuba S, et al. Medical pearl: DHA application for camouflaging segmental vitiligo and piebald lesions. J Am Acad Dermatol. 2002;47:436-438.
- Falabella R, Barona M, Escobar C, et al. Surgical combination therapy for vitiligo and piebaldism. Dermatol Surg. 1995;21:852-857.
- Njoo MD, Nieuweboer-Krobotova L, Westerhof W. Repigmentation of leucodermic defects in piebaldism by dermabrasion and thin split-thickness skin grafting in combination with minigrafting. Br J Dermatol. 1998;139:829-833.
- Guerra L, Primavera G, Raskovic D, et al. Permanent rep
Piebaldism is a rare autosomal dominant disorder characterized by congenital poliosis and leukoderma. We present a case of a 10-year-old girl with a typical clinical presentation, followed by a concise review of the literature discussing the etiology, clinical features, diagnosis, and management of the condition.
Case Report
A 10-year-old girl presented for evaluation of a white forelock and multiple white patches of skin on the trunk and extremities (Figure). The white forelock was present at birth and a few white patches appeared on the chest at 3 months of age. During the subsequent 4 years, the white patches gradually progressed to involve the central forehead, abdomen, and extremities. Multiple frecklelike macules also appeared within the patches and the surrounding healthy skin.
Physical examination revealed a healthy girl with a prominent, large, diamond-shaped, depigmented patch on the central forehead that was associated with a white forelock. The hairs of the medial eyebrows and the eyelashes also were depigmented. Large, irregularly shaped, depigmented patches were present on the trunk and anterior extremities. There were multiple hyperpigmented macules overlying both the depigmented patches and the adjacent normally pigmented skin. The rest of the physical examination and the results of routine blood tests and urinalysis were unremarkable. The patient's mother and 4 siblings also were born with a white forelock. Similar depigmented patches on the trunk and extremities with a similar pattern and distribution were noted in all of them. Neither the patient nor her mother and siblings had midfacial anomalies, deafness, or heterochromia irides.
Comment
Piebaldism is a rare autosomal dominant disorder of melanocyte development resulting from mutations of the c-kit protooncogene.1,2 The disorder is characterized clinically by congenital poliosis and leukoderma. A white forelock is present at birth and may be the only manifestation in most affected individuals.3 The white forelock may have a triangular or diamond shape, and the underlying skin of the scalp also is amelanotic. Typical piebald lesions are typified by well-circumscribed, irregular, chalk white patches, often with hyperpigmented frecklelike macules noted on both depigmented and unaffected adjacent skin.4 The lesions often exhibit a classic distribution, involving the central forehead and anterior trunk, with extension to the flanks and anterior midarms, midknees, and midlegs. The medial third of the eyebrows and eyelashes also may be affected in severe cases.4 Characteristically, there is sparing of the dorsal midline, hands, feet, and periorificial areas. Piebaldism generally is a static disorder of pigmentation, though contraction of the affected areas with time or the appearance of new hyperpigmented macular lesions has been described.5 Progression of the depigmented patches has been reported in isolated cases with a novel Val620Ala mutation in Kit.6 Piebaldism rarely is associated with other disorders such as Hirschsprung disease, neurofibromatosis type 1, congenital dyserythropoietic anemia type II, Diamond-Blackfan anemia, and Grover disease.7-11 Individual case reports with associated deafness also have been described.12 Histopathologic evaluation of the depigmented lesions reveals absent or considerably reduced melanocytes. The hyperpigmented macules have a normal number of melanocytes and an increased number of melanosomes in the melanocytes and keratinocytes.4 The molecular basis of piebaldism was traced by Giebel and Spritz1 and Fleischman et al13 to mutations of the c-kit protooncogene. To date, 14 point mutations, 9 deletion mutations, 2 nucleotide splicing mutations, and 3 insertions of Kit have been described.6,14 c-kit Mutations are found in about 75% of patients with piebaldism.14 Mutations in the slug gene, which is a zinc-finger neural crest transcription factor, have been reported in piebaldism that lacked mutations in Kit.15 The human kit gene encodes the tyrosine kinase transmembrane cellular receptor for mast/stem cell growth factor, which is a critical factor for melanoblast migration, proliferation, differentiation, and survival.6 It would be pertinent to note here that the severity of the phenotype in piebaldism correlates with the site of the mutation within the kit gene. The most severe phenotypes are caused by mutations involving the intracellular tyrosine kinase domain, whereas the mildest phenotypes result from mutations involving the amino-terminal extracellular ligand-binding domain.6 The differential diagnosis of piebaldism includes any condition that may present with a depigmented lesion. Vitiligo is characterized by acquired depigmentation, typically in an acral and periorificial distribution. Piebaldism generally is distinguished from vitiligo by the presence of lesions from birth, hyperpigmented macules within and at the border of depigmented areas, and its static course. Moreover, piebaldism spares the dorsal midline, hands, feet, and periorificial areas. Waardenburg syndrome is an autosomal dominant disorder characterized by a congenital white forelock, lateral displacement of the medial canthi, a hypertrophic nasal root, heterochromia irides, and sensorineural hearing loss.16 At least 4 types of Waardenburg syndrome have been described based on the clinical and genetic criteria. The presence of hyperpigmented patches within the islands of depigmentation and on healthy skin; the absence of midfacial lesions, heterochromia irides, and deafness; and the location of depigmented patches on the trunk and extremities help to distinguish piebaldism from the various forms of Waardenburg syndrome.16 Ziprkowski-Margolis syndrome is a rare X-linked recessive syndrome characterized by deaf-mutism, heterochromic irides, piebaldlike hypomelanosis, and hyperpigmented macules, with a geographic appearance developing mainly on the trunk and extremities.17 Woolf syndrome is an autosomal recessive disorder consisting of piebaldism and deafness. Audiometry is crucial to exclude this diagnosis.18 Depending on its presentation, other conditions to consider include Addison disease, albinism, and systemic sclerosis, as well as use of depigmenting agents. Piebaldism is considered a relatively benign disorder, but it may have psychological impact because it is socially disabling, which presents a therapeutic challenge. Depigmented skin in piebaldism generally is considered unresponsive to medical or light therapy. Of note, the diagnosis of piebaldism should alert the clinician to the possibility of Waardenburg syndrome as determined by the results of ocular and auditory examinations. Sunscreens are recommended to avoid sunburns and to reduce the carcinogenic potential. To camouflage the exposed areas, makeup or temporary pigmenting agents such as the tanning product dihydroxyacetone may be used.19 The lesions of piebaldism do not respond to the topical agents used to treat vitiligo. Different surgical techniques have been tried, with variable success, including thin split-thickness grafts, minigrafting, transplant of autologous cultured melanocytes, and a combination of dermabrasion and grafting of the pigmented skin into the depigmented areas.20,21 Guerra et al22 reported achromic epidermis removed with the erbium:YAG laser and autologous cultured epidermal grafts were applied to the recipient bed in 6 patients. Autologous cultured epidermis, bearing a controlled number of melanocytes, induced repigmentation of all piebald lesions. The mean percentage repigmentation was 95.45%.22
Piebaldism is a rare autosomal dominant disorder characterized by congenital poliosis and leukoderma. We present a case of a 10-year-old girl with a typical clinical presentation, followed by a concise review of the literature discussing the etiology, clinical features, diagnosis, and management of the condition.
Case Report
A 10-year-old girl presented for evaluation of a white forelock and multiple white patches of skin on the trunk and extremities (Figure). The white forelock was present at birth and a few white patches appeared on the chest at 3 months of age. During the subsequent 4 years, the white patches gradually progressed to involve the central forehead, abdomen, and extremities. Multiple frecklelike macules also appeared within the patches and the surrounding healthy skin.
Physical examination revealed a healthy girl with a prominent, large, diamond-shaped, depigmented patch on the central forehead that was associated with a white forelock. The hairs of the medial eyebrows and the eyelashes also were depigmented. Large, irregularly shaped, depigmented patches were present on the trunk and anterior extremities. There were multiple hyperpigmented macules overlying both the depigmented patches and the adjacent normally pigmented skin. The rest of the physical examination and the results of routine blood tests and urinalysis were unremarkable. The patient's mother and 4 siblings also were born with a white forelock. Similar depigmented patches on the trunk and extremities with a similar pattern and distribution were noted in all of them. Neither the patient nor her mother and siblings had midfacial anomalies, deafness, or heterochromia irides.
Comment
Piebaldism is a rare autosomal dominant disorder of melanocyte development resulting from mutations of the c-kit protooncogene.1,2 The disorder is characterized clinically by congenital poliosis and leukoderma. A white forelock is present at birth and may be the only manifestation in most affected individuals.3 The white forelock may have a triangular or diamond shape, and the underlying skin of the scalp also is amelanotic. Typical piebald lesions are typified by well-circumscribed, irregular, chalk white patches, often with hyperpigmented frecklelike macules noted on both depigmented and unaffected adjacent skin.4 The lesions often exhibit a classic distribution, involving the central forehead and anterior trunk, with extension to the flanks and anterior midarms, midknees, and midlegs. The medial third of the eyebrows and eyelashes also may be affected in severe cases.4 Characteristically, there is sparing of the dorsal midline, hands, feet, and periorificial areas. Piebaldism generally is a static disorder of pigmentation, though contraction of the affected areas with time or the appearance of new hyperpigmented macular lesions has been described.5 Progression of the depigmented patches has been reported in isolated cases with a novel Val620Ala mutation in Kit.6 Piebaldism rarely is associated with other disorders such as Hirschsprung disease, neurofibromatosis type 1, congenital dyserythropoietic anemia type II, Diamond-Blackfan anemia, and Grover disease.7-11 Individual case reports with associated deafness also have been described.12 Histopathologic evaluation of the depigmented lesions reveals absent or considerably reduced melanocytes. The hyperpigmented macules have a normal number of melanocytes and an increased number of melanosomes in the melanocytes and keratinocytes.4 The molecular basis of piebaldism was traced by Giebel and Spritz1 and Fleischman et al13 to mutations of the c-kit protooncogene. To date, 14 point mutations, 9 deletion mutations, 2 nucleotide splicing mutations, and 3 insertions of Kit have been described.6,14 c-kit Mutations are found in about 75% of patients with piebaldism.14 Mutations in the slug gene, which is a zinc-finger neural crest transcription factor, have been reported in piebaldism that lacked mutations in Kit.15 The human kit gene encodes the tyrosine kinase transmembrane cellular receptor for mast/stem cell growth factor, which is a critical factor for melanoblast migration, proliferation, differentiation, and survival.6 It would be pertinent to note here that the severity of the phenotype in piebaldism correlates with the site of the mutation within the kit gene. The most severe phenotypes are caused by mutations involving the intracellular tyrosine kinase domain, whereas the mildest phenotypes result from mutations involving the amino-terminal extracellular ligand-binding domain.6 The differential diagnosis of piebaldism includes any condition that may present with a depigmented lesion. Vitiligo is characterized by acquired depigmentation, typically in an acral and periorificial distribution. Piebaldism generally is distinguished from vitiligo by the presence of lesions from birth, hyperpigmented macules within and at the border of depigmented areas, and its static course. Moreover, piebaldism spares the dorsal midline, hands, feet, and periorificial areas. Waardenburg syndrome is an autosomal dominant disorder characterized by a congenital white forelock, lateral displacement of the medial canthi, a hypertrophic nasal root, heterochromia irides, and sensorineural hearing loss.16 At least 4 types of Waardenburg syndrome have been described based on the clinical and genetic criteria. The presence of hyperpigmented patches within the islands of depigmentation and on healthy skin; the absence of midfacial lesions, heterochromia irides, and deafness; and the location of depigmented patches on the trunk and extremities help to distinguish piebaldism from the various forms of Waardenburg syndrome.16 Ziprkowski-Margolis syndrome is a rare X-linked recessive syndrome characterized by deaf-mutism, heterochromic irides, piebaldlike hypomelanosis, and hyperpigmented macules, with a geographic appearance developing mainly on the trunk and extremities.17 Woolf syndrome is an autosomal recessive disorder consisting of piebaldism and deafness. Audiometry is crucial to exclude this diagnosis.18 Depending on its presentation, other conditions to consider include Addison disease, albinism, and systemic sclerosis, as well as use of depigmenting agents. Piebaldism is considered a relatively benign disorder, but it may have psychological impact because it is socially disabling, which presents a therapeutic challenge. Depigmented skin in piebaldism generally is considered unresponsive to medical or light therapy. Of note, the diagnosis of piebaldism should alert the clinician to the possibility of Waardenburg syndrome as determined by the results of ocular and auditory examinations. Sunscreens are recommended to avoid sunburns and to reduce the carcinogenic potential. To camouflage the exposed areas, makeup or temporary pigmenting agents such as the tanning product dihydroxyacetone may be used.19 The lesions of piebaldism do not respond to the topical agents used to treat vitiligo. Different surgical techniques have been tried, with variable success, including thin split-thickness grafts, minigrafting, transplant of autologous cultured melanocytes, and a combination of dermabrasion and grafting of the pigmented skin into the depigmented areas.20,21 Guerra et al22 reported achromic epidermis removed with the erbium:YAG laser and autologous cultured epidermal grafts were applied to the recipient bed in 6 patients. Autologous cultured epidermis, bearing a controlled number of melanocytes, induced repigmentation of all piebald lesions. The mean percentage repigmentation was 95.45%.22
- Giebel LB, Spritz RA. Mutation of the KIT (mast/stem cell growth factor receptor) protooncogene in human piebaldism. Proc Natl Acad Sci USA. 1991;88:8696-8699.
- Spritz RA. Molecular basis of human piebaldism. J Invest Dermatol. 1994;103(suppl 5):137S-140S.
- Ward KA, Moss C, Sanders DS. Human piebaldism: relationship between phenotype and site of kit gene mutation. Br J Dermatol. 1995;132:929-935.
- Thomas I, Kihiczak GG, Fox MD, et al. Piebaldism: an update. Int J Dermatol. 2004;43:716-719.
- Fukai K, Hamada T, Ishii M, et al. Acquired pigmented macules in human piebald lesions. ultrastructure of melanocytes in hypomelanotic skin. Acta Derm Venereol. 1989;69:524-527.
- Richards KA, Fukai K, Oiso N, et al. A novel KIT mutation results in piebaldism with progressive depigmentation. J Am Acad Dermatol. 2001;44:288-292.
- Mahakrishnan A, Srinivasan MS. Piebaldness with Hirschsprung's disease. Arch Dermatol. 1980;116:1102.
- Angelo C, Cianchini G, Grosso MG, et al. Association of piebaldism and neurofibromatosis type 1 in a girl. Pediatr Dermatol. 2001;18:490-493.
- Koklu S, Ertugrul D, Onat AM, et al. Piebaldism associated with congenital dyserythropoietic anemia type II (HEMPAS). Am J Hematol. 2002;69:210-213.
- Costa LD, Fixler J, Berets O, et al. Piebaldism in diamond-blackfan anaemia: a new phenotype? Br J Haematol. 2002;119:572
- Kiwan RA, Mutasim DF. Grover disease (transient acantholytic dermatosis) and piebaldism. Cutis. 2002;69:451-453.
- Spritz RA, Beighton P. Piebaldism with deafness: molecular evidence for an expanded syndrome. Am J Med Genet. 1998;75:101-103.
- Fleischman RA, Saltman DL, Stastny V, et al. Deletion of the c-kit protooncogene in the human developmental defect piebald trait. Proc Natl Acad Sci USA. 1991;88:10885-10889.
- Ezoe K, Holmes SA, Ho L, et al. Novel mutations and deletions of the KIT (steel factor receptor) gene in human piebaldism. Am J Hum Genet. 1995;56:58-66.
- Sanchez-Martin M, Perez-Losada J, Rodriguez-Garcia A, et al. Deletion of the SLUG (SNAI2) gene results in human piebaldism. Am J Med Genet A. 2003;122:125-132.
- Waardenburg PJ. A new syndrome combining developmental anomalies of the eyelids, eyebrows and nose root with pigmentary defects of the iris and head hair and with congenital deafness. Am J Hum Genet. 1951;3:195-253.
- Ziprkowski L, Krakowski A, Adam A, et al. Partial albinism and deaf-mutism due to a recessive sex-linked gene. Arch Dermatol. 1962;86:530-539.
- Woolf CM. Albinism among Indians in Arizona and New Mexico. Am J Hum Genet. 1965;17:23-35.
- Suga Y, Ikejima A, Matsuba S, et al. Medical pearl: DHA application for camouflaging segmental vitiligo and piebald lesions. J Am Acad Dermatol. 2002;47:436-438.
- Falabella R, Barona M, Escobar C, et al. Surgical combination therapy for vitiligo and piebaldism. Dermatol Surg. 1995;21:852-857.
- Njoo MD, Nieuweboer-Krobotova L, Westerhof W. Repigmentation of leucodermic defects in piebaldism by dermabrasion and thin split-thickness skin grafting in combination with minigrafting. Br J Dermatol. 1998;139:829-833.
- Guerra L, Primavera G, Raskovic D, et al. Permanent rep
- Giebel LB, Spritz RA. Mutation of the KIT (mast/stem cell growth factor receptor) protooncogene in human piebaldism. Proc Natl Acad Sci USA. 1991;88:8696-8699.
- Spritz RA. Molecular basis of human piebaldism. J Invest Dermatol. 1994;103(suppl 5):137S-140S.
- Ward KA, Moss C, Sanders DS. Human piebaldism: relationship between phenotype and site of kit gene mutation. Br J Dermatol. 1995;132:929-935.
- Thomas I, Kihiczak GG, Fox MD, et al. Piebaldism: an update. Int J Dermatol. 2004;43:716-719.
- Fukai K, Hamada T, Ishii M, et al. Acquired pigmented macules in human piebald lesions. ultrastructure of melanocytes in hypomelanotic skin. Acta Derm Venereol. 1989;69:524-527.
- Richards KA, Fukai K, Oiso N, et al. A novel KIT mutation results in piebaldism with progressive depigmentation. J Am Acad Dermatol. 2001;44:288-292.
- Mahakrishnan A, Srinivasan MS. Piebaldness with Hirschsprung's disease. Arch Dermatol. 1980;116:1102.
- Angelo C, Cianchini G, Grosso MG, et al. Association of piebaldism and neurofibromatosis type 1 in a girl. Pediatr Dermatol. 2001;18:490-493.
- Koklu S, Ertugrul D, Onat AM, et al. Piebaldism associated with congenital dyserythropoietic anemia type II (HEMPAS). Am J Hematol. 2002;69:210-213.
- Costa LD, Fixler J, Berets O, et al. Piebaldism in diamond-blackfan anaemia: a new phenotype? Br J Haematol. 2002;119:572
- Kiwan RA, Mutasim DF. Grover disease (transient acantholytic dermatosis) and piebaldism. Cutis. 2002;69:451-453.
- Spritz RA, Beighton P. Piebaldism with deafness: molecular evidence for an expanded syndrome. Am J Med Genet. 1998;75:101-103.
- Fleischman RA, Saltman DL, Stastny V, et al. Deletion of the c-kit protooncogene in the human developmental defect piebald trait. Proc Natl Acad Sci USA. 1991;88:10885-10889.
- Ezoe K, Holmes SA, Ho L, et al. Novel mutations and deletions of the KIT (steel factor receptor) gene in human piebaldism. Am J Hum Genet. 1995;56:58-66.
- Sanchez-Martin M, Perez-Losada J, Rodriguez-Garcia A, et al. Deletion of the SLUG (SNAI2) gene results in human piebaldism. Am J Med Genet A. 2003;122:125-132.
- Waardenburg PJ. A new syndrome combining developmental anomalies of the eyelids, eyebrows and nose root with pigmentary defects of the iris and head hair and with congenital deafness. Am J Hum Genet. 1951;3:195-253.
- Ziprkowski L, Krakowski A, Adam A, et al. Partial albinism and deaf-mutism due to a recessive sex-linked gene. Arch Dermatol. 1962;86:530-539.
- Woolf CM. Albinism among Indians in Arizona and New Mexico. Am J Hum Genet. 1965;17:23-35.
- Suga Y, Ikejima A, Matsuba S, et al. Medical pearl: DHA application for camouflaging segmental vitiligo and piebald lesions. J Am Acad Dermatol. 2002;47:436-438.
- Falabella R, Barona M, Escobar C, et al. Surgical combination therapy for vitiligo and piebaldism. Dermatol Surg. 1995;21:852-857.
- Njoo MD, Nieuweboer-Krobotova L, Westerhof W. Repigmentation of leucodermic defects in piebaldism by dermabrasion and thin split-thickness skin grafting in combination with minigrafting. Br J Dermatol. 1998;139:829-833.
- Guerra L, Primavera G, Raskovic D, et al. Permanent rep
New Lesions on the Knees With Palmoplantar Keratoderma
Etiology, Classification, and Treatment of Urticaria
Urticaria has been recognized since the days of Hippocrates. The name of the condition dates back to the 18th century, when the burning and edema of the skin was likened to that caused by contact with nettles (Urtica dioica). Urticaria affects 10% to 25% of the population worldwide at some point in their lives.1 The condition is characterized by short-lived edema of the skin, mouth, and genitalia related to a transient leakage of plasma from small blood vessels into the surrounding connective tissues. Urticaria may present with superficial edema of the dermis (wheals) or deeper edema of the dermal, subcutaneous, or submucosal tissues (angioedema).2 Wheals typically are itchy with a pale center, maturing into pink superficial plaques. Areas of angioedema tend to be pale and painful; last longer than wheals; and may involve the mouth and rarely the bowel.
Case Report
A 40-year-old woman in otherwise good health presented with a 5-year history of recurrent pruritic light red lesions on her chest and back. She reported that individual lesions would last up to 24 hours in one area before disappearing, while other new crops of lesions would develop in other areas of her body. She had no associated facial edema or lip or throat involvement, and she denied taking any medications. Her history failed to reveal any potential triggers for the eruptions. On physical examination, multiple elevated superficial erythematous papules and plaques were noted, with shapes varying from annular to circinate, areas of central clearing, and targetlike lesions on the trunk and extremities. The lesions blanched with pressure (Figure). The woman had no mucosal involvement, scars, or change in pigmentation. Results from the remainder of the physical examination were unremarkable.
PLEASE REFER TO THE PDF TO VIEW THE FIGURE
Because of the extent of involvement and the erythematous to violaceous aspect of certain lesions, a 3-mm punch biopsy was performed to rule out urticarial vasculitis. Histology results were consistent with urticaria with red blood extravasation but without vasculitis. Our patient initially was treated with topical clobetasol propionate ointment, 10 mg of cetirizine hydrochloride, and topical calamine lotion. At follow-up one week later, she mentioned that she had improved after 5 days of treatment but began developing new lesions 2 days prior to her second visit. Given the severity of pruritus and after a discussion of the role of corticosteroids for acute urticaria, a taper dose of prednisone was prescribed at 40 mg/d, in addition to 60 mg of fexofenadine hydrochloride twice daily. The patient was lesion- and symptom-free after 7 days of treatment, with no recurrence one month later.
Comment
Urticaria may be acute or chronic. Acute urticaria is idiopathic in more than 50% of patients but can occur as a type 1 hypersensitivity reaction to food or wasp or bee stings; an immunologic response to blood products, infection, or febrile illness; or an adverse effect of drug therapy by various mechanisms, such as penicillin or angiotensin-converting enzyme inhibitors.3 As opposed to acute urticaria, chronic urticaria is defined by recurrent episodes occurring at least twice weekly for 6 weeks.2 Urticaria occurring less frequently than this, over a long period, is more accurately termed episodic because it is more likely to have an identifiable environmental trigger. All chronic urticaria implicitly go through an acute stage (<6 weeks). Although many classification systems of chronic urticaria exist, a concise clinical classification is included in the Table.2 Urticarial vasculitis is a small vessel vasculitis but is included in the classification because it is clinically indistinguishable from other urticarial lesions.
PLEASE REFER TO THE PDF TO VIEW THE TABLE
Urticarial lesions in chronic urticaria typically last 4 to 36 hours and can occur in individuals of any age (though it is most common in women), usually with few systemic symptoms.4 Pruritus is nearly always severe, especially at night, and may prevent sleep. Fifty percent of cases resolve spontaneously by 6 months, but of those that do not, 40% still have symptoms of urticaria 10 years later.4 The severe effect of chronic urticaria on quality of life often is underestimated.5
Ordinary Urticaria
Patients previously classified as having chronic idiopathic or "ordinary" urticaria are now divided into 2 groups: 50% to 60% of these patients have chronic idiopathic urticaria (CIU), and the remainder have chronic autoimmune urticaria (CAU).6 Results from a study in children demonstrated that autoimmune urticaria occurs in children in as many as 30% of chronic cases.7 CAU is caused by an immunoglobulin (Ig) G antibody to the α subunit of the IgE receptor (35%–40% of cases) or to IgE (5%–10% of cases).6 The IgG subclasses that appear to be pathogenic are IgG1; IgG3; and, to a lesser degree, IgG4 (though not IgG2).6 Complement activation augments histamine secretion by release of C5a.8 CAU has been reported to be associated with antithyroid antibodies (27% of cases)6,9; autoimmune conditions such as vitiligo, rheumatoid arthritis, and pernicious anemia; and low vitamin B12 levels.10 Patients with demonstrable histamine-releasing autoantibodies have a very strong association with HLA-DR4 and its associated allele HLA-DQ8.11
Histologically, the 2 groups of urticaria are indistinguishable.6 Advanced techniques show a perivascular nonnecrotizing infiltrate of CD4+ lymphocytes consisting of a mixture of TH1 and TH2 subtypes, plus monocytes, neutrophils, eosinophils, and basophils. These cells are recruited because of interactions with C5a, cell priming cytokines, chemokines, and adhesion molecules.6 A recent study also found inflammatory cells and mediator up-regulation in uninvolved CIU skin as a sign of prolonged and widespread "urticarial status."12
Physical Urticaria
Physical urticaria are classified and induced by a physical stimulus. Most physical urticaria occur within minutes of provocation and resolve within 2 hours, with the exception of delayed pressure urticaria, which may persist for 24 hours or longer.13 Angioedema may occur in all physical urticaria except dermographism. Overlap between groups is common, and physical urticaria often occur as an added feature of chronic urticaria.
The most common type of physical urticaria is simple immediate dermographism, presenting with linear wheals at sites of scratching or friction. It occurs in about 1.4% to 5% of the population worldwide14 and may be viewed as an exaggerated physiologic response. On average, dermographism runs a course of 2 to 3 years before usually resolving spontaneously.15
Delayed-pressure urticaria is a response to sustained pressure to the skin, presenting with deep erythematous edema after a delay of unknown cause lasting 30 minutes to 12 hours.14,16 An increased level of interleukin 6 has been found in suction blister fluid over induced lesions.2,15 The edema tends to be deeper, pruritic, and painful, and it may persist for days. Systemic features such as malaise, flulike symptoms, and arthralgia may occur. The prognosis is variable, but the mean duration is 6 to 9 years.17 The response to antihistamines often is poor, and oral corticosteroids may be needed for disease control.2
Cholinergic urticaria usually presents with multiple, transient, pruritic, small, red macules or papules on the neck, trunk, forearms, wrists, and thighs in response to heat, often surrounded by an obvious flare. It mainly affects young adults, with an overall prevalence of 11% in this group.18 Fifty percent of patients are atopic.15 Angioedema and systemic manifestations such as headache, palpitations, abdominal pain, wheezing, and syncope may occur. The cholinergic sympathetic innervation of sweat glands is involved because the eruption can be blocked by topical anticholinergic drugs,19 but how this leads to urticaria is unclear. The routine treatment is with low-sedation H1-type antihistamines, with or without an anxiolytic such as oral propranolol. In severe cases, the anabolic steroid stanazolol has been used.15
Cold urticaria is a heterogeneous condition in which whealing occurs within minutes in response to cold exposure, most frequently in children and young adults. Wheals usually arise at the site of localized cooling but may be generalized following lowering of the body temperature.16 Diagnosis may be confirmed by applying an ice cube for 5 to 15 minutes to the skin, allowing an interval for skin rewarming, and observing the development of whealing that occurs on skin rewarming. Systemic symptoms such as flushing, headache, abdominal pain, and syncope can occur if large areas are affected. The cause is unknown, but a serum factor, possibly IgM or IgE, has been implicated.20 A heterozygous deficiency of the protease inhibitor α1-antichymotrypsin has been demonstrated and may be etiologically important in some patients.21 The prognosis is good, with spontaneous improvement in an average of 2 to 3 years.15 Ninety-six percent of cases of cold urticaria are primary.22 The diagnosis of secondary acquired cold urticaria depends on being able to demonstrate cryoglobulins, cold agglutinins, or possibly cryofibrinogens.17 These findings should, in turn, lead to investigations for an underlying cause, such as hepatitis B or C infection, lymphoproliferative disease, or infectious mononucleosis.15
Other uncommon forms of physical urticaria include adrenergic urticaria, which develops during phases of stress and has been associated with an increase in the plasma concentrations of norepinephrine, epinephrine, and prolactin.23 Aquagenic urticaria is precipitated by skin contact with water of any temperature.3 Exercise-induced anaphylaxis involves urticaria, respiratory distress, or hypotension after exercise. In localized heat urticaria, wheals occur on skin in direct contact with warm objects. Solar urticaria is a rare condition that occurs within minutes of exposure to UV light waves ranging from 280 to 760 nm14; it usually disappears in less than one hour. Vibratory urticaria occurs after a vibratory stimulus and can be a hereditary autosomaldominant disorder or an acquired sporadic disease.24
Urticarial Vasculitis
Urticarial vasculitis describes a distinct entity in which the gross cutaneous lesions resemble urticaria and histologically show features of a vasculitis. The diagnosis is suggested clinically by wheals lasting more than 24 hours and residual bruising.25 Although the clinical lesions may present as typical urticaria, pathophysiologically, it is a different disease caused by deposition of antigen-antibody complexes in vessel walls, a type 3 reaction causing vascular damage.17 Lesions often occur at pressure points and may resolve with residual purpura. Extracutaneous manifestations include transient and migratory arthralgia (50%); gastrointestinal symptoms (20%); and pulmonary obstructive disease (20%), particularly in smokers and patients with renal disease (5%–10%).17 Normocomplementemic urticarial vasculitis usually is idiopathic, but hypocomplementemic urticarial vasculitis may be associated with underlying systemic lupus erythematosus, Sjögren syndrome, or cryoglobulinemia.2 Primary urticarial vasculitis can occasionally evolve into systemic lupus erythematosus.26 Patients with urticarial vasculitis often improve on nonsteroidal anti-inflammatory drugs (NSAIDs), but some patients may need immunosuppressive therapy.
Contact Urticaria
Contact urticaria develops at the site(s) of contact of an urticant and can be divided into an allergic subgroup caused by an IgE-allergen interaction and a nonallergic subgroup that is IgE independent. The allergic form typically is seen in children with atopic dermatitis sensitized to environmental allergens such as grass, animals, food, or latex, and it may be complicated by anaphylaxis. Natural rubber latex is one of the most important causes today.27 This type appears within minutes, fades within 2 hours, and is partially inhibited by antihistamines. Nonallergic contact urticaria is caused by the direct effect of the urticant on blood vessels and includes irritants such as benzoic acid and cinnamic aldehyde in cosmetics. It may take 45 minutes for lesions to appear and urticaria is partially inhibited by NSAIDs.
Angioedema Without Wheals
It is useful to classify angioedema occurring without wheals as a separate entity because its etiology may be associated with hereditary angioedema, which must be excluded. The condition usually is idiopathic or caused by a drug reaction to angiotensin-converting enzyme inhibitors, aspirin, or NSAIDs. Hereditary angioedema is a rare autosomal-dominant condition with a prevalence between 1:10,000 and 1:150,000 in the general population and is caused by a deficiency (type 1, 85%) or dysfunction (type 2, 15%) of C1 inhibitor.28 A low level of C4 in the serum is a constant and diagnostic feature. A third type affecting primarily women and exacerbated by estrogens recently has been described.28 Patients have lifelong episodic angioedema and may experience colicky abdominal pain. Laryngeal involvement can be life threatening. Treatment is difficult and involves fluid replacement and purified C1 inhibitor concentrate for acute attacks (not approved in the United States) and prophylactic treatment with anabolic androgens and antifibrinolytics.28
Diagnosis
The diagnosis of urticaria is primarily clinical; extensive laboratory tests are very rarely needed—only when indicated by the patient history.3 Some authors argue that laboratory investigations are unnecessary for mild ordinary urticaria responding to antihistamines.29 Taking a thorough patient history has been found to be almost as effective in identifying a cause as a complete diagnostic evaluation.30 In acute urticaria, if the history indicates a type 1 hypersensitivity reaction, confirmation is possible by a prick test or laboratory radioallergosorbent tests.3 Many physical and contact urticaria can be confirmed by a challenge of the offending agent. An initial baseline investigation with a complete blood count and erythrocyte sedimentation rate should be taken in more severe cases to identify any internal disease or raise the possibility of urticarial vasculitis.17 Of note, a biopsy is more sensitive and specific for ruling out urticarial vasculitis than are a complete blood count and erythrocyte sedimentation rate.
A search for thyroid autoantibodies is appropriate for all chronic urticaria not responding to first-line therapies with antihistamines, especially when autoimmune urticaria is suspected.2 Further investigations are guided by clinical suspicion, which may include a skin biopsy, autoimmune screening, urinalysis, serum cryoglobulins, and hepatitis B and C serology.31 The only available test to screen for autoantibodies against the IgE receptor is the autologous serum skin test. This test should be performed with care because infections could be transmitted, particularly if, by mistake, patients were not injected with their own serum.31 Measurement of C4 is indicated only in patients who present with angioedema alone and should be followed by a determination of the levels and function of C1 inhibitor, if C4 is below reference range.29
Management and Treatment
Management of urticaria depends on its cause. Aggravating factors should be identified from the history, and triggering stimuli for physical urticaria should be avoided. Simple cooling lotions such as menthol 1% or 2% in an aqueous cream often are useful.32 Aspirin and NSAIDs should be avoided because they aggravate symptoms in 30% of patients.33 Patients taking low-dose aspirin for its antithrombotic properties usually can continue regular treatment. Avoiding codeine and other opiates also is recommended because an enhanced skin test reaction may be found in chronic urticaria.34 Avoiding dietary pseudoallergens, such as food coloring and natural salicylates, is controversial.14,35 This generally has only a small role unless proven by a double-blinded placebo-controlled challenge.2
The mainstays for treatment of urticaria are oral antihistamines, as they reduce pruritus and wheal duration and numbers. Oral antihistamines have been reported to produce moderate or good response in 44% to 91% of patients with all types of urticaria.36,37 Antihistamines can be grouped into first-generation (sedating), second generation (minimally sedating), third-generation (nonsedating), and H2 antagonists.17 The physiologic and pathologic actions of histamine are mediated through 4 histamine receptor subtypes: H1, H2, H3, and H4.38 The erythema, wheal formation, and itching associated with urticaria are mainly due to activation of H1 receptors and the less contributory role of H2 receptors.38 Histamine H3 receptors are located presynaptically on postganglionic sympathetic norepinephric nerves, including sympathetics innervating the heart and blood vessels. The contribution of H3 receptors to skin responses mediated by histamine has not been fully elucidated. However, in a recent experimental study, the authors reported that the combination of H1 and H3 antagonists might be a novel approach for the treatment of urticaria.38
Initially, a minimally sedating second- or third-generation antihistamine, such as loratadine,39 fexofenadine hydrochloride,40 and cetirizine hydrochloride,41-44 should be given at a once-daily oral dosing. When one antihistamine is not helpful, it is usually worth trying a different one, and some physicians combine 2 or more antihistamines at the same time.3 It is common practice to exceed the licensed dose in severely affected patients.31 High doses of antihistamines have effects beyond the blockade of histamine receptors, and actions that are not due to antagonism of H1 receptors may account for the efficacy of older antihistamines.45 As a general rule, antihistamines are safe and have few substantial adverse effects; drug interactions are rare. If possible, it is best to avoid all antihistamines in pregnancy, though none have been proven teratogenic. If one is used, the consensus is that chlorpheniramine maleate is among the safest.46
Addition of a sedating first-generation antihistamine such as hydroxyzine at night can be helpful, especially if nocturnal pruritus prevents sleep. The use of a sedating antihistamine as monotherapy is less desirable because of impairment of cognitive function, including driving performance and concentration. The addition of a H2 antagonist to conventional H1 antihistamines may be helpful in some patients.3,47 Doxepin hydrochloride at low doses (10–50 mg) is used for its potent H1 and H2 receptor antagonist properties. Doxepin hydrochloride is highly sedative and especially suitable for patients with associated depression.48
Oral corticosteroids given in short reducing courses may be needed for severe exacerbations not responding to full-dose antihistamines. Relatively high doses of up to 40 to 60 mg of prednisone may be needed for disease control. Alternate-day ste-roids may be used for patients with severe disease.6 Long-term administration should be avoided.1
Many patients feel reassured by carrying an epinephrine pen for self-administration if they are prone to severe attacks. Leukotriene antagonists (zafirlukast and montelukast sodium) have been shown to be superior to placebo in the treatment of patients with chronic urticaria.49,50 Nifedipine has a small effect in chronic urticaria and often is used for patients with concomitant hypertension. Thyroxine recently was reported to suppress CIU symptoms associated with antithyroid autoantibodies in some patients.51
Given the role of the immune system in a subset of patients, immunosuppressive therapy is considered for patients with a severe disabling course. Cyclosporine at 2.5 to 5 mg/kg per day is of proven value in autoantibody-positive chronic urticaria52 but also is effective in most cases of severe autoantibody-negative disease.15 Tacrolimus also has shown promise in a recent trial.53 Other options include plasmapheresis54 and intravenous immunoglobulin.55,56 Optimal treatment protocols have yet to be confirmed. Treatments for CIU with only limited or anecdotal supportive evidence include sulfasalazine, methotrexate, rofecoxib, colchicine, dapsone, and cyclophosphamide.3
Future treatment may involve development of selective immunotherapy targeting the IgE receptor or vaccinations to down-regulate and induce tolerance to the IgE receptor. Other potential strategies include blocking formation of C5a and use of therapeutic antibodies such as anti-IgE, anti–tumor necrosis factor α, and anti–interleukin 5.2
Conclusion
There is no single way to manage urticaria and angioedema. Most patients are treated successfully with antihistamines. However, patients with severe antihistamine-resistant urticaria may be very disabled by their disease, and the treatment can pose a major challenge to the physician.
- Henderson RL Jr, Fleischer AB Jr, Feldman SR. Allergists and dermatologists have far more expertise in caring for patients with urticaria than other specialists. J Am Acad Dermatol. 2000;43:1084-1091.
- Grattan CEH, Sabroe RA, Greaves MW. Chronic urticaria. J Am Acad Dermatol. 2002;46:645-657.
- Kozel MM, Sabroe RA. Chronic urticaria: aetiology, management and current and future treatment options. Drugs. 2004;64:2515-2536.
- Negro-Alvarez JM, Miralles-Lopez JC. Chronic idiopathic urticaria treatment. Allergol Immunopathol (Madr). 2001;29:129-132.
- Grob JJ, Revuz J, Ortonne JP, et al. Comparative study of the impact of chronic urticaria, psoriasis and atopic dermatitis on the quality of life. Br J Dermatol. 2005;152:289-295.
- Kaplan AP. Chronic urticaria: pathogenesis and treatment. J Allergy Clin Immunol. 2004;114:465-474.
- Brunetti L, Francavilla R, Miniello VL, et al. High prevalence of autoimmune urticaria in children with chronic urticaria. J Allergy Clin Immunol. 2004;114:922-927.
- Kikuchi Y, Kaplan AP. A role for C5a in augmenting IgG-dependent histamine release from basophils in chronic urticaria. J Allergy Clin Immunol. 2002;109:114-118.
- Gruber BL, Baeza M, Marchese M, et al. Prevalence and functional role of anti-IgE antibodies in urticarial syndromes. J Invest Dermatol. 1988;90:213-217.
- Mete N, Gulbahar O, Aydin A, et al. Low B12 levels in chronic idiopathic urticaria. J Investig Allergol Clin Immunol. 2004;14:292-299.
- O'Donnell BF, O'Neill CM, Francis DM, et al. Human leucocyte antigen class II associations in chronic idiopathic urticaria. Br J Dermatol. 1999;140:853-858.
- Caproni M, Giomi B, Volpi W, et al. Chronic idiopathic urticaria: infiltrating cells and related cytokines in autologous serum-induced wheals. Clin Immunol. 2005;114:284-292.
- Black AK, Lawlor F, Greaves MW. Consensus meeting on the definition of physical urticarias and urticarial vasculitis. Clin Exp Dermatol. 1996;21:424-426.
- Henz BM. Physical urticaria. In: Henz BM, Zuberbier T, Grabbe J, et al, eds. Urticaria: Clinical, Diagnostic and Therapeutic Aspects. Berlin, Germany: Springer Verlag; 1998:55-89.
- Greaves M. Chronic urticaria. J Allergy Clin Immunol. 2000;105:664-672.
- Kontou-Fili K, Borici-Mazi R, Kapp A, et al. Physical urticaria: classification and diagnostic guidelines: an EAACI position paper. Allergy. 1997;52:503-513.
- Bolognia JL, Jorizzo JL, Rapini RP, eds. Dermatology. New York, NY: Mosby; 2003:287-311.
- Zuberbier T, Althaus C, Chantraine-Hess S, et al. Prevalence of cholinergic urticaria in young adults. J Am Acad Dermatol. 1994;31:978-981.
- Herxheimer A. The nervous pathway mediating cholinergic urticaria. Clin Sci (Lond). 1956;15:195-204.
- Wanderer AA, Maselli R, Ellis EF, et al. Immunological characterisation of serum factors responsible for cold urticaria.
- Lindmark B, Wallengren J. Heterozygous alpha1-antichymotrypsin deficiency may be associated with cold urticaria. Allergy. 1992;47:456-458.
- Neittaanmaki H. Cold urticaria: clinical findings in 220 patients. J Am Acad Dermatol. 1985;13:636-644.
- Haustein UF. Adrenergic urticaria and adrenergic pruritus. Acta Derm Venereol. 1990;70:82-84.
- Mathelier-Fusade P, Vermeulen C, Leynadier F. Vibratory angioedema. Ann Dermatol Venereol. 2001;128:750-752.
- O’Donnell B, Black AK. Urticarial vasculitis. Int Angiol. 1995;14:166-174.
- Bisaccia E, Adamo V, Rozan SW. Urticarial vasculitis progressing to systemic lupus erythematosus. Arch Dermatol. 1988;124:1088-1090.
- Wakelin SH. Contact urticaria. Clin Exp Dermatol. 2001;26:132-136.
- Zuraw BL. Current and future therapy for hereditary angioedema. Clin Immunol. 2005;114:10-16.
- Grattan C, Powell S, Humphreys F. Management and diagnostic guidelines for urticaria and angio-oedema. Br J Dermatol. 2001;144:708-714.
- Kozel MM, Mekkes JR, Bossuyt PM, et al. The effectiveness of a history-based diagnostic approach in chronic urticaria and angioedema. Arch Dermatol. 1998;134:1575-1580.
- Zuberbier T, Greaves MW, Juhlin L, et al. Definition, classification, and routine diagnosis of urticaria: a consensus report. J Investig Dermatol Symp Proc. 2001;6:123-127.
- Bromm B, Scharein E, Darsow U, et al. Effects of menthol and cold on histamine-induced itch and skin reactions in man. Neurosci Lett. 1995;187:157-160.
- Doeglas HMG. Reactions to aspirin and food additives in patients with chronic urticaria, including the physical urticarias. Br J Dermatol. 1975;93:135-144.
- Kaufman A, Rosenstreich DL. Mast cell heterogeneity in chronic idiopathic urticaria. Ann Allergy. 1990;65:367-373.
- Ortolani C, Pastorello E, Ispano M, et al. Food allergy diagnosis protocol. Allerg Immunol (Paris). 1988;20:48-50.
- 36. Humphreys F, Hunter JA. The characteristics of urticarial in 390 patients. Br J Dermatol. 1998;138:635-638.
- 37. Nettis E, Pannofino A, D’Aprile C, et al. Clinical and aetiological aspects in urticaria and angio-oedema. Br J Dermatol. 2003;148:501-506.
- 38. McLeod RL, Mingo GG, Kreutner W, et al. Effect of combined histamine H1 and H3 receptor blockade on cutaneous microvascular permeability elicited by compound 48/80. Life Sci. 2005;76:1787-1794.
- 39. Monroe EW. Loratadine in the treatment of urticaria. Clin Ther. 1997;19:232-242.
- 40. Nelson HS, Reynolds R, Mason J. Fexofenadine HCl is safe and effective for treatment of chronic idiopathic urticaria. Ann Allergy Asthma Immunol. 2000;84: 517-522.
- 41. Breneman D, Bronsky EA, Bruce S, et al. Cetirizine and astemizole therapy for chronic idiopathic urticaria: a double-blind, placebo-controlled, comparative trial. J Am Acad Dermatol. 1995;33(2 pt 1):192-198.
- 42. Breneman DL. Cetirizine versus hydroxyzine and placebo in chronic idiopathic urticaria. Ann Pharmacother. 1996;30:1075-1079.
- 43. Kalivas J, Breneman D, Tharp M, et al. Urticaria: clinical efficacy of cetirizine in comparison with hydroxyzine and placebo. J Allergy Clin Immunol. 1990;86(6 pt 2): 1014-1018.
- 44. Andri L, Senna GE, Betteli C, et al. A comparison of the efficacy of cetirizine and terfenadine: a double-blind, controlled study of chronic idiopathic urticaria. Allergy. 1993;48:358-365.
- 45. Kaplan AP. Clinical practice. chronic urticaria and angioedema. N Engl J Med. 2002;346:175-179.
- 46. Andrews AW, Fornwald JA, Lijinsky W. Nitrosation and mutagenicity of some anime drugs. Toxicol Appl Pharmacol. 1980;52:237-244.
- 47. Commens CA, Greaves MW. Cimetidine in chronic idiopathic urticaria: a randomised double-blind study. Br J Dermatol. 1978;99:675-679.
- 48. Furukawa T, McGuire H, Barbui C. Low dosage tricyclic antidepressants for depression. Cochrane Database Syst Rev. 2003;(3):CD003197.
- 49. Ellis MH. Successful treatment of chronic urticaria with leukotriene antagonists. J Allergy Clin Immunol. 1998;102:876-877.
- 50. Spector S, Tan RA. Antileukotrienes in chronic urticaria. J Allergy Clin Immunol. 1998;101(4 pt 1):572.
- 51. Aversano M, Caiazzo P, Iorio G, et al. Improvement of chronic idiopathic urticaria with L-thyroxine: a new TSH role in immune response? Allergy. 2005;60:489-493.
- Grattan CE, O’Donnell BF, Francis DM, et al. Randomized double-blind study of cyclosporin in chronic “idiopathic” urticaria. Br J Dermatol. 2000;143:365-372.
- Kessel A, Bamberger E, Toubi E. Tacrolimus in the treatment of severe chronic idiopathic urticaria: an open-label prospective study. J Am Acad Dermatol. 2005;52:145-148.
- Grattan CEH, Francis DM, Slater NGP, et al. Plasmapheresis for severe unremitting chronic urticaria. Lancet. 1992;339:1078-1080.
- O’Donnell BF, Barr RM, Blac AK, et al. Intravenous immunoglobulin in chronic autoimmune urticaria. Br J Dermatol. 1998;138:101-106.
- Klote MM, Nelson MR, Engler RJ. Autoimmune urticarial response to high-dose intravenous immunoglobulin. Ann Allergy Asthma Immunol. 2005;94:307-308.
Urticaria has been recognized since the days of Hippocrates. The name of the condition dates back to the 18th century, when the burning and edema of the skin was likened to that caused by contact with nettles (Urtica dioica). Urticaria affects 10% to 25% of the population worldwide at some point in their lives.1 The condition is characterized by short-lived edema of the skin, mouth, and genitalia related to a transient leakage of plasma from small blood vessels into the surrounding connective tissues. Urticaria may present with superficial edema of the dermis (wheals) or deeper edema of the dermal, subcutaneous, or submucosal tissues (angioedema).2 Wheals typically are itchy with a pale center, maturing into pink superficial plaques. Areas of angioedema tend to be pale and painful; last longer than wheals; and may involve the mouth and rarely the bowel.
Case Report
A 40-year-old woman in otherwise good health presented with a 5-year history of recurrent pruritic light red lesions on her chest and back. She reported that individual lesions would last up to 24 hours in one area before disappearing, while other new crops of lesions would develop in other areas of her body. She had no associated facial edema or lip or throat involvement, and she denied taking any medications. Her history failed to reveal any potential triggers for the eruptions. On physical examination, multiple elevated superficial erythematous papules and plaques were noted, with shapes varying from annular to circinate, areas of central clearing, and targetlike lesions on the trunk and extremities. The lesions blanched with pressure (Figure). The woman had no mucosal involvement, scars, or change in pigmentation. Results from the remainder of the physical examination were unremarkable.
PLEASE REFER TO THE PDF TO VIEW THE FIGURE
Because of the extent of involvement and the erythematous to violaceous aspect of certain lesions, a 3-mm punch biopsy was performed to rule out urticarial vasculitis. Histology results were consistent with urticaria with red blood extravasation but without vasculitis. Our patient initially was treated with topical clobetasol propionate ointment, 10 mg of cetirizine hydrochloride, and topical calamine lotion. At follow-up one week later, she mentioned that she had improved after 5 days of treatment but began developing new lesions 2 days prior to her second visit. Given the severity of pruritus and after a discussion of the role of corticosteroids for acute urticaria, a taper dose of prednisone was prescribed at 40 mg/d, in addition to 60 mg of fexofenadine hydrochloride twice daily. The patient was lesion- and symptom-free after 7 days of treatment, with no recurrence one month later.
Comment
Urticaria may be acute or chronic. Acute urticaria is idiopathic in more than 50% of patients but can occur as a type 1 hypersensitivity reaction to food or wasp or bee stings; an immunologic response to blood products, infection, or febrile illness; or an adverse effect of drug therapy by various mechanisms, such as penicillin or angiotensin-converting enzyme inhibitors.3 As opposed to acute urticaria, chronic urticaria is defined by recurrent episodes occurring at least twice weekly for 6 weeks.2 Urticaria occurring less frequently than this, over a long period, is more accurately termed episodic because it is more likely to have an identifiable environmental trigger. All chronic urticaria implicitly go through an acute stage (<6 weeks). Although many classification systems of chronic urticaria exist, a concise clinical classification is included in the Table.2 Urticarial vasculitis is a small vessel vasculitis but is included in the classification because it is clinically indistinguishable from other urticarial lesions.
PLEASE REFER TO THE PDF TO VIEW THE TABLE
Urticarial lesions in chronic urticaria typically last 4 to 36 hours and can occur in individuals of any age (though it is most common in women), usually with few systemic symptoms.4 Pruritus is nearly always severe, especially at night, and may prevent sleep. Fifty percent of cases resolve spontaneously by 6 months, but of those that do not, 40% still have symptoms of urticaria 10 years later.4 The severe effect of chronic urticaria on quality of life often is underestimated.5
Ordinary Urticaria
Patients previously classified as having chronic idiopathic or "ordinary" urticaria are now divided into 2 groups: 50% to 60% of these patients have chronic idiopathic urticaria (CIU), and the remainder have chronic autoimmune urticaria (CAU).6 Results from a study in children demonstrated that autoimmune urticaria occurs in children in as many as 30% of chronic cases.7 CAU is caused by an immunoglobulin (Ig) G antibody to the α subunit of the IgE receptor (35%–40% of cases) or to IgE (5%–10% of cases).6 The IgG subclasses that appear to be pathogenic are IgG1; IgG3; and, to a lesser degree, IgG4 (though not IgG2).6 Complement activation augments histamine secretion by release of C5a.8 CAU has been reported to be associated with antithyroid antibodies (27% of cases)6,9; autoimmune conditions such as vitiligo, rheumatoid arthritis, and pernicious anemia; and low vitamin B12 levels.10 Patients with demonstrable histamine-releasing autoantibodies have a very strong association with HLA-DR4 and its associated allele HLA-DQ8.11
Histologically, the 2 groups of urticaria are indistinguishable.6 Advanced techniques show a perivascular nonnecrotizing infiltrate of CD4+ lymphocytes consisting of a mixture of TH1 and TH2 subtypes, plus monocytes, neutrophils, eosinophils, and basophils. These cells are recruited because of interactions with C5a, cell priming cytokines, chemokines, and adhesion molecules.6 A recent study also found inflammatory cells and mediator up-regulation in uninvolved CIU skin as a sign of prolonged and widespread "urticarial status."12
Physical Urticaria
Physical urticaria are classified and induced by a physical stimulus. Most physical urticaria occur within minutes of provocation and resolve within 2 hours, with the exception of delayed pressure urticaria, which may persist for 24 hours or longer.13 Angioedema may occur in all physical urticaria except dermographism. Overlap between groups is common, and physical urticaria often occur as an added feature of chronic urticaria.
The most common type of physical urticaria is simple immediate dermographism, presenting with linear wheals at sites of scratching or friction. It occurs in about 1.4% to 5% of the population worldwide14 and may be viewed as an exaggerated physiologic response. On average, dermographism runs a course of 2 to 3 years before usually resolving spontaneously.15
Delayed-pressure urticaria is a response to sustained pressure to the skin, presenting with deep erythematous edema after a delay of unknown cause lasting 30 minutes to 12 hours.14,16 An increased level of interleukin 6 has been found in suction blister fluid over induced lesions.2,15 The edema tends to be deeper, pruritic, and painful, and it may persist for days. Systemic features such as malaise, flulike symptoms, and arthralgia may occur. The prognosis is variable, but the mean duration is 6 to 9 years.17 The response to antihistamines often is poor, and oral corticosteroids may be needed for disease control.2
Cholinergic urticaria usually presents with multiple, transient, pruritic, small, red macules or papules on the neck, trunk, forearms, wrists, and thighs in response to heat, often surrounded by an obvious flare. It mainly affects young adults, with an overall prevalence of 11% in this group.18 Fifty percent of patients are atopic.15 Angioedema and systemic manifestations such as headache, palpitations, abdominal pain, wheezing, and syncope may occur. The cholinergic sympathetic innervation of sweat glands is involved because the eruption can be blocked by topical anticholinergic drugs,19 but how this leads to urticaria is unclear. The routine treatment is with low-sedation H1-type antihistamines, with or without an anxiolytic such as oral propranolol. In severe cases, the anabolic steroid stanazolol has been used.15
Cold urticaria is a heterogeneous condition in which whealing occurs within minutes in response to cold exposure, most frequently in children and young adults. Wheals usually arise at the site of localized cooling but may be generalized following lowering of the body temperature.16 Diagnosis may be confirmed by applying an ice cube for 5 to 15 minutes to the skin, allowing an interval for skin rewarming, and observing the development of whealing that occurs on skin rewarming. Systemic symptoms such as flushing, headache, abdominal pain, and syncope can occur if large areas are affected. The cause is unknown, but a serum factor, possibly IgM or IgE, has been implicated.20 A heterozygous deficiency of the protease inhibitor α1-antichymotrypsin has been demonstrated and may be etiologically important in some patients.21 The prognosis is good, with spontaneous improvement in an average of 2 to 3 years.15 Ninety-six percent of cases of cold urticaria are primary.22 The diagnosis of secondary acquired cold urticaria depends on being able to demonstrate cryoglobulins, cold agglutinins, or possibly cryofibrinogens.17 These findings should, in turn, lead to investigations for an underlying cause, such as hepatitis B or C infection, lymphoproliferative disease, or infectious mononucleosis.15
Other uncommon forms of physical urticaria include adrenergic urticaria, which develops during phases of stress and has been associated with an increase in the plasma concentrations of norepinephrine, epinephrine, and prolactin.23 Aquagenic urticaria is precipitated by skin contact with water of any temperature.3 Exercise-induced anaphylaxis involves urticaria, respiratory distress, or hypotension after exercise. In localized heat urticaria, wheals occur on skin in direct contact with warm objects. Solar urticaria is a rare condition that occurs within minutes of exposure to UV light waves ranging from 280 to 760 nm14; it usually disappears in less than one hour. Vibratory urticaria occurs after a vibratory stimulus and can be a hereditary autosomaldominant disorder or an acquired sporadic disease.24
Urticarial Vasculitis
Urticarial vasculitis describes a distinct entity in which the gross cutaneous lesions resemble urticaria and histologically show features of a vasculitis. The diagnosis is suggested clinically by wheals lasting more than 24 hours and residual bruising.25 Although the clinical lesions may present as typical urticaria, pathophysiologically, it is a different disease caused by deposition of antigen-antibody complexes in vessel walls, a type 3 reaction causing vascular damage.17 Lesions often occur at pressure points and may resolve with residual purpura. Extracutaneous manifestations include transient and migratory arthralgia (50%); gastrointestinal symptoms (20%); and pulmonary obstructive disease (20%), particularly in smokers and patients with renal disease (5%–10%).17 Normocomplementemic urticarial vasculitis usually is idiopathic, but hypocomplementemic urticarial vasculitis may be associated with underlying systemic lupus erythematosus, Sjögren syndrome, or cryoglobulinemia.2 Primary urticarial vasculitis can occasionally evolve into systemic lupus erythematosus.26 Patients with urticarial vasculitis often improve on nonsteroidal anti-inflammatory drugs (NSAIDs), but some patients may need immunosuppressive therapy.
Contact Urticaria
Contact urticaria develops at the site(s) of contact of an urticant and can be divided into an allergic subgroup caused by an IgE-allergen interaction and a nonallergic subgroup that is IgE independent. The allergic form typically is seen in children with atopic dermatitis sensitized to environmental allergens such as grass, animals, food, or latex, and it may be complicated by anaphylaxis. Natural rubber latex is one of the most important causes today.27 This type appears within minutes, fades within 2 hours, and is partially inhibited by antihistamines. Nonallergic contact urticaria is caused by the direct effect of the urticant on blood vessels and includes irritants such as benzoic acid and cinnamic aldehyde in cosmetics. It may take 45 minutes for lesions to appear and urticaria is partially inhibited by NSAIDs.
Angioedema Without Wheals
It is useful to classify angioedema occurring without wheals as a separate entity because its etiology may be associated with hereditary angioedema, which must be excluded. The condition usually is idiopathic or caused by a drug reaction to angiotensin-converting enzyme inhibitors, aspirin, or NSAIDs. Hereditary angioedema is a rare autosomal-dominant condition with a prevalence between 1:10,000 and 1:150,000 in the general population and is caused by a deficiency (type 1, 85%) or dysfunction (type 2, 15%) of C1 inhibitor.28 A low level of C4 in the serum is a constant and diagnostic feature. A third type affecting primarily women and exacerbated by estrogens recently has been described.28 Patients have lifelong episodic angioedema and may experience colicky abdominal pain. Laryngeal involvement can be life threatening. Treatment is difficult and involves fluid replacement and purified C1 inhibitor concentrate for acute attacks (not approved in the United States) and prophylactic treatment with anabolic androgens and antifibrinolytics.28
Diagnosis
The diagnosis of urticaria is primarily clinical; extensive laboratory tests are very rarely needed—only when indicated by the patient history.3 Some authors argue that laboratory investigations are unnecessary for mild ordinary urticaria responding to antihistamines.29 Taking a thorough patient history has been found to be almost as effective in identifying a cause as a complete diagnostic evaluation.30 In acute urticaria, if the history indicates a type 1 hypersensitivity reaction, confirmation is possible by a prick test or laboratory radioallergosorbent tests.3 Many physical and contact urticaria can be confirmed by a challenge of the offending agent. An initial baseline investigation with a complete blood count and erythrocyte sedimentation rate should be taken in more severe cases to identify any internal disease or raise the possibility of urticarial vasculitis.17 Of note, a biopsy is more sensitive and specific for ruling out urticarial vasculitis than are a complete blood count and erythrocyte sedimentation rate.
A search for thyroid autoantibodies is appropriate for all chronic urticaria not responding to first-line therapies with antihistamines, especially when autoimmune urticaria is suspected.2 Further investigations are guided by clinical suspicion, which may include a skin biopsy, autoimmune screening, urinalysis, serum cryoglobulins, and hepatitis B and C serology.31 The only available test to screen for autoantibodies against the IgE receptor is the autologous serum skin test. This test should be performed with care because infections could be transmitted, particularly if, by mistake, patients were not injected with their own serum.31 Measurement of C4 is indicated only in patients who present with angioedema alone and should be followed by a determination of the levels and function of C1 inhibitor, if C4 is below reference range.29
Management and Treatment
Management of urticaria depends on its cause. Aggravating factors should be identified from the history, and triggering stimuli for physical urticaria should be avoided. Simple cooling lotions such as menthol 1% or 2% in an aqueous cream often are useful.32 Aspirin and NSAIDs should be avoided because they aggravate symptoms in 30% of patients.33 Patients taking low-dose aspirin for its antithrombotic properties usually can continue regular treatment. Avoiding codeine and other opiates also is recommended because an enhanced skin test reaction may be found in chronic urticaria.34 Avoiding dietary pseudoallergens, such as food coloring and natural salicylates, is controversial.14,35 This generally has only a small role unless proven by a double-blinded placebo-controlled challenge.2
The mainstays for treatment of urticaria are oral antihistamines, as they reduce pruritus and wheal duration and numbers. Oral antihistamines have been reported to produce moderate or good response in 44% to 91% of patients with all types of urticaria.36,37 Antihistamines can be grouped into first-generation (sedating), second generation (minimally sedating), third-generation (nonsedating), and H2 antagonists.17 The physiologic and pathologic actions of histamine are mediated through 4 histamine receptor subtypes: H1, H2, H3, and H4.38 The erythema, wheal formation, and itching associated with urticaria are mainly due to activation of H1 receptors and the less contributory role of H2 receptors.38 Histamine H3 receptors are located presynaptically on postganglionic sympathetic norepinephric nerves, including sympathetics innervating the heart and blood vessels. The contribution of H3 receptors to skin responses mediated by histamine has not been fully elucidated. However, in a recent experimental study, the authors reported that the combination of H1 and H3 antagonists might be a novel approach for the treatment of urticaria.38
Initially, a minimally sedating second- or third-generation antihistamine, such as loratadine,39 fexofenadine hydrochloride,40 and cetirizine hydrochloride,41-44 should be given at a once-daily oral dosing. When one antihistamine is not helpful, it is usually worth trying a different one, and some physicians combine 2 or more antihistamines at the same time.3 It is common practice to exceed the licensed dose in severely affected patients.31 High doses of antihistamines have effects beyond the blockade of histamine receptors, and actions that are not due to antagonism of H1 receptors may account for the efficacy of older antihistamines.45 As a general rule, antihistamines are safe and have few substantial adverse effects; drug interactions are rare. If possible, it is best to avoid all antihistamines in pregnancy, though none have been proven teratogenic. If one is used, the consensus is that chlorpheniramine maleate is among the safest.46
Addition of a sedating first-generation antihistamine such as hydroxyzine at night can be helpful, especially if nocturnal pruritus prevents sleep. The use of a sedating antihistamine as monotherapy is less desirable because of impairment of cognitive function, including driving performance and concentration. The addition of a H2 antagonist to conventional H1 antihistamines may be helpful in some patients.3,47 Doxepin hydrochloride at low doses (10–50 mg) is used for its potent H1 and H2 receptor antagonist properties. Doxepin hydrochloride is highly sedative and especially suitable for patients with associated depression.48
Oral corticosteroids given in short reducing courses may be needed for severe exacerbations not responding to full-dose antihistamines. Relatively high doses of up to 40 to 60 mg of prednisone may be needed for disease control. Alternate-day ste-roids may be used for patients with severe disease.6 Long-term administration should be avoided.1
Many patients feel reassured by carrying an epinephrine pen for self-administration if they are prone to severe attacks. Leukotriene antagonists (zafirlukast and montelukast sodium) have been shown to be superior to placebo in the treatment of patients with chronic urticaria.49,50 Nifedipine has a small effect in chronic urticaria and often is used for patients with concomitant hypertension. Thyroxine recently was reported to suppress CIU symptoms associated with antithyroid autoantibodies in some patients.51
Given the role of the immune system in a subset of patients, immunosuppressive therapy is considered for patients with a severe disabling course. Cyclosporine at 2.5 to 5 mg/kg per day is of proven value in autoantibody-positive chronic urticaria52 but also is effective in most cases of severe autoantibody-negative disease.15 Tacrolimus also has shown promise in a recent trial.53 Other options include plasmapheresis54 and intravenous immunoglobulin.55,56 Optimal treatment protocols have yet to be confirmed. Treatments for CIU with only limited or anecdotal supportive evidence include sulfasalazine, methotrexate, rofecoxib, colchicine, dapsone, and cyclophosphamide.3
Future treatment may involve development of selective immunotherapy targeting the IgE receptor or vaccinations to down-regulate and induce tolerance to the IgE receptor. Other potential strategies include blocking formation of C5a and use of therapeutic antibodies such as anti-IgE, anti–tumor necrosis factor α, and anti–interleukin 5.2
Conclusion
There is no single way to manage urticaria and angioedema. Most patients are treated successfully with antihistamines. However, patients with severe antihistamine-resistant urticaria may be very disabled by their disease, and the treatment can pose a major challenge to the physician.
Urticaria has been recognized since the days of Hippocrates. The name of the condition dates back to the 18th century, when the burning and edema of the skin was likened to that caused by contact with nettles (Urtica dioica). Urticaria affects 10% to 25% of the population worldwide at some point in their lives.1 The condition is characterized by short-lived edema of the skin, mouth, and genitalia related to a transient leakage of plasma from small blood vessels into the surrounding connective tissues. Urticaria may present with superficial edema of the dermis (wheals) or deeper edema of the dermal, subcutaneous, or submucosal tissues (angioedema).2 Wheals typically are itchy with a pale center, maturing into pink superficial plaques. Areas of angioedema tend to be pale and painful; last longer than wheals; and may involve the mouth and rarely the bowel.
Case Report
A 40-year-old woman in otherwise good health presented with a 5-year history of recurrent pruritic light red lesions on her chest and back. She reported that individual lesions would last up to 24 hours in one area before disappearing, while other new crops of lesions would develop in other areas of her body. She had no associated facial edema or lip or throat involvement, and she denied taking any medications. Her history failed to reveal any potential triggers for the eruptions. On physical examination, multiple elevated superficial erythematous papules and plaques were noted, with shapes varying from annular to circinate, areas of central clearing, and targetlike lesions on the trunk and extremities. The lesions blanched with pressure (Figure). The woman had no mucosal involvement, scars, or change in pigmentation. Results from the remainder of the physical examination were unremarkable.
PLEASE REFER TO THE PDF TO VIEW THE FIGURE
Because of the extent of involvement and the erythematous to violaceous aspect of certain lesions, a 3-mm punch biopsy was performed to rule out urticarial vasculitis. Histology results were consistent with urticaria with red blood extravasation but without vasculitis. Our patient initially was treated with topical clobetasol propionate ointment, 10 mg of cetirizine hydrochloride, and topical calamine lotion. At follow-up one week later, she mentioned that she had improved after 5 days of treatment but began developing new lesions 2 days prior to her second visit. Given the severity of pruritus and after a discussion of the role of corticosteroids for acute urticaria, a taper dose of prednisone was prescribed at 40 mg/d, in addition to 60 mg of fexofenadine hydrochloride twice daily. The patient was lesion- and symptom-free after 7 days of treatment, with no recurrence one month later.
Comment
Urticaria may be acute or chronic. Acute urticaria is idiopathic in more than 50% of patients but can occur as a type 1 hypersensitivity reaction to food or wasp or bee stings; an immunologic response to blood products, infection, or febrile illness; or an adverse effect of drug therapy by various mechanisms, such as penicillin or angiotensin-converting enzyme inhibitors.3 As opposed to acute urticaria, chronic urticaria is defined by recurrent episodes occurring at least twice weekly for 6 weeks.2 Urticaria occurring less frequently than this, over a long period, is more accurately termed episodic because it is more likely to have an identifiable environmental trigger. All chronic urticaria implicitly go through an acute stage (<6 weeks). Although many classification systems of chronic urticaria exist, a concise clinical classification is included in the Table.2 Urticarial vasculitis is a small vessel vasculitis but is included in the classification because it is clinically indistinguishable from other urticarial lesions.
PLEASE REFER TO THE PDF TO VIEW THE TABLE
Urticarial lesions in chronic urticaria typically last 4 to 36 hours and can occur in individuals of any age (though it is most common in women), usually with few systemic symptoms.4 Pruritus is nearly always severe, especially at night, and may prevent sleep. Fifty percent of cases resolve spontaneously by 6 months, but of those that do not, 40% still have symptoms of urticaria 10 years later.4 The severe effect of chronic urticaria on quality of life often is underestimated.5
Ordinary Urticaria
Patients previously classified as having chronic idiopathic or "ordinary" urticaria are now divided into 2 groups: 50% to 60% of these patients have chronic idiopathic urticaria (CIU), and the remainder have chronic autoimmune urticaria (CAU).6 Results from a study in children demonstrated that autoimmune urticaria occurs in children in as many as 30% of chronic cases.7 CAU is caused by an immunoglobulin (Ig) G antibody to the α subunit of the IgE receptor (35%–40% of cases) or to IgE (5%–10% of cases).6 The IgG subclasses that appear to be pathogenic are IgG1; IgG3; and, to a lesser degree, IgG4 (though not IgG2).6 Complement activation augments histamine secretion by release of C5a.8 CAU has been reported to be associated with antithyroid antibodies (27% of cases)6,9; autoimmune conditions such as vitiligo, rheumatoid arthritis, and pernicious anemia; and low vitamin B12 levels.10 Patients with demonstrable histamine-releasing autoantibodies have a very strong association with HLA-DR4 and its associated allele HLA-DQ8.11
Histologically, the 2 groups of urticaria are indistinguishable.6 Advanced techniques show a perivascular nonnecrotizing infiltrate of CD4+ lymphocytes consisting of a mixture of TH1 and TH2 subtypes, plus monocytes, neutrophils, eosinophils, and basophils. These cells are recruited because of interactions with C5a, cell priming cytokines, chemokines, and adhesion molecules.6 A recent study also found inflammatory cells and mediator up-regulation in uninvolved CIU skin as a sign of prolonged and widespread "urticarial status."12
Physical Urticaria
Physical urticaria are classified and induced by a physical stimulus. Most physical urticaria occur within minutes of provocation and resolve within 2 hours, with the exception of delayed pressure urticaria, which may persist for 24 hours or longer.13 Angioedema may occur in all physical urticaria except dermographism. Overlap between groups is common, and physical urticaria often occur as an added feature of chronic urticaria.
The most common type of physical urticaria is simple immediate dermographism, presenting with linear wheals at sites of scratching or friction. It occurs in about 1.4% to 5% of the population worldwide14 and may be viewed as an exaggerated physiologic response. On average, dermographism runs a course of 2 to 3 years before usually resolving spontaneously.15
Delayed-pressure urticaria is a response to sustained pressure to the skin, presenting with deep erythematous edema after a delay of unknown cause lasting 30 minutes to 12 hours.14,16 An increased level of interleukin 6 has been found in suction blister fluid over induced lesions.2,15 The edema tends to be deeper, pruritic, and painful, and it may persist for days. Systemic features such as malaise, flulike symptoms, and arthralgia may occur. The prognosis is variable, but the mean duration is 6 to 9 years.17 The response to antihistamines often is poor, and oral corticosteroids may be needed for disease control.2
Cholinergic urticaria usually presents with multiple, transient, pruritic, small, red macules or papules on the neck, trunk, forearms, wrists, and thighs in response to heat, often surrounded by an obvious flare. It mainly affects young adults, with an overall prevalence of 11% in this group.18 Fifty percent of patients are atopic.15 Angioedema and systemic manifestations such as headache, palpitations, abdominal pain, wheezing, and syncope may occur. The cholinergic sympathetic innervation of sweat glands is involved because the eruption can be blocked by topical anticholinergic drugs,19 but how this leads to urticaria is unclear. The routine treatment is with low-sedation H1-type antihistamines, with or without an anxiolytic such as oral propranolol. In severe cases, the anabolic steroid stanazolol has been used.15
Cold urticaria is a heterogeneous condition in which whealing occurs within minutes in response to cold exposure, most frequently in children and young adults. Wheals usually arise at the site of localized cooling but may be generalized following lowering of the body temperature.16 Diagnosis may be confirmed by applying an ice cube for 5 to 15 minutes to the skin, allowing an interval for skin rewarming, and observing the development of whealing that occurs on skin rewarming. Systemic symptoms such as flushing, headache, abdominal pain, and syncope can occur if large areas are affected. The cause is unknown, but a serum factor, possibly IgM or IgE, has been implicated.20 A heterozygous deficiency of the protease inhibitor α1-antichymotrypsin has been demonstrated and may be etiologically important in some patients.21 The prognosis is good, with spontaneous improvement in an average of 2 to 3 years.15 Ninety-six percent of cases of cold urticaria are primary.22 The diagnosis of secondary acquired cold urticaria depends on being able to demonstrate cryoglobulins, cold agglutinins, or possibly cryofibrinogens.17 These findings should, in turn, lead to investigations for an underlying cause, such as hepatitis B or C infection, lymphoproliferative disease, or infectious mononucleosis.15
Other uncommon forms of physical urticaria include adrenergic urticaria, which develops during phases of stress and has been associated with an increase in the plasma concentrations of norepinephrine, epinephrine, and prolactin.23 Aquagenic urticaria is precipitated by skin contact with water of any temperature.3 Exercise-induced anaphylaxis involves urticaria, respiratory distress, or hypotension after exercise. In localized heat urticaria, wheals occur on skin in direct contact with warm objects. Solar urticaria is a rare condition that occurs within minutes of exposure to UV light waves ranging from 280 to 760 nm14; it usually disappears in less than one hour. Vibratory urticaria occurs after a vibratory stimulus and can be a hereditary autosomaldominant disorder or an acquired sporadic disease.24
Urticarial Vasculitis
Urticarial vasculitis describes a distinct entity in which the gross cutaneous lesions resemble urticaria and histologically show features of a vasculitis. The diagnosis is suggested clinically by wheals lasting more than 24 hours and residual bruising.25 Although the clinical lesions may present as typical urticaria, pathophysiologically, it is a different disease caused by deposition of antigen-antibody complexes in vessel walls, a type 3 reaction causing vascular damage.17 Lesions often occur at pressure points and may resolve with residual purpura. Extracutaneous manifestations include transient and migratory arthralgia (50%); gastrointestinal symptoms (20%); and pulmonary obstructive disease (20%), particularly in smokers and patients with renal disease (5%–10%).17 Normocomplementemic urticarial vasculitis usually is idiopathic, but hypocomplementemic urticarial vasculitis may be associated with underlying systemic lupus erythematosus, Sjögren syndrome, or cryoglobulinemia.2 Primary urticarial vasculitis can occasionally evolve into systemic lupus erythematosus.26 Patients with urticarial vasculitis often improve on nonsteroidal anti-inflammatory drugs (NSAIDs), but some patients may need immunosuppressive therapy.
Contact Urticaria
Contact urticaria develops at the site(s) of contact of an urticant and can be divided into an allergic subgroup caused by an IgE-allergen interaction and a nonallergic subgroup that is IgE independent. The allergic form typically is seen in children with atopic dermatitis sensitized to environmental allergens such as grass, animals, food, or latex, and it may be complicated by anaphylaxis. Natural rubber latex is one of the most important causes today.27 This type appears within minutes, fades within 2 hours, and is partially inhibited by antihistamines. Nonallergic contact urticaria is caused by the direct effect of the urticant on blood vessels and includes irritants such as benzoic acid and cinnamic aldehyde in cosmetics. It may take 45 minutes for lesions to appear and urticaria is partially inhibited by NSAIDs.
Angioedema Without Wheals
It is useful to classify angioedema occurring without wheals as a separate entity because its etiology may be associated with hereditary angioedema, which must be excluded. The condition usually is idiopathic or caused by a drug reaction to angiotensin-converting enzyme inhibitors, aspirin, or NSAIDs. Hereditary angioedema is a rare autosomal-dominant condition with a prevalence between 1:10,000 and 1:150,000 in the general population and is caused by a deficiency (type 1, 85%) or dysfunction (type 2, 15%) of C1 inhibitor.28 A low level of C4 in the serum is a constant and diagnostic feature. A third type affecting primarily women and exacerbated by estrogens recently has been described.28 Patients have lifelong episodic angioedema and may experience colicky abdominal pain. Laryngeal involvement can be life threatening. Treatment is difficult and involves fluid replacement and purified C1 inhibitor concentrate for acute attacks (not approved in the United States) and prophylactic treatment with anabolic androgens and antifibrinolytics.28
Diagnosis
The diagnosis of urticaria is primarily clinical; extensive laboratory tests are very rarely needed—only when indicated by the patient history.3 Some authors argue that laboratory investigations are unnecessary for mild ordinary urticaria responding to antihistamines.29 Taking a thorough patient history has been found to be almost as effective in identifying a cause as a complete diagnostic evaluation.30 In acute urticaria, if the history indicates a type 1 hypersensitivity reaction, confirmation is possible by a prick test or laboratory radioallergosorbent tests.3 Many physical and contact urticaria can be confirmed by a challenge of the offending agent. An initial baseline investigation with a complete blood count and erythrocyte sedimentation rate should be taken in more severe cases to identify any internal disease or raise the possibility of urticarial vasculitis.17 Of note, a biopsy is more sensitive and specific for ruling out urticarial vasculitis than are a complete blood count and erythrocyte sedimentation rate.
A search for thyroid autoantibodies is appropriate for all chronic urticaria not responding to first-line therapies with antihistamines, especially when autoimmune urticaria is suspected.2 Further investigations are guided by clinical suspicion, which may include a skin biopsy, autoimmune screening, urinalysis, serum cryoglobulins, and hepatitis B and C serology.31 The only available test to screen for autoantibodies against the IgE receptor is the autologous serum skin test. This test should be performed with care because infections could be transmitted, particularly if, by mistake, patients were not injected with their own serum.31 Measurement of C4 is indicated only in patients who present with angioedema alone and should be followed by a determination of the levels and function of C1 inhibitor, if C4 is below reference range.29
Management and Treatment
Management of urticaria depends on its cause. Aggravating factors should be identified from the history, and triggering stimuli for physical urticaria should be avoided. Simple cooling lotions such as menthol 1% or 2% in an aqueous cream often are useful.32 Aspirin and NSAIDs should be avoided because they aggravate symptoms in 30% of patients.33 Patients taking low-dose aspirin for its antithrombotic properties usually can continue regular treatment. Avoiding codeine and other opiates also is recommended because an enhanced skin test reaction may be found in chronic urticaria.34 Avoiding dietary pseudoallergens, such as food coloring and natural salicylates, is controversial.14,35 This generally has only a small role unless proven by a double-blinded placebo-controlled challenge.2
The mainstays for treatment of urticaria are oral antihistamines, as they reduce pruritus and wheal duration and numbers. Oral antihistamines have been reported to produce moderate or good response in 44% to 91% of patients with all types of urticaria.36,37 Antihistamines can be grouped into first-generation (sedating), second generation (minimally sedating), third-generation (nonsedating), and H2 antagonists.17 The physiologic and pathologic actions of histamine are mediated through 4 histamine receptor subtypes: H1, H2, H3, and H4.38 The erythema, wheal formation, and itching associated with urticaria are mainly due to activation of H1 receptors and the less contributory role of H2 receptors.38 Histamine H3 receptors are located presynaptically on postganglionic sympathetic norepinephric nerves, including sympathetics innervating the heart and blood vessels. The contribution of H3 receptors to skin responses mediated by histamine has not been fully elucidated. However, in a recent experimental study, the authors reported that the combination of H1 and H3 antagonists might be a novel approach for the treatment of urticaria.38
Initially, a minimally sedating second- or third-generation antihistamine, such as loratadine,39 fexofenadine hydrochloride,40 and cetirizine hydrochloride,41-44 should be given at a once-daily oral dosing. When one antihistamine is not helpful, it is usually worth trying a different one, and some physicians combine 2 or more antihistamines at the same time.3 It is common practice to exceed the licensed dose in severely affected patients.31 High doses of antihistamines have effects beyond the blockade of histamine receptors, and actions that are not due to antagonism of H1 receptors may account for the efficacy of older antihistamines.45 As a general rule, antihistamines are safe and have few substantial adverse effects; drug interactions are rare. If possible, it is best to avoid all antihistamines in pregnancy, though none have been proven teratogenic. If one is used, the consensus is that chlorpheniramine maleate is among the safest.46
Addition of a sedating first-generation antihistamine such as hydroxyzine at night can be helpful, especially if nocturnal pruritus prevents sleep. The use of a sedating antihistamine as monotherapy is less desirable because of impairment of cognitive function, including driving performance and concentration. The addition of a H2 antagonist to conventional H1 antihistamines may be helpful in some patients.3,47 Doxepin hydrochloride at low doses (10–50 mg) is used for its potent H1 and H2 receptor antagonist properties. Doxepin hydrochloride is highly sedative and especially suitable for patients with associated depression.48
Oral corticosteroids given in short reducing courses may be needed for severe exacerbations not responding to full-dose antihistamines. Relatively high doses of up to 40 to 60 mg of prednisone may be needed for disease control. Alternate-day ste-roids may be used for patients with severe disease.6 Long-term administration should be avoided.1
Many patients feel reassured by carrying an epinephrine pen for self-administration if they are prone to severe attacks. Leukotriene antagonists (zafirlukast and montelukast sodium) have been shown to be superior to placebo in the treatment of patients with chronic urticaria.49,50 Nifedipine has a small effect in chronic urticaria and often is used for patients with concomitant hypertension. Thyroxine recently was reported to suppress CIU symptoms associated with antithyroid autoantibodies in some patients.51
Given the role of the immune system in a subset of patients, immunosuppressive therapy is considered for patients with a severe disabling course. Cyclosporine at 2.5 to 5 mg/kg per day is of proven value in autoantibody-positive chronic urticaria52 but also is effective in most cases of severe autoantibody-negative disease.15 Tacrolimus also has shown promise in a recent trial.53 Other options include plasmapheresis54 and intravenous immunoglobulin.55,56 Optimal treatment protocols have yet to be confirmed. Treatments for CIU with only limited or anecdotal supportive evidence include sulfasalazine, methotrexate, rofecoxib, colchicine, dapsone, and cyclophosphamide.3
Future treatment may involve development of selective immunotherapy targeting the IgE receptor or vaccinations to down-regulate and induce tolerance to the IgE receptor. Other potential strategies include blocking formation of C5a and use of therapeutic antibodies such as anti-IgE, anti–tumor necrosis factor α, and anti–interleukin 5.2
Conclusion
There is no single way to manage urticaria and angioedema. Most patients are treated successfully with antihistamines. However, patients with severe antihistamine-resistant urticaria may be very disabled by their disease, and the treatment can pose a major challenge to the physician.
- Henderson RL Jr, Fleischer AB Jr, Feldman SR. Allergists and dermatologists have far more expertise in caring for patients with urticaria than other specialists. J Am Acad Dermatol. 2000;43:1084-1091.
- Grattan CEH, Sabroe RA, Greaves MW. Chronic urticaria. J Am Acad Dermatol. 2002;46:645-657.
- Kozel MM, Sabroe RA. Chronic urticaria: aetiology, management and current and future treatment options. Drugs. 2004;64:2515-2536.
- Negro-Alvarez JM, Miralles-Lopez JC. Chronic idiopathic urticaria treatment. Allergol Immunopathol (Madr). 2001;29:129-132.
- Grob JJ, Revuz J, Ortonne JP, et al. Comparative study of the impact of chronic urticaria, psoriasis and atopic dermatitis on the quality of life. Br J Dermatol. 2005;152:289-295.
- Kaplan AP. Chronic urticaria: pathogenesis and treatment. J Allergy Clin Immunol. 2004;114:465-474.
- Brunetti L, Francavilla R, Miniello VL, et al. High prevalence of autoimmune urticaria in children with chronic urticaria. J Allergy Clin Immunol. 2004;114:922-927.
- Kikuchi Y, Kaplan AP. A role for C5a in augmenting IgG-dependent histamine release from basophils in chronic urticaria. J Allergy Clin Immunol. 2002;109:114-118.
- Gruber BL, Baeza M, Marchese M, et al. Prevalence and functional role of anti-IgE antibodies in urticarial syndromes. J Invest Dermatol. 1988;90:213-217.
- Mete N, Gulbahar O, Aydin A, et al. Low B12 levels in chronic idiopathic urticaria. J Investig Allergol Clin Immunol. 2004;14:292-299.
- O'Donnell BF, O'Neill CM, Francis DM, et al. Human leucocyte antigen class II associations in chronic idiopathic urticaria. Br J Dermatol. 1999;140:853-858.
- Caproni M, Giomi B, Volpi W, et al. Chronic idiopathic urticaria: infiltrating cells and related cytokines in autologous serum-induced wheals. Clin Immunol. 2005;114:284-292.
- Black AK, Lawlor F, Greaves MW. Consensus meeting on the definition of physical urticarias and urticarial vasculitis. Clin Exp Dermatol. 1996;21:424-426.
- Henz BM. Physical urticaria. In: Henz BM, Zuberbier T, Grabbe J, et al, eds. Urticaria: Clinical, Diagnostic and Therapeutic Aspects. Berlin, Germany: Springer Verlag; 1998:55-89.
- Greaves M. Chronic urticaria. J Allergy Clin Immunol. 2000;105:664-672.
- Kontou-Fili K, Borici-Mazi R, Kapp A, et al. Physical urticaria: classification and diagnostic guidelines: an EAACI position paper. Allergy. 1997;52:503-513.
- Bolognia JL, Jorizzo JL, Rapini RP, eds. Dermatology. New York, NY: Mosby; 2003:287-311.
- Zuberbier T, Althaus C, Chantraine-Hess S, et al. Prevalence of cholinergic urticaria in young adults. J Am Acad Dermatol. 1994;31:978-981.
- Herxheimer A. The nervous pathway mediating cholinergic urticaria. Clin Sci (Lond). 1956;15:195-204.
- Wanderer AA, Maselli R, Ellis EF, et al. Immunological characterisation of serum factors responsible for cold urticaria.
- Lindmark B, Wallengren J. Heterozygous alpha1-antichymotrypsin deficiency may be associated with cold urticaria. Allergy. 1992;47:456-458.
- Neittaanmaki H. Cold urticaria: clinical findings in 220 patients. J Am Acad Dermatol. 1985;13:636-644.
- Haustein UF. Adrenergic urticaria and adrenergic pruritus. Acta Derm Venereol. 1990;70:82-84.
- Mathelier-Fusade P, Vermeulen C, Leynadier F. Vibratory angioedema. Ann Dermatol Venereol. 2001;128:750-752.
- O’Donnell B, Black AK. Urticarial vasculitis. Int Angiol. 1995;14:166-174.
- Bisaccia E, Adamo V, Rozan SW. Urticarial vasculitis progressing to systemic lupus erythematosus. Arch Dermatol. 1988;124:1088-1090.
- Wakelin SH. Contact urticaria. Clin Exp Dermatol. 2001;26:132-136.
- Zuraw BL. Current and future therapy for hereditary angioedema. Clin Immunol. 2005;114:10-16.
- Grattan C, Powell S, Humphreys F. Management and diagnostic guidelines for urticaria and angio-oedema. Br J Dermatol. 2001;144:708-714.
- Kozel MM, Mekkes JR, Bossuyt PM, et al. The effectiveness of a history-based diagnostic approach in chronic urticaria and angioedema. Arch Dermatol. 1998;134:1575-1580.
- Zuberbier T, Greaves MW, Juhlin L, et al. Definition, classification, and routine diagnosis of urticaria: a consensus report. J Investig Dermatol Symp Proc. 2001;6:123-127.
- Bromm B, Scharein E, Darsow U, et al. Effects of menthol and cold on histamine-induced itch and skin reactions in man. Neurosci Lett. 1995;187:157-160.
- Doeglas HMG. Reactions to aspirin and food additives in patients with chronic urticaria, including the physical urticarias. Br J Dermatol. 1975;93:135-144.
- Kaufman A, Rosenstreich DL. Mast cell heterogeneity in chronic idiopathic urticaria. Ann Allergy. 1990;65:367-373.
- Ortolani C, Pastorello E, Ispano M, et al. Food allergy diagnosis protocol. Allerg Immunol (Paris). 1988;20:48-50.
- 36. Humphreys F, Hunter JA. The characteristics of urticarial in 390 patients. Br J Dermatol. 1998;138:635-638.
- 37. Nettis E, Pannofino A, D’Aprile C, et al. Clinical and aetiological aspects in urticaria and angio-oedema. Br J Dermatol. 2003;148:501-506.
- 38. McLeod RL, Mingo GG, Kreutner W, et al. Effect of combined histamine H1 and H3 receptor blockade on cutaneous microvascular permeability elicited by compound 48/80. Life Sci. 2005;76:1787-1794.
- 39. Monroe EW. Loratadine in the treatment of urticaria. Clin Ther. 1997;19:232-242.
- 40. Nelson HS, Reynolds R, Mason J. Fexofenadine HCl is safe and effective for treatment of chronic idiopathic urticaria. Ann Allergy Asthma Immunol. 2000;84: 517-522.
- 41. Breneman D, Bronsky EA, Bruce S, et al. Cetirizine and astemizole therapy for chronic idiopathic urticaria: a double-blind, placebo-controlled, comparative trial. J Am Acad Dermatol. 1995;33(2 pt 1):192-198.
- 42. Breneman DL. Cetirizine versus hydroxyzine and placebo in chronic idiopathic urticaria. Ann Pharmacother. 1996;30:1075-1079.
- 43. Kalivas J, Breneman D, Tharp M, et al. Urticaria: clinical efficacy of cetirizine in comparison with hydroxyzine and placebo. J Allergy Clin Immunol. 1990;86(6 pt 2): 1014-1018.
- 44. Andri L, Senna GE, Betteli C, et al. A comparison of the efficacy of cetirizine and terfenadine: a double-blind, controlled study of chronic idiopathic urticaria. Allergy. 1993;48:358-365.
- 45. Kaplan AP. Clinical practice. chronic urticaria and angioedema. N Engl J Med. 2002;346:175-179.
- 46. Andrews AW, Fornwald JA, Lijinsky W. Nitrosation and mutagenicity of some anime drugs. Toxicol Appl Pharmacol. 1980;52:237-244.
- 47. Commens CA, Greaves MW. Cimetidine in chronic idiopathic urticaria: a randomised double-blind study. Br J Dermatol. 1978;99:675-679.
- 48. Furukawa T, McGuire H, Barbui C. Low dosage tricyclic antidepressants for depression. Cochrane Database Syst Rev. 2003;(3):CD003197.
- 49. Ellis MH. Successful treatment of chronic urticaria with leukotriene antagonists. J Allergy Clin Immunol. 1998;102:876-877.
- 50. Spector S, Tan RA. Antileukotrienes in chronic urticaria. J Allergy Clin Immunol. 1998;101(4 pt 1):572.
- 51. Aversano M, Caiazzo P, Iorio G, et al. Improvement of chronic idiopathic urticaria with L-thyroxine: a new TSH role in immune response? Allergy. 2005;60:489-493.
- Grattan CE, O’Donnell BF, Francis DM, et al. Randomized double-blind study of cyclosporin in chronic “idiopathic” urticaria. Br J Dermatol. 2000;143:365-372.
- Kessel A, Bamberger E, Toubi E. Tacrolimus in the treatment of severe chronic idiopathic urticaria: an open-label prospective study. J Am Acad Dermatol. 2005;52:145-148.
- Grattan CEH, Francis DM, Slater NGP, et al. Plasmapheresis for severe unremitting chronic urticaria. Lancet. 1992;339:1078-1080.
- O’Donnell BF, Barr RM, Blac AK, et al. Intravenous immunoglobulin in chronic autoimmune urticaria. Br J Dermatol. 1998;138:101-106.
- Klote MM, Nelson MR, Engler RJ. Autoimmune urticarial response to high-dose intravenous immunoglobulin. Ann Allergy Asthma Immunol. 2005;94:307-308.
- Henderson RL Jr, Fleischer AB Jr, Feldman SR. Allergists and dermatologists have far more expertise in caring for patients with urticaria than other specialists. J Am Acad Dermatol. 2000;43:1084-1091.
- Grattan CEH, Sabroe RA, Greaves MW. Chronic urticaria. J Am Acad Dermatol. 2002;46:645-657.
- Kozel MM, Sabroe RA. Chronic urticaria: aetiology, management and current and future treatment options. Drugs. 2004;64:2515-2536.
- Negro-Alvarez JM, Miralles-Lopez JC. Chronic idiopathic urticaria treatment. Allergol Immunopathol (Madr). 2001;29:129-132.
- Grob JJ, Revuz J, Ortonne JP, et al. Comparative study of the impact of chronic urticaria, psoriasis and atopic dermatitis on the quality of life. Br J Dermatol. 2005;152:289-295.
- Kaplan AP. Chronic urticaria: pathogenesis and treatment. J Allergy Clin Immunol. 2004;114:465-474.
- Brunetti L, Francavilla R, Miniello VL, et al. High prevalence of autoimmune urticaria in children with chronic urticaria. J Allergy Clin Immunol. 2004;114:922-927.
- Kikuchi Y, Kaplan AP. A role for C5a in augmenting IgG-dependent histamine release from basophils in chronic urticaria. J Allergy Clin Immunol. 2002;109:114-118.
- Gruber BL, Baeza M, Marchese M, et al. Prevalence and functional role of anti-IgE antibodies in urticarial syndromes. J Invest Dermatol. 1988;90:213-217.
- Mete N, Gulbahar O, Aydin A, et al. Low B12 levels in chronic idiopathic urticaria. J Investig Allergol Clin Immunol. 2004;14:292-299.
- O'Donnell BF, O'Neill CM, Francis DM, et al. Human leucocyte antigen class II associations in chronic idiopathic urticaria. Br J Dermatol. 1999;140:853-858.
- Caproni M, Giomi B, Volpi W, et al. Chronic idiopathic urticaria: infiltrating cells and related cytokines in autologous serum-induced wheals. Clin Immunol. 2005;114:284-292.
- Black AK, Lawlor F, Greaves MW. Consensus meeting on the definition of physical urticarias and urticarial vasculitis. Clin Exp Dermatol. 1996;21:424-426.
- Henz BM. Physical urticaria. In: Henz BM, Zuberbier T, Grabbe J, et al, eds. Urticaria: Clinical, Diagnostic and Therapeutic Aspects. Berlin, Germany: Springer Verlag; 1998:55-89.
- Greaves M. Chronic urticaria. J Allergy Clin Immunol. 2000;105:664-672.
- Kontou-Fili K, Borici-Mazi R, Kapp A, et al. Physical urticaria: classification and diagnostic guidelines: an EAACI position paper. Allergy. 1997;52:503-513.
- Bolognia JL, Jorizzo JL, Rapini RP, eds. Dermatology. New York, NY: Mosby; 2003:287-311.
- Zuberbier T, Althaus C, Chantraine-Hess S, et al. Prevalence of cholinergic urticaria in young adults. J Am Acad Dermatol. 1994;31:978-981.
- Herxheimer A. The nervous pathway mediating cholinergic urticaria. Clin Sci (Lond). 1956;15:195-204.
- Wanderer AA, Maselli R, Ellis EF, et al. Immunological characterisation of serum factors responsible for cold urticaria.
- Lindmark B, Wallengren J. Heterozygous alpha1-antichymotrypsin deficiency may be associated with cold urticaria. Allergy. 1992;47:456-458.
- Neittaanmaki H. Cold urticaria: clinical findings in 220 patients. J Am Acad Dermatol. 1985;13:636-644.
- Haustein UF. Adrenergic urticaria and adrenergic pruritus. Acta Derm Venereol. 1990;70:82-84.
- Mathelier-Fusade P, Vermeulen C, Leynadier F. Vibratory angioedema. Ann Dermatol Venereol. 2001;128:750-752.
- O’Donnell B, Black AK. Urticarial vasculitis. Int Angiol. 1995;14:166-174.
- Bisaccia E, Adamo V, Rozan SW. Urticarial vasculitis progressing to systemic lupus erythematosus. Arch Dermatol. 1988;124:1088-1090.
- Wakelin SH. Contact urticaria. Clin Exp Dermatol. 2001;26:132-136.
- Zuraw BL. Current and future therapy for hereditary angioedema. Clin Immunol. 2005;114:10-16.
- Grattan C, Powell S, Humphreys F. Management and diagnostic guidelines for urticaria and angio-oedema. Br J Dermatol. 2001;144:708-714.
- Kozel MM, Mekkes JR, Bossuyt PM, et al. The effectiveness of a history-based diagnostic approach in chronic urticaria and angioedema. Arch Dermatol. 1998;134:1575-1580.
- Zuberbier T, Greaves MW, Juhlin L, et al. Definition, classification, and routine diagnosis of urticaria: a consensus report. J Investig Dermatol Symp Proc. 2001;6:123-127.
- Bromm B, Scharein E, Darsow U, et al. Effects of menthol and cold on histamine-induced itch and skin reactions in man. Neurosci Lett. 1995;187:157-160.
- Doeglas HMG. Reactions to aspirin and food additives in patients with chronic urticaria, including the physical urticarias. Br J Dermatol. 1975;93:135-144.
- Kaufman A, Rosenstreich DL. Mast cell heterogeneity in chronic idiopathic urticaria. Ann Allergy. 1990;65:367-373.
- Ortolani C, Pastorello E, Ispano M, et al. Food allergy diagnosis protocol. Allerg Immunol (Paris). 1988;20:48-50.
- 36. Humphreys F, Hunter JA. The characteristics of urticarial in 390 patients. Br J Dermatol. 1998;138:635-638.
- 37. Nettis E, Pannofino A, D’Aprile C, et al. Clinical and aetiological aspects in urticaria and angio-oedema. Br J Dermatol. 2003;148:501-506.
- 38. McLeod RL, Mingo GG, Kreutner W, et al. Effect of combined histamine H1 and H3 receptor blockade on cutaneous microvascular permeability elicited by compound 48/80. Life Sci. 2005;76:1787-1794.
- 39. Monroe EW. Loratadine in the treatment of urticaria. Clin Ther. 1997;19:232-242.
- 40. Nelson HS, Reynolds R, Mason J. Fexofenadine HCl is safe and effective for treatment of chronic idiopathic urticaria. Ann Allergy Asthma Immunol. 2000;84: 517-522.
- 41. Breneman D, Bronsky EA, Bruce S, et al. Cetirizine and astemizole therapy for chronic idiopathic urticaria: a double-blind, placebo-controlled, comparative trial. J Am Acad Dermatol. 1995;33(2 pt 1):192-198.
- 42. Breneman DL. Cetirizine versus hydroxyzine and placebo in chronic idiopathic urticaria. Ann Pharmacother. 1996;30:1075-1079.
- 43. Kalivas J, Breneman D, Tharp M, et al. Urticaria: clinical efficacy of cetirizine in comparison with hydroxyzine and placebo. J Allergy Clin Immunol. 1990;86(6 pt 2): 1014-1018.
- 44. Andri L, Senna GE, Betteli C, et al. A comparison of the efficacy of cetirizine and terfenadine: a double-blind, controlled study of chronic idiopathic urticaria. Allergy. 1993;48:358-365.
- 45. Kaplan AP. Clinical practice. chronic urticaria and angioedema. N Engl J Med. 2002;346:175-179.
- 46. Andrews AW, Fornwald JA, Lijinsky W. Nitrosation and mutagenicity of some anime drugs. Toxicol Appl Pharmacol. 1980;52:237-244.
- 47. Commens CA, Greaves MW. Cimetidine in chronic idiopathic urticaria: a randomised double-blind study. Br J Dermatol. 1978;99:675-679.
- 48. Furukawa T, McGuire H, Barbui C. Low dosage tricyclic antidepressants for depression. Cochrane Database Syst Rev. 2003;(3):CD003197.
- 49. Ellis MH. Successful treatment of chronic urticaria with leukotriene antagonists. J Allergy Clin Immunol. 1998;102:876-877.
- 50. Spector S, Tan RA. Antileukotrienes in chronic urticaria. J Allergy Clin Immunol. 1998;101(4 pt 1):572.
- 51. Aversano M, Caiazzo P, Iorio G, et al. Improvement of chronic idiopathic urticaria with L-thyroxine: a new TSH role in immune response? Allergy. 2005;60:489-493.
- Grattan CE, O’Donnell BF, Francis DM, et al. Randomized double-blind study of cyclosporin in chronic “idiopathic” urticaria. Br J Dermatol. 2000;143:365-372.
- Kessel A, Bamberger E, Toubi E. Tacrolimus in the treatment of severe chronic idiopathic urticaria: an open-label prospective study. J Am Acad Dermatol. 2005;52:145-148.
- Grattan CEH, Francis DM, Slater NGP, et al. Plasmapheresis for severe unremitting chronic urticaria. Lancet. 1992;339:1078-1080.
- O’Donnell BF, Barr RM, Blac AK, et al. Intravenous immunoglobulin in chronic autoimmune urticaria. Br J Dermatol. 1998;138:101-106.
- Klote MM, Nelson MR, Engler RJ. Autoimmune urticarial response to high-dose intravenous immunoglobulin. Ann Allergy Asthma Immunol. 2005;94:307-308.
Inflammatory Linear Verrucous Epidermal Nevus: A Case Report and Short Review of the Literature
Inflammatory linear verrucous epidermal nevus (ILVEN) is a unilateral, persistent, linear, pruritic eruption that usually appears on an extremity in infancy or childhood. We present a case of ILVEN in a 4-year-old boy and provide a short review of the literature, with emphasis on our current understanding of the etiology, clinical presentation, diagnosis, and management of ILVEN.
Case Report
A 4-year-old boy presented for evaluation of an extremely pruritic linear plaque involving his right groin and right thigh since the age of one year (Figure 1). The plaque first appeared on the right buttock (Figure 2) and slowly enlarged, extending down spirally to involve the right inguinal region and upper inner thigh. There was no family history of similar dermatoses.
Results of a physical examination revealed multiple erythematous warty scaling papules coalesced to form a linear, verrucous, hyperpigmented plaque. The plaque extended from the right buttock and inguinal region to the right upper medial thigh following the lines of Blaschko. The rest of the physical examination results were unremarkable, and no associated physical anomaly was found. The eruption and the associated pruritus did not respond to either oral antihistamines or topical high potency steroids. Results of a biopsy specimen taken from the lesion revealed hyperkeratosis, parakeratosis, acanthosis, and a decreased granular layer. A perivascular infiltrate of lymphocytes also was evident in the upper dermis. A diagnosis of inflammatory linear verrucous epidermal nevus (ILVEN) was made based on clinical and histopathologic grounds.
Comment
The condition later known as ILVEN was first described by Unna in 1896.1 However, it was not until 1971 that the disorder was described and clearly defined as a distinct entity by Altman and Mehregan2 in a case series of 25 patients. The authors clearly delineated ILVEN as a clinical and histopathologic variety of linear verrucous nevus that clinically appears inflammatory and histopathologically appears psoriasiform. The etiology of ILVEN remains unknown. It is considered a variant of keratinocytic epidermal nevus. Most cases are sporadic, but a familial case, with the condition occurring in a mother and her daughter, has been described.3 Because ILVEN bears some histologic resemblance to psoriasis, some authors believe that the 2 conditions share a common pathogenesis, possibly mediated by cytokines.4 There is some evidence that interleukins 1 and 6, tumor necrosis factor α, and intercellular adhesion molecule-1 are upregulated in ILVEN, similar to psoriasis.4 It also has been proposed that activation of an autosomal-dominant lethal mutation that survives by mosaicism may be the cause. The mutated cells might survive in the vicinity of the normal cells.5 ILVEN usually appears in infancy or early childhood but may be present at birth; the condition is very rarely present in adulthood.6 ILVEN occurs predominantly in females (female-male ratio, 4:1), and no racial predominance has been noted. About 6% of patients with epidermal nevi had ILVEN.6 ILVEN typically presents with multiple, discrete, erythematous, slightly warty and scaly papules that tend to coalesce into linear plaques. In a retrospective study of 23 patients with ILVEN, Lee and Rogers7 documented a predilection for the buttock and legs, and most cases were unilateral. Onset usually was within the first 6 months of life, most patients (16 patients) were male, and extension beyond the original margins occurred in 6 patients (26%).7 Altman and Mehregan2 described 6 characteristic features of ILVEN: (1) early age of onset, (2) predominance in females (4:1 female-male ratio), (3) frequent involvement of the left leg, (4) pruritus, (5) marked refractoriness to therapy, and (6) a distinctive psoriasiform and inflammatory histologic appearance. In a few children, ILVEN has been found to occur in association with musculoskeletal or other abnormalities, including supernumerary digits and strabismus,8 congenital bony anomalies of the ipsilateral extremities,9 congenital dislocation of the ipsilateral hip and Fallot tetralogy of the heart,10 autoimmune thyroiditis,11 lichen amyloidosis,12 nevus depigmentosus,13 arthritis14 and melanodontia.15 More recently, ILVEN was associated with ipsilateral undescended testicle.16 However, this finding was disputed by Happle,17 who interpreted the case as an epidermal nevus of the epidermolytic type and stated that the ipsilateral cryptorchidism should be considered as a coincidental finding. The histopathologic presentation of ILVEN is very similar to psoriasis. Results of a histologic examination reveal psoriasiform hyperplasia of the epidermis, alternating parakeratosis without a granular layer, and orthokeratosis with a thickened granular layer.18 The authors of a recent study19 looked at advanced immunohistochemical methods to differentiate ILVEN from psoriasis. The investigators found that the number of Ki-67—positive nuclei tends to be lower, and the number of keratin-10—positive cells and HLA-DR expression tend to be higher in patients with ILVEN. The density of CD8+, CD45RO+, CD2+, CD94, and CD161 also showed a marked difference between ILVEN and psoriasis. In addition, the number of T cells relevant in the pathogenesis of psoriasis was markedly reduced in ILVEN.19 Other dermatoses that need to be differentiated from ILVEN are summarized in the Table. Nevoid psoriasis in a Blaschko distribution closely mimics ILVEN, but the former usually is asymptomatic and responds well to antipsoriatic treatment. Psoriasis also may become superimposed on an epidermal nevus because of Köbnerization.20
Epidermal nevi may occur almost anywhere on the head, neck, legs, or trunk.6 Nevus verrucosus is a term for the localized lesions of epidermal nevi.21 Linear verrucous epidermal nevi are linear hamartomas of epidermal structures that usually appear at birth or during infancy. Linear verrucous epidermal nevi usually are found on the lower extremities and have resistance to treatment and risk of recurrence. The nevi rarely are seen on the face and very rarely involve the oral mucosa.21 Clinically, there is no erythema or pruritus. Immunohistochemical studies further help differentiate ILVEN from other noninflammatory linear epidermal nevi. The CHILD syndrome (congenital hemidysplasia with ichthyosiform erythroderma and limb defects) is characterized by segmentally distributed asymptomatic erythematous verrucous areas, associated with ipsilateral extremity defects, ranging from digital hypoplasia to agenesis of the extremity.22 Hence, ILVEN reported in association with severe extremity defects is most likely CHILD syndrome.23 An alternative acronym that has been used to describe this association is PENCIL (psoriasiform epidermal nevus with congenital ipsilateral limb defects).24 Lichen striatus usually is asymptomatic and resolves spontaneously. There also are histologic differences between ILVEN and lichen striatus.25 Linear lichen planus mainly affects children and is characterized by discrete pruritic, polygonal, violaceous papules arranged in a linear fashion, usually along an entire extremity; however, the papules also may be zosteriform.26 Linear porokeratosis also usually presents during childhood as ringlike, hypertrophic, verrucous plaques with a linear morphology, usually on a single extremity, but other parts of the body also may be involved.27 More recently, Jang et al28 reported a case of mycosis fungoides, presenting with a clinical picture of ILVEN. Nevoid basal cell carcinoma (BCC) syndrome is characterized by BCCs in both sun-exposed and nonexposed skin. The diameter of the lesions varies from 1 to 10 mm and commonly involves the face, back, and chest. Features such as odontogenic cysts, palmar and plantar pitting, and facial milia may be associated. Basaloid follicular hamartoma, also known as linear unilateral basal cell nevus with comedones, may present as a unilateral linear lesion.29 In its early stages, the lesion shows hypopigmented smooth or striaelike areas, which later may develop darker-pigmented papules and tumors with or without ulceration. Of note, it may be histologically indistinguishable from the infundibulocystic type of BCC.29 The most widely applied medical treatments for ILVEN have been intralesional corticosteroids or potent topical corticosteroids, the latter often with occlusion.30 However, the clinical appearance and associated intense pruritus usually are refractory to treatment. Topical calcipotriol has been reported to provide some relief in some patients,31 but it is not recommended in children because of limited clinical safety data. A recent case report noted improvement of pruritus in ILVEN with topical pimecrolimus cream.32 Dithranol has been used with success in one case report,33 but this has been interpreted as an antipsoriatic effect in ILVEN with superimposed psoriasis.34 Other therapeutic choices reported in the literature include topical tretinoin combined with 5-fluorouracil,35 and acitretin.36 Destructive therapies, such as the application of liquid nitrogen, electrodesiccation, ablative laser and dermabrasion, have all been equally disappointing.37 Of note, case reports have shown efficacy of CO238 and pulsed dye laser treatment.39
Conclusion
ILVEN may be an isolated finding or may be associated with other abnormalities. Most patients pre-sent in infancy or early childhood. The diagnosis may sometimes be difficult and necessitate biopsy and advanced immunohistochemical analysis. Most lesions do not persist and spontaneously resolve by adulthood.40 The management usually is only symptomatic and often unsatisfactory.
- Unna PG. The Histopathology of the Diseases of the Skin. New York, NY: Macmillan Co; 1896.
- Altman J, Mehregan AH. Inflammatory linear verrucose epidermal nevus. Arch Dermatol. 1971;104:385-389.
- Hamm H, Happle R. Inflammatory linear verrucose epidermal nevus (ILVEN) in a mother and her daughter. Am J Med Genet. 1986;24:685-690.
- Welch ML, Smith KJ, Skelton HG, et al. Immunohistochemical features in inflammatory linear verrucous epidermal nevi suggest a distinctive pattern of clonal dysregulation of growth. J Am Acad Dermatol. 1993;29:242-248.
- Happle R. Epidermal nevus syndromes. Semin Dermatol. 1995;14:111-121.
- Rogers M, McCrossin I, Commens C. Epidermal nevi and the epidermal nevus syndrome: a review of 131 cases. J Am Acad Dermatol. 1989;20:476-488.
- Lee HL, Rogers M. Inflammatory linear verrucous epidermal naevi: a review of 23 cases. Australas J Dermatol. 2001;42:252-256.
- Dupré A, Christol B, Vialars ML. Linear inflammatory wart-like epidermal nevus. lichenoid dermatosis of nevoid appearance in patches and pruriginous bands (Boulle, Hewitt, Mme. Boulle). its relation to the epidermal nevus syndrome of Solomon [in French]. Ann Dermatol Syphiligr (Paris). 1973;100:261-274.
- Golitz LE, Weston WL. Inflammatory linear verrucous epidermal nevus: association with epidermal nevus syndrome. Arch Dermatol. 1979;115:1208-1209.
- Adrian RM, Baden HP. Analysis of epidermal fibrous proteins in inflammatory linear verrucous nevus. Arch Dermatol. 1980;116:1179-1180.
- Dereure O, Paillet C, Bonnel F, et al. Inflammatory linear verrucous epidermal naevus with auto-immune thyroiditis: coexistence of two auto-immune epithelial inflammations? Acta Derm Venereol. 1994;74:208-209.
- Zhuang L, Zhu W. Inflammatory linear verrucous epidermal nevus coexisting with lichen amyloidosis. J Dermatol. 1996;23:415-418.
- Ogunbiyi AO, Ogunbiyi JO. Nevus depigmentosus and inflammatory linear epidermal nevus—an unusual combination with a note on histology. Int J Dermatol. 1998;37:600-602.
- Al-Enezi S, Huber AM, Krafchik BR, et al. Inflammatory linear verrucous epidermal nevus and arthritis: a new association. J Pediatr. 2001;138:602-604.
- Miteva LG, Dourmishev AL, Schwartz RA. Inflammatory linear verrucous epidermal nevus. Cutis. 2001;68:327-330.
- Oskay T, Kutluay L. Inflammatory linear verrucous epidermal naevus associated with ipsilateral undescended testicle. Clin Exp Dermatol. 2003;28:557-558.
- Happle R. A further case of non-ILVEN. Clin Exp Dermatol. 2004;29:98-99.
- Ito M, Shimizu N, Fujiwara H, et al. Histopathogenesis of inflammatory linear verrucose epidermal nevus: histochemistry, immunohistochemistry and ultrastructure. Arch Dermatol Res. 1991;283:491-499.
- Vissers WH, Muys L, Erp PE, et al. Immunohistochemi
Inflammatory linear verrucous epidermal nevus (ILVEN) is a unilateral, persistent, linear, pruritic eruption that usually appears on an extremity in infancy or childhood. We present a case of ILVEN in a 4-year-old boy and provide a short review of the literature, with emphasis on our current understanding of the etiology, clinical presentation, diagnosis, and management of ILVEN.
Case Report
A 4-year-old boy presented for evaluation of an extremely pruritic linear plaque involving his right groin and right thigh since the age of one year (Figure 1). The plaque first appeared on the right buttock (Figure 2) and slowly enlarged, extending down spirally to involve the right inguinal region and upper inner thigh. There was no family history of similar dermatoses.
Results of a physical examination revealed multiple erythematous warty scaling papules coalesced to form a linear, verrucous, hyperpigmented plaque. The plaque extended from the right buttock and inguinal region to the right upper medial thigh following the lines of Blaschko. The rest of the physical examination results were unremarkable, and no associated physical anomaly was found. The eruption and the associated pruritus did not respond to either oral antihistamines or topical high potency steroids. Results of a biopsy specimen taken from the lesion revealed hyperkeratosis, parakeratosis, acanthosis, and a decreased granular layer. A perivascular infiltrate of lymphocytes also was evident in the upper dermis. A diagnosis of inflammatory linear verrucous epidermal nevus (ILVEN) was made based on clinical and histopathologic grounds.
Comment
The condition later known as ILVEN was first described by Unna in 1896.1 However, it was not until 1971 that the disorder was described and clearly defined as a distinct entity by Altman and Mehregan2 in a case series of 25 patients. The authors clearly delineated ILVEN as a clinical and histopathologic variety of linear verrucous nevus that clinically appears inflammatory and histopathologically appears psoriasiform. The etiology of ILVEN remains unknown. It is considered a variant of keratinocytic epidermal nevus. Most cases are sporadic, but a familial case, with the condition occurring in a mother and her daughter, has been described.3 Because ILVEN bears some histologic resemblance to psoriasis, some authors believe that the 2 conditions share a common pathogenesis, possibly mediated by cytokines.4 There is some evidence that interleukins 1 and 6, tumor necrosis factor α, and intercellular adhesion molecule-1 are upregulated in ILVEN, similar to psoriasis.4 It also has been proposed that activation of an autosomal-dominant lethal mutation that survives by mosaicism may be the cause. The mutated cells might survive in the vicinity of the normal cells.5 ILVEN usually appears in infancy or early childhood but may be present at birth; the condition is very rarely present in adulthood.6 ILVEN occurs predominantly in females (female-male ratio, 4:1), and no racial predominance has been noted. About 6% of patients with epidermal nevi had ILVEN.6 ILVEN typically presents with multiple, discrete, erythematous, slightly warty and scaly papules that tend to coalesce into linear plaques. In a retrospective study of 23 patients with ILVEN, Lee and Rogers7 documented a predilection for the buttock and legs, and most cases were unilateral. Onset usually was within the first 6 months of life, most patients (16 patients) were male, and extension beyond the original margins occurred in 6 patients (26%).7 Altman and Mehregan2 described 6 characteristic features of ILVEN: (1) early age of onset, (2) predominance in females (4:1 female-male ratio), (3) frequent involvement of the left leg, (4) pruritus, (5) marked refractoriness to therapy, and (6) a distinctive psoriasiform and inflammatory histologic appearance. In a few children, ILVEN has been found to occur in association with musculoskeletal or other abnormalities, including supernumerary digits and strabismus,8 congenital bony anomalies of the ipsilateral extremities,9 congenital dislocation of the ipsilateral hip and Fallot tetralogy of the heart,10 autoimmune thyroiditis,11 lichen amyloidosis,12 nevus depigmentosus,13 arthritis14 and melanodontia.15 More recently, ILVEN was associated with ipsilateral undescended testicle.16 However, this finding was disputed by Happle,17 who interpreted the case as an epidermal nevus of the epidermolytic type and stated that the ipsilateral cryptorchidism should be considered as a coincidental finding. The histopathologic presentation of ILVEN is very similar to psoriasis. Results of a histologic examination reveal psoriasiform hyperplasia of the epidermis, alternating parakeratosis without a granular layer, and orthokeratosis with a thickened granular layer.18 The authors of a recent study19 looked at advanced immunohistochemical methods to differentiate ILVEN from psoriasis. The investigators found that the number of Ki-67—positive nuclei tends to be lower, and the number of keratin-10—positive cells and HLA-DR expression tend to be higher in patients with ILVEN. The density of CD8+, CD45RO+, CD2+, CD94, and CD161 also showed a marked difference between ILVEN and psoriasis. In addition, the number of T cells relevant in the pathogenesis of psoriasis was markedly reduced in ILVEN.19 Other dermatoses that need to be differentiated from ILVEN are summarized in the Table. Nevoid psoriasis in a Blaschko distribution closely mimics ILVEN, but the former usually is asymptomatic and responds well to antipsoriatic treatment. Psoriasis also may become superimposed on an epidermal nevus because of Köbnerization.20
Epidermal nevi may occur almost anywhere on the head, neck, legs, or trunk.6 Nevus verrucosus is a term for the localized lesions of epidermal nevi.21 Linear verrucous epidermal nevi are linear hamartomas of epidermal structures that usually appear at birth or during infancy. Linear verrucous epidermal nevi usually are found on the lower extremities and have resistance to treatment and risk of recurrence. The nevi rarely are seen on the face and very rarely involve the oral mucosa.21 Clinically, there is no erythema or pruritus. Immunohistochemical studies further help differentiate ILVEN from other noninflammatory linear epidermal nevi. The CHILD syndrome (congenital hemidysplasia with ichthyosiform erythroderma and limb defects) is characterized by segmentally distributed asymptomatic erythematous verrucous areas, associated with ipsilateral extremity defects, ranging from digital hypoplasia to agenesis of the extremity.22 Hence, ILVEN reported in association with severe extremity defects is most likely CHILD syndrome.23 An alternative acronym that has been used to describe this association is PENCIL (psoriasiform epidermal nevus with congenital ipsilateral limb defects).24 Lichen striatus usually is asymptomatic and resolves spontaneously. There also are histologic differences between ILVEN and lichen striatus.25 Linear lichen planus mainly affects children and is characterized by discrete pruritic, polygonal, violaceous papules arranged in a linear fashion, usually along an entire extremity; however, the papules also may be zosteriform.26 Linear porokeratosis also usually presents during childhood as ringlike, hypertrophic, verrucous plaques with a linear morphology, usually on a single extremity, but other parts of the body also may be involved.27 More recently, Jang et al28 reported a case of mycosis fungoides, presenting with a clinical picture of ILVEN. Nevoid basal cell carcinoma (BCC) syndrome is characterized by BCCs in both sun-exposed and nonexposed skin. The diameter of the lesions varies from 1 to 10 mm and commonly involves the face, back, and chest. Features such as odontogenic cysts, palmar and plantar pitting, and facial milia may be associated. Basaloid follicular hamartoma, also known as linear unilateral basal cell nevus with comedones, may present as a unilateral linear lesion.29 In its early stages, the lesion shows hypopigmented smooth or striaelike areas, which later may develop darker-pigmented papules and tumors with or without ulceration. Of note, it may be histologically indistinguishable from the infundibulocystic type of BCC.29 The most widely applied medical treatments for ILVEN have been intralesional corticosteroids or potent topical corticosteroids, the latter often with occlusion.30 However, the clinical appearance and associated intense pruritus usually are refractory to treatment. Topical calcipotriol has been reported to provide some relief in some patients,31 but it is not recommended in children because of limited clinical safety data. A recent case report noted improvement of pruritus in ILVEN with topical pimecrolimus cream.32 Dithranol has been used with success in one case report,33 but this has been interpreted as an antipsoriatic effect in ILVEN with superimposed psoriasis.34 Other therapeutic choices reported in the literature include topical tretinoin combined with 5-fluorouracil,35 and acitretin.36 Destructive therapies, such as the application of liquid nitrogen, electrodesiccation, ablative laser and dermabrasion, have all been equally disappointing.37 Of note, case reports have shown efficacy of CO238 and pulsed dye laser treatment.39
Conclusion
ILVEN may be an isolated finding or may be associated with other abnormalities. Most patients pre-sent in infancy or early childhood. The diagnosis may sometimes be difficult and necessitate biopsy and advanced immunohistochemical analysis. Most lesions do not persist and spontaneously resolve by adulthood.40 The management usually is only symptomatic and often unsatisfactory.
Inflammatory linear verrucous epidermal nevus (ILVEN) is a unilateral, persistent, linear, pruritic eruption that usually appears on an extremity in infancy or childhood. We present a case of ILVEN in a 4-year-old boy and provide a short review of the literature, with emphasis on our current understanding of the etiology, clinical presentation, diagnosis, and management of ILVEN.
Case Report
A 4-year-old boy presented for evaluation of an extremely pruritic linear plaque involving his right groin and right thigh since the age of one year (Figure 1). The plaque first appeared on the right buttock (Figure 2) and slowly enlarged, extending down spirally to involve the right inguinal region and upper inner thigh. There was no family history of similar dermatoses.
Results of a physical examination revealed multiple erythematous warty scaling papules coalesced to form a linear, verrucous, hyperpigmented plaque. The plaque extended from the right buttock and inguinal region to the right upper medial thigh following the lines of Blaschko. The rest of the physical examination results were unremarkable, and no associated physical anomaly was found. The eruption and the associated pruritus did not respond to either oral antihistamines or topical high potency steroids. Results of a biopsy specimen taken from the lesion revealed hyperkeratosis, parakeratosis, acanthosis, and a decreased granular layer. A perivascular infiltrate of lymphocytes also was evident in the upper dermis. A diagnosis of inflammatory linear verrucous epidermal nevus (ILVEN) was made based on clinical and histopathologic grounds.
Comment
The condition later known as ILVEN was first described by Unna in 1896.1 However, it was not until 1971 that the disorder was described and clearly defined as a distinct entity by Altman and Mehregan2 in a case series of 25 patients. The authors clearly delineated ILVEN as a clinical and histopathologic variety of linear verrucous nevus that clinically appears inflammatory and histopathologically appears psoriasiform. The etiology of ILVEN remains unknown. It is considered a variant of keratinocytic epidermal nevus. Most cases are sporadic, but a familial case, with the condition occurring in a mother and her daughter, has been described.3 Because ILVEN bears some histologic resemblance to psoriasis, some authors believe that the 2 conditions share a common pathogenesis, possibly mediated by cytokines.4 There is some evidence that interleukins 1 and 6, tumor necrosis factor α, and intercellular adhesion molecule-1 are upregulated in ILVEN, similar to psoriasis.4 It also has been proposed that activation of an autosomal-dominant lethal mutation that survives by mosaicism may be the cause. The mutated cells might survive in the vicinity of the normal cells.5 ILVEN usually appears in infancy or early childhood but may be present at birth; the condition is very rarely present in adulthood.6 ILVEN occurs predominantly in females (female-male ratio, 4:1), and no racial predominance has been noted. About 6% of patients with epidermal nevi had ILVEN.6 ILVEN typically presents with multiple, discrete, erythematous, slightly warty and scaly papules that tend to coalesce into linear plaques. In a retrospective study of 23 patients with ILVEN, Lee and Rogers7 documented a predilection for the buttock and legs, and most cases were unilateral. Onset usually was within the first 6 months of life, most patients (16 patients) were male, and extension beyond the original margins occurred in 6 patients (26%).7 Altman and Mehregan2 described 6 characteristic features of ILVEN: (1) early age of onset, (2) predominance in females (4:1 female-male ratio), (3) frequent involvement of the left leg, (4) pruritus, (5) marked refractoriness to therapy, and (6) a distinctive psoriasiform and inflammatory histologic appearance. In a few children, ILVEN has been found to occur in association with musculoskeletal or other abnormalities, including supernumerary digits and strabismus,8 congenital bony anomalies of the ipsilateral extremities,9 congenital dislocation of the ipsilateral hip and Fallot tetralogy of the heart,10 autoimmune thyroiditis,11 lichen amyloidosis,12 nevus depigmentosus,13 arthritis14 and melanodontia.15 More recently, ILVEN was associated with ipsilateral undescended testicle.16 However, this finding was disputed by Happle,17 who interpreted the case as an epidermal nevus of the epidermolytic type and stated that the ipsilateral cryptorchidism should be considered as a coincidental finding. The histopathologic presentation of ILVEN is very similar to psoriasis. Results of a histologic examination reveal psoriasiform hyperplasia of the epidermis, alternating parakeratosis without a granular layer, and orthokeratosis with a thickened granular layer.18 The authors of a recent study19 looked at advanced immunohistochemical methods to differentiate ILVEN from psoriasis. The investigators found that the number of Ki-67—positive nuclei tends to be lower, and the number of keratin-10—positive cells and HLA-DR expression tend to be higher in patients with ILVEN. The density of CD8+, CD45RO+, CD2+, CD94, and CD161 also showed a marked difference between ILVEN and psoriasis. In addition, the number of T cells relevant in the pathogenesis of psoriasis was markedly reduced in ILVEN.19 Other dermatoses that need to be differentiated from ILVEN are summarized in the Table. Nevoid psoriasis in a Blaschko distribution closely mimics ILVEN, but the former usually is asymptomatic and responds well to antipsoriatic treatment. Psoriasis also may become superimposed on an epidermal nevus because of Köbnerization.20
Epidermal nevi may occur almost anywhere on the head, neck, legs, or trunk.6 Nevus verrucosus is a term for the localized lesions of epidermal nevi.21 Linear verrucous epidermal nevi are linear hamartomas of epidermal structures that usually appear at birth or during infancy. Linear verrucous epidermal nevi usually are found on the lower extremities and have resistance to treatment and risk of recurrence. The nevi rarely are seen on the face and very rarely involve the oral mucosa.21 Clinically, there is no erythema or pruritus. Immunohistochemical studies further help differentiate ILVEN from other noninflammatory linear epidermal nevi. The CHILD syndrome (congenital hemidysplasia with ichthyosiform erythroderma and limb defects) is characterized by segmentally distributed asymptomatic erythematous verrucous areas, associated with ipsilateral extremity defects, ranging from digital hypoplasia to agenesis of the extremity.22 Hence, ILVEN reported in association with severe extremity defects is most likely CHILD syndrome.23 An alternative acronym that has been used to describe this association is PENCIL (psoriasiform epidermal nevus with congenital ipsilateral limb defects).24 Lichen striatus usually is asymptomatic and resolves spontaneously. There also are histologic differences between ILVEN and lichen striatus.25 Linear lichen planus mainly affects children and is characterized by discrete pruritic, polygonal, violaceous papules arranged in a linear fashion, usually along an entire extremity; however, the papules also may be zosteriform.26 Linear porokeratosis also usually presents during childhood as ringlike, hypertrophic, verrucous plaques with a linear morphology, usually on a single extremity, but other parts of the body also may be involved.27 More recently, Jang et al28 reported a case of mycosis fungoides, presenting with a clinical picture of ILVEN. Nevoid basal cell carcinoma (BCC) syndrome is characterized by BCCs in both sun-exposed and nonexposed skin. The diameter of the lesions varies from 1 to 10 mm and commonly involves the face, back, and chest. Features such as odontogenic cysts, palmar and plantar pitting, and facial milia may be associated. Basaloid follicular hamartoma, also known as linear unilateral basal cell nevus with comedones, may present as a unilateral linear lesion.29 In its early stages, the lesion shows hypopigmented smooth or striaelike areas, which later may develop darker-pigmented papules and tumors with or without ulceration. Of note, it may be histologically indistinguishable from the infundibulocystic type of BCC.29 The most widely applied medical treatments for ILVEN have been intralesional corticosteroids or potent topical corticosteroids, the latter often with occlusion.30 However, the clinical appearance and associated intense pruritus usually are refractory to treatment. Topical calcipotriol has been reported to provide some relief in some patients,31 but it is not recommended in children because of limited clinical safety data. A recent case report noted improvement of pruritus in ILVEN with topical pimecrolimus cream.32 Dithranol has been used with success in one case report,33 but this has been interpreted as an antipsoriatic effect in ILVEN with superimposed psoriasis.34 Other therapeutic choices reported in the literature include topical tretinoin combined with 5-fluorouracil,35 and acitretin.36 Destructive therapies, such as the application of liquid nitrogen, electrodesiccation, ablative laser and dermabrasion, have all been equally disappointing.37 Of note, case reports have shown efficacy of CO238 and pulsed dye laser treatment.39
Conclusion
ILVEN may be an isolated finding or may be associated with other abnormalities. Most patients pre-sent in infancy or early childhood. The diagnosis may sometimes be difficult and necessitate biopsy and advanced immunohistochemical analysis. Most lesions do not persist and spontaneously resolve by adulthood.40 The management usually is only symptomatic and often unsatisfactory.
- Unna PG. The Histopathology of the Diseases of the Skin. New York, NY: Macmillan Co; 1896.
- Altman J, Mehregan AH. Inflammatory linear verrucose epidermal nevus. Arch Dermatol. 1971;104:385-389.
- Hamm H, Happle R. Inflammatory linear verrucose epidermal nevus (ILVEN) in a mother and her daughter. Am J Med Genet. 1986;24:685-690.
- Welch ML, Smith KJ, Skelton HG, et al. Immunohistochemical features in inflammatory linear verrucous epidermal nevi suggest a distinctive pattern of clonal dysregulation of growth. J Am Acad Dermatol. 1993;29:242-248.
- Happle R. Epidermal nevus syndromes. Semin Dermatol. 1995;14:111-121.
- Rogers M, McCrossin I, Commens C. Epidermal nevi and the epidermal nevus syndrome: a review of 131 cases. J Am Acad Dermatol. 1989;20:476-488.
- Lee HL, Rogers M. Inflammatory linear verrucous epidermal naevi: a review of 23 cases. Australas J Dermatol. 2001;42:252-256.
- Dupré A, Christol B, Vialars ML. Linear inflammatory wart-like epidermal nevus. lichenoid dermatosis of nevoid appearance in patches and pruriginous bands (Boulle, Hewitt, Mme. Boulle). its relation to the epidermal nevus syndrome of Solomon [in French]. Ann Dermatol Syphiligr (Paris). 1973;100:261-274.
- Golitz LE, Weston WL. Inflammatory linear verrucous epidermal nevus: association with epidermal nevus syndrome. Arch Dermatol. 1979;115:1208-1209.
- Adrian RM, Baden HP. Analysis of epidermal fibrous proteins in inflammatory linear verrucous nevus. Arch Dermatol. 1980;116:1179-1180.
- Dereure O, Paillet C, Bonnel F, et al. Inflammatory linear verrucous epidermal naevus with auto-immune thyroiditis: coexistence of two auto-immune epithelial inflammations? Acta Derm Venereol. 1994;74:208-209.
- Zhuang L, Zhu W. Inflammatory linear verrucous epidermal nevus coexisting with lichen amyloidosis. J Dermatol. 1996;23:415-418.
- Ogunbiyi AO, Ogunbiyi JO. Nevus depigmentosus and inflammatory linear epidermal nevus—an unusual combination with a note on histology. Int J Dermatol. 1998;37:600-602.
- Al-Enezi S, Huber AM, Krafchik BR, et al. Inflammatory linear verrucous epidermal nevus and arthritis: a new association. J Pediatr. 2001;138:602-604.
- Miteva LG, Dourmishev AL, Schwartz RA. Inflammatory linear verrucous epidermal nevus. Cutis. 2001;68:327-330.
- Oskay T, Kutluay L. Inflammatory linear verrucous epidermal naevus associated with ipsilateral undescended testicle. Clin Exp Dermatol. 2003;28:557-558.
- Happle R. A further case of non-ILVEN. Clin Exp Dermatol. 2004;29:98-99.
- Ito M, Shimizu N, Fujiwara H, et al. Histopathogenesis of inflammatory linear verrucose epidermal nevus: histochemistry, immunohistochemistry and ultrastructure. Arch Dermatol Res. 1991;283:491-499.
- Vissers WH, Muys L, Erp PE, et al. Immunohistochemi
- Unna PG. The Histopathology of the Diseases of the Skin. New York, NY: Macmillan Co; 1896.
- Altman J, Mehregan AH. Inflammatory linear verrucose epidermal nevus. Arch Dermatol. 1971;104:385-389.
- Hamm H, Happle R. Inflammatory linear verrucose epidermal nevus (ILVEN) in a mother and her daughter. Am J Med Genet. 1986;24:685-690.
- Welch ML, Smith KJ, Skelton HG, et al. Immunohistochemical features in inflammatory linear verrucous epidermal nevi suggest a distinctive pattern of clonal dysregulation of growth. J Am Acad Dermatol. 1993;29:242-248.
- Happle R. Epidermal nevus syndromes. Semin Dermatol. 1995;14:111-121.
- Rogers M, McCrossin I, Commens C. Epidermal nevi and the epidermal nevus syndrome: a review of 131 cases. J Am Acad Dermatol. 1989;20:476-488.
- Lee HL, Rogers M. Inflammatory linear verrucous epidermal naevi: a review of 23 cases. Australas J Dermatol. 2001;42:252-256.
- Dupré A, Christol B, Vialars ML. Linear inflammatory wart-like epidermal nevus. lichenoid dermatosis of nevoid appearance in patches and pruriginous bands (Boulle, Hewitt, Mme. Boulle). its relation to the epidermal nevus syndrome of Solomon [in French]. Ann Dermatol Syphiligr (Paris). 1973;100:261-274.
- Golitz LE, Weston WL. Inflammatory linear verrucous epidermal nevus: association with epidermal nevus syndrome. Arch Dermatol. 1979;115:1208-1209.
- Adrian RM, Baden HP. Analysis of epidermal fibrous proteins in inflammatory linear verrucous nevus. Arch Dermatol. 1980;116:1179-1180.
- Dereure O, Paillet C, Bonnel F, et al. Inflammatory linear verrucous epidermal naevus with auto-immune thyroiditis: coexistence of two auto-immune epithelial inflammations? Acta Derm Venereol. 1994;74:208-209.
- Zhuang L, Zhu W. Inflammatory linear verrucous epidermal nevus coexisting with lichen amyloidosis. J Dermatol. 1996;23:415-418.
- Ogunbiyi AO, Ogunbiyi JO. Nevus depigmentosus and inflammatory linear epidermal nevus—an unusual combination with a note on histology. Int J Dermatol. 1998;37:600-602.
- Al-Enezi S, Huber AM, Krafchik BR, et al. Inflammatory linear verrucous epidermal nevus and arthritis: a new association. J Pediatr. 2001;138:602-604.
- Miteva LG, Dourmishev AL, Schwartz RA. Inflammatory linear verrucous epidermal nevus. Cutis. 2001;68:327-330.
- Oskay T, Kutluay L. Inflammatory linear verrucous epidermal naevus associated with ipsilateral undescended testicle. Clin Exp Dermatol. 2003;28:557-558.
- Happle R. A further case of non-ILVEN. Clin Exp Dermatol. 2004;29:98-99.
- Ito M, Shimizu N, Fujiwara H, et al. Histopathogenesis of inflammatory linear verrucose epidermal nevus: histochemistry, immunohistochemistry and ultrastructure. Arch Dermatol Res. 1991;283:491-499.
- Vissers WH, Muys L, Erp PE, et al. Immunohistochemi
Pemphigus Foliaceus: A Case Report and Short Review
Pemphigus describes a group of autoimmune chronic bullous diseases, originally named in 1791.1 The term pemphigus stems from the Greek pemphix meaning blister or bubble.2 Pemphigus is usually divided into 2 major forms depending on blister location: pemphigus vulgaris (PV) and pemphigus foliaceus (PF). Pemphigus vegetans is a variant of PV, and pemphigus erythematosus (PE) and fogo selvagem are variants of PF. During the past 3 decades, uncommon forms of pemphigus have been described, including pemphigus herpetiformis, immunoglobulin A (IgA) pemphigus, and paraneoplastic pemphigus.3 The incidence of pemphigus ranges from 0.76 to 5 new cases per million per year.2 In a recent analysis of 1209 patients with pemphigus in Iran, the PV to PF ratio was found to be 12:1. However, this ratio varies widely in different parts of the world.4 In one report, 73% of cases of pemphigus in France were PV.5 PV also is the most common clinical type of pemphigus in Kuwait, Israel, and Singapore.6-8 In a report on pemphigus in South Africa, the most common clinical variant was PF, and 80% of these patients were black.9 Of note, in the Indian population in this region, PV was more common. A high percentage of PF is endemic in rural Brazil, Tunisia, and Columbia.9
Case Report
A 58-year-old white woman presented with a 6-month history of superficial erosions on the chest, upper back, hairline, and retroauricular areas. She denied any photosensitivity, and there was no mucosal involvement. The patient's medical history was otherwise unremarkable. Superficial erosions with a positive Nikolsky sign were present on the chest (Figure), upper back, and frontal hairline, as well as in the retroauricular areas bilaterally. Two punch biopsies (one lesional and one perilesional) were performed. Routine histology results showed intraepidermal vesicles in the upper granular layer containing acantholytic cells. Results of direct immunofluorescence demonstrated IgG and complement 3 (C3) in the intercellular spaces in the epidermal cell surface. Of note, antinuclear antibody and anti–double-stranded DNA were negative. These findings were consistent with our clinical diagnosis of PF.
The patient was initially started on a high potency topical corticosteroid (clobetasol propionate ointment) for 4 weeks with no improvement. She was then given prednisone 60 mg/d for approximately one month when new lesions ceased to appear; then the medication was slowly tapered off. Dapsone also was added to her regimen after an initial baseline level of glucose-6-phosphate dehydrogenase and a baseline complete blood count were obtained. Dapsone was initiated at 50 mg/d while prednisone was being slowly tapered. Cacit D3 in a single morning dose (1000 mg calcium and 880 IU vitamin D) also was added to the regimen. Of note, the patient was taking celecoxib for intermittent joint pain, but a literature search at that time did not reveal an association with similar eruptions; our patient was asked to discontinue the celecoxib at the initiation of oral prednisone. She was seen at regular follow-up visits every month. As the patient improved clinically, dapsone was reduced to 25 mg and finally discontinued after about 6 months. Oral prednisone taper continued slowly over a total of 18 months. No lesions were present for the last 3 monthly visits.
Comment
PF comprises 2 major categories: endemic and sporadic. The endemic form, also known as fogo selvagem, primarily affects children and young adults in rural Brazil. In contrast, the sporadic form of PF is generally a disease of middle-aged individuals and the elderly. Of note, there are several cases of nonendemic PF occurring in children,10 and 2 cases reported in the neonatal period.11 Many patients with PE show serologic findings suggestive of systemic lupus erythematosus (SLE), especially the presence of anti-nuclear antibodies.2,12 PF is an autoimmune blistering disease of unknown etiology with antibodies produced against desmoglein 1 (Dsg1).13 Dsg1 is an adhesive cadherin protein found in the desmosomal cell junction in the suprabasal layers of the epidermis.14,15 Binding of the antibody results in the loss of cell adhesion or acantholysis and formation of the clinical picture of PF.16 The blisters are subcorneal, occurring in and around the granular cell layer of the epidermis.13 Blister formation is superficial because the most differentiated layer of the epidermis is the only area in which Dsg1 is critically important to cell adhesion, and there is no protection redundancy of adhesion molecules by coexpression of Dsg3.17 Of interest, one study has demonstrated that the autoantibodies in up to 7% of patients with PF and up to 50% of patients with PV recognize both Dsg1 and Dsg3 isoforms.18 It also is reported that some patients can progress from PF to PV or vice versa, though the latter is less common.19 It has been shown that this transition correlates well with the qualitative and quantitative changes in the profile of Dsg1 and Dsg3 antibodies.20 Patients with PF have been reported to have a predominance of circulating IgG4 antiepidermal autoantibodies, followed by a lesser degree of IgG1, IgG2, and IgG3 subclasses.21 PF has shown a strong association with several HLA-DRB1 haplotypes.22,23 Most recently, an association with HLA-DRB1*0101 was found in the Mexican population.24 Sunlight exposure25 and several drugs such as penicillamine26,27 have been identified as possible triggering factors for the disease. In children, bacteria, cytomegalovirus, and otitis also have been implicated.10 Similarly, an unusual case of childhood PF apparently triggered by conjunctivitis was reported.28 PF manifests clinically as recurrent shallow erosions accompanied by erythema, scaling, and crusting.29 Lesions usually are found in a seborrheic distribution (central face, neck, chest, or upper back).30 Patients develop superficial fragile vesicles, which often are not seen. In contrast to PV, PF patients rarely have mucosal involvement.11 The onset of disease may be slow, starting with only a few transient scattered crusted lesions.2 The condition may then stay localized for years or progress into generalized involvement, sometimes resulting in an exfoliative erythroderma.31 In general, patients are not severely ill but often complain of burning and pain associated with the skin lesions.2 Fogo selvagem, formerly known as Brazilian PF, occurs in an endemic fashion in certain regions of Brazil.32 The condition has been described in certain regions of Brazil since the turn of the century.33 The prevalence in some rural areas of Brazil is as high as 3.4%.34 There also have been reports of other possible foci of endemic PF in Tunisia and Columbia.35,36 Endemic PF differs from sporadic PF in its geographic distribution, high familial incidence, and young age of onset.36 The clinical manifestations, histology, and immunopathologic features are indistinguishable from sporadic PF.29,32 The distinct epidemiology of the condition is suggestive of an environmental or infectious agent. Studies have identified that most patients are young peasants or children who live in close proximity to rivers, which exposes the children to the hematophagous insect belonging to the Simulium nigrimanum species, also known by its popular name borrachudo (blackfly).37,38 PE was first described by Senear and Usher39 in 1926. Originally, the term PE was introduced to describe patients with immunologic features of both SLE and pemphigus.2 Many patients with PE show serologic findings suggestive of SLE, especially the presence of antinuclear antibodies.12,40 However, there are only a few reports of PE occurring in patients who have clearly defined SLE.41,42 In most of these cases, the diagnosis of SLE had been established months to years earlier.42 PE also may be associated with a variety of autoantibodies and may require extensive immunotherapy.43 PE has characteristic findings on direct immunofluorescence, usually IgG and C3 at the basement membrane zone of erythematous facial skin, in addition to the epidermal cell surface IgG.12,44 Clinically, the lesions of PE resemble those of PF but are most commonly restricted to the upper trunk, head, and neck.42 PE may remain localized for years, or it may evolve into more generalized PF.40 PE also has been associated with myasthenia gravis and thymomas.45 The histologic changes of PF, PE, and fogo selvagem are identical.2 Early blisters indicate acantholysis just below the stratum corneum and in the granular layer. The stratum corneum often is lost from the surface of these lesions. The deeper epidermis, below the granular layer, remains intact. Another frequent finding is subcorneal pustules, with neutrophils and acantholytic epidermal cells in the blister cavity.12 Immunofluorescence using both direct and indirect techniques is the most reliable method of diagnosing pemphigus.46 Most patients with pemphigus have IgG and C3 deposits at the epidermal cell surfaces and circulating IgG against the same components.47 However, the cell staining pattern of both direct and indirect immunofluorescence is virtually identical in PV and PF, making it difficult to distinguish between them.48 One innovation has been the introduction of an antigen-specific ELISA (enzyme-linked immunosorbent assay) test for the diagnosis of pemphigus: if a serum is positive against Dsg3, the test results indicate a diagnosis of PV, regardless of reactivity against Dsg1; if a serum is negative for Dsg3 and positive for Dsg1, the test results indicate a diagnosis of PF.48 The differential diagnosis of PF includes other forms of pemphigus, bullous impetigo, subcorneal pustular dermatosis, linear IgA dermatosis, and seborrheic dermatitis.2,30 Before the advent of glucocorticoid therapy, PF was fatal in about 60% of patients.12 The aim of current therapy is to suppress the production of pathogenic antibodies, stop the development of new lesions, and heal old lesions.49 The therapy of PF differs from that of PV only in that treatment can be less aggressive because morbidity and mortality are lower.26 In all patients, a complete review of medications should be done to exclude the possibility of drug-induced PF. The most commonly implicated medications are penicillamine,27 captopril,50 lisinopril,51 nifedipine,52 and topical imiquimod.53 Because PF may be localized for many years and the prognosis without systemic therapy may be good, patients do not necessarily require systemic therapy. This patient group may be treated successfully with topical corticosteroids.29,54 Patients with active and widespread disease require systemic therapy.16 An initial dose of prednisone at 1.0 mg/kg can usually be tapered down toward an alternate-day dosage within 1 to 3 months.29 One patient has been kept on a low dose of corticosteroids successfully as maintenance over an extended period.55 Patients with the most severe disease (ie, disease unresponsive to corticosteroids) should be considered for adjuvant immunosuppressive drugs as steroid-sparing agents.29,49 The goal of immunosuppressive therapy is to suppress the production of antibodies. One of the medications used is mycophenolate mofetil, which is shown to be an effective steroid-sparing agent.56,57 Oral cyclophosphamide, which also is an effective adjuvant alkylating agent in the treatment of severe and refractory PV and PF, can be combined with pulse intravenous corticosteroids. However, the use of alkylating agents should be done with care because of the risk of side effects such as hemorrhagic cystitis, susceptibility to infection, potential infertility, mutagenic potential, and lifetime risk for transitional cell carcinoma of the bladder and hematologic malignancies.58 Other immunosuppressive medications that have been used include azathioprine,59,60 methotrexate,61,62 and cyclosporine.63,64 In patients for whom conventional therapies have failed, alternative therapies such as intravenous immunoglobulin,65 plasmapheresis,66 and extracorporeal photochemotherapy67,68 have been employed successfully. A single case of PF occurring after unrelated cord blood transplantation was reported to be successfully treated with rituximab, an anti-CD20 antibody.69 Dapsone has been used both as monotherapy and in combination regimens. In a study of 9 patients, 5 had at least 50% improvement.70 Only patients with low titers or undetectable circulating antibodies responded to monotherapy. The value of dapsone in the treatment of PF remains to be clearly established.71 There have been a few case reports indicating that a combination of tetracycline and niacinamide is an effective alternative to steroids in superficial pemphigus.72 Other agents reported in the literature include gold,43,73 chlorambucil,74 and hydroxychloroquine sulfate.75 It is commonly perceived that PF is more benign than PV. Although uncommon, there are several reports of death occurring in PF.65,76 Infection is often the cause of death, and therapy is frequently a contributing factor because it causes the immunosuppression necessary to treat active disease.77 The effective management of PF requires a knowledge of the pathophysiology and pharmacologic effects of the agents used, an ability to make an accurate diagnosis, and an understanding of the patient's expectations.49
- Thivolet J. Pemphigus: past, present and future. Dermatology. 1994;189(suppl 2):26-29.
- Amagai M. Pemphigus. In: Bolognia JL, Jorizzo JL, Rapini RP, eds. Dermatology. St. Louis, Mo: Mosby; 2003:449-462.
- Robinson ND, Hashimoto T, Amagai M, et al. The new pemphigus variants. J Am Acad Dermatol. 1999;40(5 pt 1):649-671.
- Chams-Davatchi C, Valikhani M, Daneshpazhooh M, et al. Pemphigus: analysis of 1209 cases. Int J Dermatol. 2005;44:470-476.
- Bastuji-Garin S, Souissi R, Blum L, et al. Comparative epidemiology of pemphigus in Tunisia and France: unusual incidence of pemphigus foliaceus in young Tunisian women. J Invest Dermatol. 1995;104:302-305.
- Alsaleh QA, Nanda A, Al-Baghli NM, et al. Pemphigus in Kuwait. Int J Dermatol. 1999;38:351-356.
- Wohl Y, Brenner S. Pemphigus in Israel—an epidemiologic analysis of cases in search of risk factors. Isr Med Assoc J. 2003;5:410-412.
- Goon AT, Tan SH. Comparative study of pemphigus vulgaris and pemphigus foliaceus in Singapore. Australas J Dermatol. 2001;42:172-175.
- Aboobaker J, Morar N, Ramdial PK, et al. Pemphigus in South Africa. Int J Dermatol. 2001;40:115-119.
- Metry DW, Hebert AA, Jordon RE. Nonendemic pemphigus foliaceus in children. J Am Acad Dermatol. 2002;46:419-422.
- Hirsch R, Anderson J, Weinberg JM, et al. Neonatal pemphigus foliaceus. J Am Acad Dermatol. 2003;49(suppl 2):S187-S189.
- Stanley JR, Pemphigus. In: Freedberg IM, Eisen AZ, Wolff K, et al, eds. Fitzpatrick's Dermatology in General Medicine. 6th ed. New York, NY: McGraw-Hill; 2003:558-567.
- Anhalt GJ. Making sense of antigens and antibodies in pemphigus. J Am Acad Dermatol. 1999;40(5 pt 1): 763-766.
- Takeichi M. Cadherin cell adhesion receptors as a morphogenetic regulator. Science. 1991;251:1451-1455.
- Adams MJ, Reichel MB, King IA, et al. Characterization of the regulatory regions in the human desmoglein genes encoding the pemphigus foliaceus and pemphigus vulgaris antigens. Biochem J. 1998;329(pt 1):165-174.
- Scott JE, Ahmed AR. The blistering diseases. Med Clin North Am. 1998;82:1239-1283.
- Mahoney MG, Rothenberger K, Koch PJ, et al. Explanation for the clinical and microscopic localization of lesions in pemphigus foliaceus and vulgaris. J Clin Invest. 1999;103:461-468.
- Arteaga LA, Prisayanh PS, Warren SJ, et al. A subset of pemphigus foliaceus patients exhibits pathogenic autoantibodies against both desmoglein-1 and desmoglein-3. J Invest Dermatol. 2002;118:806-811.
- Ishii K, Amagai M, Ohata Y, et al. Development of pemphigus vulgaris in a patient with pemphigus foliaceus: antidesmoglein antibody profile shift confirmed by enzyme linked immunosorbent assay. J Am Acad Dermatol. 2000;42(5 pt 2):859-861.
- Komai A, Amagai M, Ishii K, et al. The clinical transition between pemphigus foliaceus and pemphigus vulgaris correlates well wi
Pemphigus describes a group of autoimmune chronic bullous diseases, originally named in 1791.1 The term pemphigus stems from the Greek pemphix meaning blister or bubble.2 Pemphigus is usually divided into 2 major forms depending on blister location: pemphigus vulgaris (PV) and pemphigus foliaceus (PF). Pemphigus vegetans is a variant of PV, and pemphigus erythematosus (PE) and fogo selvagem are variants of PF. During the past 3 decades, uncommon forms of pemphigus have been described, including pemphigus herpetiformis, immunoglobulin A (IgA) pemphigus, and paraneoplastic pemphigus.3 The incidence of pemphigus ranges from 0.76 to 5 new cases per million per year.2 In a recent analysis of 1209 patients with pemphigus in Iran, the PV to PF ratio was found to be 12:1. However, this ratio varies widely in different parts of the world.4 In one report, 73% of cases of pemphigus in France were PV.5 PV also is the most common clinical type of pemphigus in Kuwait, Israel, and Singapore.6-8 In a report on pemphigus in South Africa, the most common clinical variant was PF, and 80% of these patients were black.9 Of note, in the Indian population in this region, PV was more common. A high percentage of PF is endemic in rural Brazil, Tunisia, and Columbia.9
Case Report
A 58-year-old white woman presented with a 6-month history of superficial erosions on the chest, upper back, hairline, and retroauricular areas. She denied any photosensitivity, and there was no mucosal involvement. The patient's medical history was otherwise unremarkable. Superficial erosions with a positive Nikolsky sign were present on the chest (Figure), upper back, and frontal hairline, as well as in the retroauricular areas bilaterally. Two punch biopsies (one lesional and one perilesional) were performed. Routine histology results showed intraepidermal vesicles in the upper granular layer containing acantholytic cells. Results of direct immunofluorescence demonstrated IgG and complement 3 (C3) in the intercellular spaces in the epidermal cell surface. Of note, antinuclear antibody and anti–double-stranded DNA were negative. These findings were consistent with our clinical diagnosis of PF.
The patient was initially started on a high potency topical corticosteroid (clobetasol propionate ointment) for 4 weeks with no improvement. She was then given prednisone 60 mg/d for approximately one month when new lesions ceased to appear; then the medication was slowly tapered off. Dapsone also was added to her regimen after an initial baseline level of glucose-6-phosphate dehydrogenase and a baseline complete blood count were obtained. Dapsone was initiated at 50 mg/d while prednisone was being slowly tapered. Cacit D3 in a single morning dose (1000 mg calcium and 880 IU vitamin D) also was added to the regimen. Of note, the patient was taking celecoxib for intermittent joint pain, but a literature search at that time did not reveal an association with similar eruptions; our patient was asked to discontinue the celecoxib at the initiation of oral prednisone. She was seen at regular follow-up visits every month. As the patient improved clinically, dapsone was reduced to 25 mg and finally discontinued after about 6 months. Oral prednisone taper continued slowly over a total of 18 months. No lesions were present for the last 3 monthly visits.
Comment
PF comprises 2 major categories: endemic and sporadic. The endemic form, also known as fogo selvagem, primarily affects children and young adults in rural Brazil. In contrast, the sporadic form of PF is generally a disease of middle-aged individuals and the elderly. Of note, there are several cases of nonendemic PF occurring in children,10 and 2 cases reported in the neonatal period.11 Many patients with PE show serologic findings suggestive of systemic lupus erythematosus (SLE), especially the presence of anti-nuclear antibodies.2,12 PF is an autoimmune blistering disease of unknown etiology with antibodies produced against desmoglein 1 (Dsg1).13 Dsg1 is an adhesive cadherin protein found in the desmosomal cell junction in the suprabasal layers of the epidermis.14,15 Binding of the antibody results in the loss of cell adhesion or acantholysis and formation of the clinical picture of PF.16 The blisters are subcorneal, occurring in and around the granular cell layer of the epidermis.13 Blister formation is superficial because the most differentiated layer of the epidermis is the only area in which Dsg1 is critically important to cell adhesion, and there is no protection redundancy of adhesion molecules by coexpression of Dsg3.17 Of interest, one study has demonstrated that the autoantibodies in up to 7% of patients with PF and up to 50% of patients with PV recognize both Dsg1 and Dsg3 isoforms.18 It also is reported that some patients can progress from PF to PV or vice versa, though the latter is less common.19 It has been shown that this transition correlates well with the qualitative and quantitative changes in the profile of Dsg1 and Dsg3 antibodies.20 Patients with PF have been reported to have a predominance of circulating IgG4 antiepidermal autoantibodies, followed by a lesser degree of IgG1, IgG2, and IgG3 subclasses.21 PF has shown a strong association with several HLA-DRB1 haplotypes.22,23 Most recently, an association with HLA-DRB1*0101 was found in the Mexican population.24 Sunlight exposure25 and several drugs such as penicillamine26,27 have been identified as possible triggering factors for the disease. In children, bacteria, cytomegalovirus, and otitis also have been implicated.10 Similarly, an unusual case of childhood PF apparently triggered by conjunctivitis was reported.28 PF manifests clinically as recurrent shallow erosions accompanied by erythema, scaling, and crusting.29 Lesions usually are found in a seborrheic distribution (central face, neck, chest, or upper back).30 Patients develop superficial fragile vesicles, which often are not seen. In contrast to PV, PF patients rarely have mucosal involvement.11 The onset of disease may be slow, starting with only a few transient scattered crusted lesions.2 The condition may then stay localized for years or progress into generalized involvement, sometimes resulting in an exfoliative erythroderma.31 In general, patients are not severely ill but often complain of burning and pain associated with the skin lesions.2 Fogo selvagem, formerly known as Brazilian PF, occurs in an endemic fashion in certain regions of Brazil.32 The condition has been described in certain regions of Brazil since the turn of the century.33 The prevalence in some rural areas of Brazil is as high as 3.4%.34 There also have been reports of other possible foci of endemic PF in Tunisia and Columbia.35,36 Endemic PF differs from sporadic PF in its geographic distribution, high familial incidence, and young age of onset.36 The clinical manifestations, histology, and immunopathologic features are indistinguishable from sporadic PF.29,32 The distinct epidemiology of the condition is suggestive of an environmental or infectious agent. Studies have identified that most patients are young peasants or children who live in close proximity to rivers, which exposes the children to the hematophagous insect belonging to the Simulium nigrimanum species, also known by its popular name borrachudo (blackfly).37,38 PE was first described by Senear and Usher39 in 1926. Originally, the term PE was introduced to describe patients with immunologic features of both SLE and pemphigus.2 Many patients with PE show serologic findings suggestive of SLE, especially the presence of antinuclear antibodies.12,40 However, there are only a few reports of PE occurring in patients who have clearly defined SLE.41,42 In most of these cases, the diagnosis of SLE had been established months to years earlier.42 PE also may be associated with a variety of autoantibodies and may require extensive immunotherapy.43 PE has characteristic findings on direct immunofluorescence, usually IgG and C3 at the basement membrane zone of erythematous facial skin, in addition to the epidermal cell surface IgG.12,44 Clinically, the lesions of PE resemble those of PF but are most commonly restricted to the upper trunk, head, and neck.42 PE may remain localized for years, or it may evolve into more generalized PF.40 PE also has been associated with myasthenia gravis and thymomas.45 The histologic changes of PF, PE, and fogo selvagem are identical.2 Early blisters indicate acantholysis just below the stratum corneum and in the granular layer. The stratum corneum often is lost from the surface of these lesions. The deeper epidermis, below the granular layer, remains intact. Another frequent finding is subcorneal pustules, with neutrophils and acantholytic epidermal cells in the blister cavity.12 Immunofluorescence using both direct and indirect techniques is the most reliable method of diagnosing pemphigus.46 Most patients with pemphigus have IgG and C3 deposits at the epidermal cell surfaces and circulating IgG against the same components.47 However, the cell staining pattern of both direct and indirect immunofluorescence is virtually identical in PV and PF, making it difficult to distinguish between them.48 One innovation has been the introduction of an antigen-specific ELISA (enzyme-linked immunosorbent assay) test for the diagnosis of pemphigus: if a serum is positive against Dsg3, the test results indicate a diagnosis of PV, regardless of reactivity against Dsg1; if a serum is negative for Dsg3 and positive for Dsg1, the test results indicate a diagnosis of PF.48 The differential diagnosis of PF includes other forms of pemphigus, bullous impetigo, subcorneal pustular dermatosis, linear IgA dermatosis, and seborrheic dermatitis.2,30 Before the advent of glucocorticoid therapy, PF was fatal in about 60% of patients.12 The aim of current therapy is to suppress the production of pathogenic antibodies, stop the development of new lesions, and heal old lesions.49 The therapy of PF differs from that of PV only in that treatment can be less aggressive because morbidity and mortality are lower.26 In all patients, a complete review of medications should be done to exclude the possibility of drug-induced PF. The most commonly implicated medications are penicillamine,27 captopril,50 lisinopril,51 nifedipine,52 and topical imiquimod.53 Because PF may be localized for many years and the prognosis without systemic therapy may be good, patients do not necessarily require systemic therapy. This patient group may be treated successfully with topical corticosteroids.29,54 Patients with active and widespread disease require systemic therapy.16 An initial dose of prednisone at 1.0 mg/kg can usually be tapered down toward an alternate-day dosage within 1 to 3 months.29 One patient has been kept on a low dose of corticosteroids successfully as maintenance over an extended period.55 Patients with the most severe disease (ie, disease unresponsive to corticosteroids) should be considered for adjuvant immunosuppressive drugs as steroid-sparing agents.29,49 The goal of immunosuppressive therapy is to suppress the production of antibodies. One of the medications used is mycophenolate mofetil, which is shown to be an effective steroid-sparing agent.56,57 Oral cyclophosphamide, which also is an effective adjuvant alkylating agent in the treatment of severe and refractory PV and PF, can be combined with pulse intravenous corticosteroids. However, the use of alkylating agents should be done with care because of the risk of side effects such as hemorrhagic cystitis, susceptibility to infection, potential infertility, mutagenic potential, and lifetime risk for transitional cell carcinoma of the bladder and hematologic malignancies.58 Other immunosuppressive medications that have been used include azathioprine,59,60 methotrexate,61,62 and cyclosporine.63,64 In patients for whom conventional therapies have failed, alternative therapies such as intravenous immunoglobulin,65 plasmapheresis,66 and extracorporeal photochemotherapy67,68 have been employed successfully. A single case of PF occurring after unrelated cord blood transplantation was reported to be successfully treated with rituximab, an anti-CD20 antibody.69 Dapsone has been used both as monotherapy and in combination regimens. In a study of 9 patients, 5 had at least 50% improvement.70 Only patients with low titers or undetectable circulating antibodies responded to monotherapy. The value of dapsone in the treatment of PF remains to be clearly established.71 There have been a few case reports indicating that a combination of tetracycline and niacinamide is an effective alternative to steroids in superficial pemphigus.72 Other agents reported in the literature include gold,43,73 chlorambucil,74 and hydroxychloroquine sulfate.75 It is commonly perceived that PF is more benign than PV. Although uncommon, there are several reports of death occurring in PF.65,76 Infection is often the cause of death, and therapy is frequently a contributing factor because it causes the immunosuppression necessary to treat active disease.77 The effective management of PF requires a knowledge of the pathophysiology and pharmacologic effects of the agents used, an ability to make an accurate diagnosis, and an understanding of the patient's expectations.49
Pemphigus describes a group of autoimmune chronic bullous diseases, originally named in 1791.1 The term pemphigus stems from the Greek pemphix meaning blister or bubble.2 Pemphigus is usually divided into 2 major forms depending on blister location: pemphigus vulgaris (PV) and pemphigus foliaceus (PF). Pemphigus vegetans is a variant of PV, and pemphigus erythematosus (PE) and fogo selvagem are variants of PF. During the past 3 decades, uncommon forms of pemphigus have been described, including pemphigus herpetiformis, immunoglobulin A (IgA) pemphigus, and paraneoplastic pemphigus.3 The incidence of pemphigus ranges from 0.76 to 5 new cases per million per year.2 In a recent analysis of 1209 patients with pemphigus in Iran, the PV to PF ratio was found to be 12:1. However, this ratio varies widely in different parts of the world.4 In one report, 73% of cases of pemphigus in France were PV.5 PV also is the most common clinical type of pemphigus in Kuwait, Israel, and Singapore.6-8 In a report on pemphigus in South Africa, the most common clinical variant was PF, and 80% of these patients were black.9 Of note, in the Indian population in this region, PV was more common. A high percentage of PF is endemic in rural Brazil, Tunisia, and Columbia.9
Case Report
A 58-year-old white woman presented with a 6-month history of superficial erosions on the chest, upper back, hairline, and retroauricular areas. She denied any photosensitivity, and there was no mucosal involvement. The patient's medical history was otherwise unremarkable. Superficial erosions with a positive Nikolsky sign were present on the chest (Figure), upper back, and frontal hairline, as well as in the retroauricular areas bilaterally. Two punch biopsies (one lesional and one perilesional) were performed. Routine histology results showed intraepidermal vesicles in the upper granular layer containing acantholytic cells. Results of direct immunofluorescence demonstrated IgG and complement 3 (C3) in the intercellular spaces in the epidermal cell surface. Of note, antinuclear antibody and anti–double-stranded DNA were negative. These findings were consistent with our clinical diagnosis of PF.
The patient was initially started on a high potency topical corticosteroid (clobetasol propionate ointment) for 4 weeks with no improvement. She was then given prednisone 60 mg/d for approximately one month when new lesions ceased to appear; then the medication was slowly tapered off. Dapsone also was added to her regimen after an initial baseline level of glucose-6-phosphate dehydrogenase and a baseline complete blood count were obtained. Dapsone was initiated at 50 mg/d while prednisone was being slowly tapered. Cacit D3 in a single morning dose (1000 mg calcium and 880 IU vitamin D) also was added to the regimen. Of note, the patient was taking celecoxib for intermittent joint pain, but a literature search at that time did not reveal an association with similar eruptions; our patient was asked to discontinue the celecoxib at the initiation of oral prednisone. She was seen at regular follow-up visits every month. As the patient improved clinically, dapsone was reduced to 25 mg and finally discontinued after about 6 months. Oral prednisone taper continued slowly over a total of 18 months. No lesions were present for the last 3 monthly visits.
Comment
PF comprises 2 major categories: endemic and sporadic. The endemic form, also known as fogo selvagem, primarily affects children and young adults in rural Brazil. In contrast, the sporadic form of PF is generally a disease of middle-aged individuals and the elderly. Of note, there are several cases of nonendemic PF occurring in children,10 and 2 cases reported in the neonatal period.11 Many patients with PE show serologic findings suggestive of systemic lupus erythematosus (SLE), especially the presence of anti-nuclear antibodies.2,12 PF is an autoimmune blistering disease of unknown etiology with antibodies produced against desmoglein 1 (Dsg1).13 Dsg1 is an adhesive cadherin protein found in the desmosomal cell junction in the suprabasal layers of the epidermis.14,15 Binding of the antibody results in the loss of cell adhesion or acantholysis and formation of the clinical picture of PF.16 The blisters are subcorneal, occurring in and around the granular cell layer of the epidermis.13 Blister formation is superficial because the most differentiated layer of the epidermis is the only area in which Dsg1 is critically important to cell adhesion, and there is no protection redundancy of adhesion molecules by coexpression of Dsg3.17 Of interest, one study has demonstrated that the autoantibodies in up to 7% of patients with PF and up to 50% of patients with PV recognize both Dsg1 and Dsg3 isoforms.18 It also is reported that some patients can progress from PF to PV or vice versa, though the latter is less common.19 It has been shown that this transition correlates well with the qualitative and quantitative changes in the profile of Dsg1 and Dsg3 antibodies.20 Patients with PF have been reported to have a predominance of circulating IgG4 antiepidermal autoantibodies, followed by a lesser degree of IgG1, IgG2, and IgG3 subclasses.21 PF has shown a strong association with several HLA-DRB1 haplotypes.22,23 Most recently, an association with HLA-DRB1*0101 was found in the Mexican population.24 Sunlight exposure25 and several drugs such as penicillamine26,27 have been identified as possible triggering factors for the disease. In children, bacteria, cytomegalovirus, and otitis also have been implicated.10 Similarly, an unusual case of childhood PF apparently triggered by conjunctivitis was reported.28 PF manifests clinically as recurrent shallow erosions accompanied by erythema, scaling, and crusting.29 Lesions usually are found in a seborrheic distribution (central face, neck, chest, or upper back).30 Patients develop superficial fragile vesicles, which often are not seen. In contrast to PV, PF patients rarely have mucosal involvement.11 The onset of disease may be slow, starting with only a few transient scattered crusted lesions.2 The condition may then stay localized for years or progress into generalized involvement, sometimes resulting in an exfoliative erythroderma.31 In general, patients are not severely ill but often complain of burning and pain associated with the skin lesions.2 Fogo selvagem, formerly known as Brazilian PF, occurs in an endemic fashion in certain regions of Brazil.32 The condition has been described in certain regions of Brazil since the turn of the century.33 The prevalence in some rural areas of Brazil is as high as 3.4%.34 There also have been reports of other possible foci of endemic PF in Tunisia and Columbia.35,36 Endemic PF differs from sporadic PF in its geographic distribution, high familial incidence, and young age of onset.36 The clinical manifestations, histology, and immunopathologic features are indistinguishable from sporadic PF.29,32 The distinct epidemiology of the condition is suggestive of an environmental or infectious agent. Studies have identified that most patients are young peasants or children who live in close proximity to rivers, which exposes the children to the hematophagous insect belonging to the Simulium nigrimanum species, also known by its popular name borrachudo (blackfly).37,38 PE was first described by Senear and Usher39 in 1926. Originally, the term PE was introduced to describe patients with immunologic features of both SLE and pemphigus.2 Many patients with PE show serologic findings suggestive of SLE, especially the presence of antinuclear antibodies.12,40 However, there are only a few reports of PE occurring in patients who have clearly defined SLE.41,42 In most of these cases, the diagnosis of SLE had been established months to years earlier.42 PE also may be associated with a variety of autoantibodies and may require extensive immunotherapy.43 PE has characteristic findings on direct immunofluorescence, usually IgG and C3 at the basement membrane zone of erythematous facial skin, in addition to the epidermal cell surface IgG.12,44 Clinically, the lesions of PE resemble those of PF but are most commonly restricted to the upper trunk, head, and neck.42 PE may remain localized for years, or it may evolve into more generalized PF.40 PE also has been associated with myasthenia gravis and thymomas.45 The histologic changes of PF, PE, and fogo selvagem are identical.2 Early blisters indicate acantholysis just below the stratum corneum and in the granular layer. The stratum corneum often is lost from the surface of these lesions. The deeper epidermis, below the granular layer, remains intact. Another frequent finding is subcorneal pustules, with neutrophils and acantholytic epidermal cells in the blister cavity.12 Immunofluorescence using both direct and indirect techniques is the most reliable method of diagnosing pemphigus.46 Most patients with pemphigus have IgG and C3 deposits at the epidermal cell surfaces and circulating IgG against the same components.47 However, the cell staining pattern of both direct and indirect immunofluorescence is virtually identical in PV and PF, making it difficult to distinguish between them.48 One innovation has been the introduction of an antigen-specific ELISA (enzyme-linked immunosorbent assay) test for the diagnosis of pemphigus: if a serum is positive against Dsg3, the test results indicate a diagnosis of PV, regardless of reactivity against Dsg1; if a serum is negative for Dsg3 and positive for Dsg1, the test results indicate a diagnosis of PF.48 The differential diagnosis of PF includes other forms of pemphigus, bullous impetigo, subcorneal pustular dermatosis, linear IgA dermatosis, and seborrheic dermatitis.2,30 Before the advent of glucocorticoid therapy, PF was fatal in about 60% of patients.12 The aim of current therapy is to suppress the production of pathogenic antibodies, stop the development of new lesions, and heal old lesions.49 The therapy of PF differs from that of PV only in that treatment can be less aggressive because morbidity and mortality are lower.26 In all patients, a complete review of medications should be done to exclude the possibility of drug-induced PF. The most commonly implicated medications are penicillamine,27 captopril,50 lisinopril,51 nifedipine,52 and topical imiquimod.53 Because PF may be localized for many years and the prognosis without systemic therapy may be good, patients do not necessarily require systemic therapy. This patient group may be treated successfully with topical corticosteroids.29,54 Patients with active and widespread disease require systemic therapy.16 An initial dose of prednisone at 1.0 mg/kg can usually be tapered down toward an alternate-day dosage within 1 to 3 months.29 One patient has been kept on a low dose of corticosteroids successfully as maintenance over an extended period.55 Patients with the most severe disease (ie, disease unresponsive to corticosteroids) should be considered for adjuvant immunosuppressive drugs as steroid-sparing agents.29,49 The goal of immunosuppressive therapy is to suppress the production of antibodies. One of the medications used is mycophenolate mofetil, which is shown to be an effective steroid-sparing agent.56,57 Oral cyclophosphamide, which also is an effective adjuvant alkylating agent in the treatment of severe and refractory PV and PF, can be combined with pulse intravenous corticosteroids. However, the use of alkylating agents should be done with care because of the risk of side effects such as hemorrhagic cystitis, susceptibility to infection, potential infertility, mutagenic potential, and lifetime risk for transitional cell carcinoma of the bladder and hematologic malignancies.58 Other immunosuppressive medications that have been used include azathioprine,59,60 methotrexate,61,62 and cyclosporine.63,64 In patients for whom conventional therapies have failed, alternative therapies such as intravenous immunoglobulin,65 plasmapheresis,66 and extracorporeal photochemotherapy67,68 have been employed successfully. A single case of PF occurring after unrelated cord blood transplantation was reported to be successfully treated with rituximab, an anti-CD20 antibody.69 Dapsone has been used both as monotherapy and in combination regimens. In a study of 9 patients, 5 had at least 50% improvement.70 Only patients with low titers or undetectable circulating antibodies responded to monotherapy. The value of dapsone in the treatment of PF remains to be clearly established.71 There have been a few case reports indicating that a combination of tetracycline and niacinamide is an effective alternative to steroids in superficial pemphigus.72 Other agents reported in the literature include gold,43,73 chlorambucil,74 and hydroxychloroquine sulfate.75 It is commonly perceived that PF is more benign than PV. Although uncommon, there are several reports of death occurring in PF.65,76 Infection is often the cause of death, and therapy is frequently a contributing factor because it causes the immunosuppression necessary to treat active disease.77 The effective management of PF requires a knowledge of the pathophysiology and pharmacologic effects of the agents used, an ability to make an accurate diagnosis, and an understanding of the patient's expectations.49
- Thivolet J. Pemphigus: past, present and future. Dermatology. 1994;189(suppl 2):26-29.
- Amagai M. Pemphigus. In: Bolognia JL, Jorizzo JL, Rapini RP, eds. Dermatology. St. Louis, Mo: Mosby; 2003:449-462.
- Robinson ND, Hashimoto T, Amagai M, et al. The new pemphigus variants. J Am Acad Dermatol. 1999;40(5 pt 1):649-671.
- Chams-Davatchi C, Valikhani M, Daneshpazhooh M, et al. Pemphigus: analysis of 1209 cases. Int J Dermatol. 2005;44:470-476.
- Bastuji-Garin S, Souissi R, Blum L, et al. Comparative epidemiology of pemphigus in Tunisia and France: unusual incidence of pemphigus foliaceus in young Tunisian women. J Invest Dermatol. 1995;104:302-305.
- Alsaleh QA, Nanda A, Al-Baghli NM, et al. Pemphigus in Kuwait. Int J Dermatol. 1999;38:351-356.
- Wohl Y, Brenner S. Pemphigus in Israel—an epidemiologic analysis of cases in search of risk factors. Isr Med Assoc J. 2003;5:410-412.
- Goon AT, Tan SH. Comparative study of pemphigus vulgaris and pemphigus foliaceus in Singapore. Australas J Dermatol. 2001;42:172-175.
- Aboobaker J, Morar N, Ramdial PK, et al. Pemphigus in South Africa. Int J Dermatol. 2001;40:115-119.
- Metry DW, Hebert AA, Jordon RE. Nonendemic pemphigus foliaceus in children. J Am Acad Dermatol. 2002;46:419-422.
- Hirsch R, Anderson J, Weinberg JM, et al. Neonatal pemphigus foliaceus. J Am Acad Dermatol. 2003;49(suppl 2):S187-S189.
- Stanley JR, Pemphigus. In: Freedberg IM, Eisen AZ, Wolff K, et al, eds. Fitzpatrick's Dermatology in General Medicine. 6th ed. New York, NY: McGraw-Hill; 2003:558-567.
- Anhalt GJ. Making sense of antigens and antibodies in pemphigus. J Am Acad Dermatol. 1999;40(5 pt 1): 763-766.
- Takeichi M. Cadherin cell adhesion receptors as a morphogenetic regulator. Science. 1991;251:1451-1455.
- Adams MJ, Reichel MB, King IA, et al. Characterization of the regulatory regions in the human desmoglein genes encoding the pemphigus foliaceus and pemphigus vulgaris antigens. Biochem J. 1998;329(pt 1):165-174.
- Scott JE, Ahmed AR. The blistering diseases. Med Clin North Am. 1998;82:1239-1283.
- Mahoney MG, Rothenberger K, Koch PJ, et al. Explanation for the clinical and microscopic localization of lesions in pemphigus foliaceus and vulgaris. J Clin Invest. 1999;103:461-468.
- Arteaga LA, Prisayanh PS, Warren SJ, et al. A subset of pemphigus foliaceus patients exhibits pathogenic autoantibodies against both desmoglein-1 and desmoglein-3. J Invest Dermatol. 2002;118:806-811.
- Ishii K, Amagai M, Ohata Y, et al. Development of pemphigus vulgaris in a patient with pemphigus foliaceus: antidesmoglein antibody profile shift confirmed by enzyme linked immunosorbent assay. J Am Acad Dermatol. 2000;42(5 pt 2):859-861.
- Komai A, Amagai M, Ishii K, et al. The clinical transition between pemphigus foliaceus and pemphigus vulgaris correlates well wi
- Thivolet J. Pemphigus: past, present and future. Dermatology. 1994;189(suppl 2):26-29.
- Amagai M. Pemphigus. In: Bolognia JL, Jorizzo JL, Rapini RP, eds. Dermatology. St. Louis, Mo: Mosby; 2003:449-462.
- Robinson ND, Hashimoto T, Amagai M, et al. The new pemphigus variants. J Am Acad Dermatol. 1999;40(5 pt 1):649-671.
- Chams-Davatchi C, Valikhani M, Daneshpazhooh M, et al. Pemphigus: analysis of 1209 cases. Int J Dermatol. 2005;44:470-476.
- Bastuji-Garin S, Souissi R, Blum L, et al. Comparative epidemiology of pemphigus in Tunisia and France: unusual incidence of pemphigus foliaceus in young Tunisian women. J Invest Dermatol. 1995;104:302-305.
- Alsaleh QA, Nanda A, Al-Baghli NM, et al. Pemphigus in Kuwait. Int J Dermatol. 1999;38:351-356.
- Wohl Y, Brenner S. Pemphigus in Israel—an epidemiologic analysis of cases in search of risk factors. Isr Med Assoc J. 2003;5:410-412.
- Goon AT, Tan SH. Comparative study of pemphigus vulgaris and pemphigus foliaceus in Singapore. Australas J Dermatol. 2001;42:172-175.
- Aboobaker J, Morar N, Ramdial PK, et al. Pemphigus in South Africa. Int J Dermatol. 2001;40:115-119.
- Metry DW, Hebert AA, Jordon RE. Nonendemic pemphigus foliaceus in children. J Am Acad Dermatol. 2002;46:419-422.
- Hirsch R, Anderson J, Weinberg JM, et al. Neonatal pemphigus foliaceus. J Am Acad Dermatol. 2003;49(suppl 2):S187-S189.
- Stanley JR, Pemphigus. In: Freedberg IM, Eisen AZ, Wolff K, et al, eds. Fitzpatrick's Dermatology in General Medicine. 6th ed. New York, NY: McGraw-Hill; 2003:558-567.
- Anhalt GJ. Making sense of antigens and antibodies in pemphigus. J Am Acad Dermatol. 1999;40(5 pt 1): 763-766.
- Takeichi M. Cadherin cell adhesion receptors as a morphogenetic regulator. Science. 1991;251:1451-1455.
- Adams MJ, Reichel MB, King IA, et al. Characterization of the regulatory regions in the human desmoglein genes encoding the pemphigus foliaceus and pemphigus vulgaris antigens. Biochem J. 1998;329(pt 1):165-174.
- Scott JE, Ahmed AR. The blistering diseases. Med Clin North Am. 1998;82:1239-1283.
- Mahoney MG, Rothenberger K, Koch PJ, et al. Explanation for the clinical and microscopic localization of lesions in pemphigus foliaceus and vulgaris. J Clin Invest. 1999;103:461-468.
- Arteaga LA, Prisayanh PS, Warren SJ, et al. A subset of pemphigus foliaceus patients exhibits pathogenic autoantibodies against both desmoglein-1 and desmoglein-3. J Invest Dermatol. 2002;118:806-811.
- Ishii K, Amagai M, Ohata Y, et al. Development of pemphigus vulgaris in a patient with pemphigus foliaceus: antidesmoglein antibody profile shift confirmed by enzyme linked immunosorbent assay. J Am Acad Dermatol. 2000;42(5 pt 2):859-861.
- Komai A, Amagai M, Ishii K, et al. The clinical transition between pemphigus foliaceus and pemphigus vulgaris correlates well wi