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What Is Your Diagnosis? Lepromatous Leprosy
Author(s)
Laura Kline, MD
Roxann Powers, MD
Jennifer Defazio, MD

The Diagnosis: Lepromatous Leprosy

Histopathologic examination of a punch biopsy specimen (Figures 1 and 2) disclosed a grenz zone and a diffuse infiltrative process beneath a normal-appearing epidermis. Higher-power examination revealed areas containing macrophages (Virchow cells) with cloudy regions devoid of nuclei (globi). Fite stain demonstrated numerous intracytoplasmic acid-fast bacilli (Figure 3). Laboratory test results for rapid plasma reagin and human immunodeficiency virus were negative, and a complete blood cell count was normal.

Figure 1. Extensive dermal infiltrate of macrophages with characteristic grenz zone (H&E, original magnification ×40).

Figure 2. Foamy macrophages (Virchow cells)(H&E, original magnification ×100).

Figure 3. Large clumps of acid-fast bacilli (globi)(Fite, original magnification ×100).

On further questioning the patient revealed he was an immigrant from Micronesia, and he described decreased sensation and numbness in the lesions that had been present from onset. Physical examination was consistent with this history and revealed hypoesthesia of the lesions, particularly over the central aspect of the depigmented macules. Based on the clinical examination and histopathologic findings, a diagnosis of lepromatous leprosy was made.

Therapy with rifampin, clofazimine, and dapsone was initiated. Unfortunately, compliance was poor, and at clinic follow-up 10 months later the patient demonstrated formation of new indurated lesions as well as mild eyelid swelling and edema of the hands thought to be consistent with erythema nodosum leprosum. Prednisone was then initiated and the dose of clofazimine was increased from 50 mg daily to 100 mg daily with excellent clinical response.

Mycobacterium leprae is a small, slightly curved rod that is an acid-fast, obligate, intracellular organism. It remains endemic in Brazil and Southeast Asia but may present outside of these areas secondary to immigration.1

Hallmarks of the disease are anesthetic skin or mucous membrane lesions with thickened peripheral nerves.2 It grows best at 27°C to 33°C, thereby affecting cooler areas of the human body such as earlobes, knees, and distal extremities.3 It is most likely spread by aerosolized respiratory droplets and less commonly by direct contact. There have been reports suggesting transmission via armadillos.4

Genetic susceptibility influences the development of leprosy, while HLA type influences the immune response and hence the type of leprosy.5 Ridley and Jopling6 devised a classification system based on the immunologic response to M leprae. Highly reactive hosts with a vigorous cell-mediated response to M leprae develop tuberculoid leprosy and exhibit few skin lesions containing rare organisms. In contrast, anergic hosts develop lepromatous leprosy, characterized by multiple skin lesions, abundant organisms, and diffuse disease. Borderline tuberculoid, borderline, and borderline lepromatous make up the middle of the spectrum.6-9 Skin lesions can present with poorly defined, hypopigmented macules of indeterminate leprosy on one end and diffuse skin involvement of lepromatous leprosy on the opposite end. Diffuse involvement includes facial skin thickening, classic leonine facies, loss of eyebrows and eyelashes, anesthetic lesions, and anhidrosis.

Erythema nodosum leprosum occurs with chronic infection from M leprae, most commonly lepromatous leprosy. Immune complex deposition results in vasculitis and inflammatory foci. This phenomenon is thought to be secondary to high antigen load released by dying mycobacteria, causing secretion of tumor necrosis factor a from macrophages.1 Erythema nodosum leprosum demonstrates rapid onset of tender erythematous plaques or nodules, most commonly on the face and extensor surfaces of the extremities, with fever, malaise, iritis, arthralgia, and orchitis. Clofazimine therapy probably decreases the occurence.1 Treatment includes systemic corticosteroids and/or thalidomide.

References
  1. Moschella S, Ooi W. Update on leprosy in immigrants in the United States: status in the year 2000. Clin Infect Dis. 2001;32:930-937.
  2. Abraham S, Job C, Joseph G, et al. Epidemiological significance of first skin lesion in leprosy. Int J Lep Other Mycobact Dis. 1998;66:131-139.
  3. Shepard C. The experimental disease that follows the injection of human bacilli into footpads of mice. J Exp Med. 1960;112:445-454.
  4. Leprosy: global target attained. Wkly Epidemiol Rec. 2001;20:155-156.
  5. World Health Organization. Global leprosy situation, 2005. Wkly Epidemiol Rec. 2005;80:289-295.
  6. Ridley DS, Jopling WH. A classification of leprosy for research purposes. Lepr Rev. 1962;33:119-128.
  7. Lane J. Borderline tuberculoid leprosy in a woman from the state of Georgia with armadillo exposure. J Am Acad Dermatol. 2006;55:714-716.
  8. Fitness J, Tosh K, Hill AV. Genetics of susceptibility to leprosy. Genes Immun. 2002;3:441-453.
  9. Moschella SL. An update on the diagnosis and treatment of leprosy. J Am Acad Dermatol. 2004;51:417-426.
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From West Virginia University, Morgantown.

The authors report no conflict of interest.

Correspondence: Laura Kline, MD, West Virginia University School of Medicine, Morgantown, WV 26506 (lklinemd@gmail.com).

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Cutis - 95(1)
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MDedge Dermatology
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leprosy, mycobacterium, erythema nodosum leprosum, tuberculoid leprosy, borderline leprosy, lepromatous leprosy
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Author(s)
Laura Kline, MD
Roxann Powers, MD
Jennifer Defazio, MD
Author(s)
Laura Kline, MD
Roxann Powers, MD
Jennifer Defazio, MD
Author and Disclosure Information

From West Virginia University, Morgantown.

The authors report no conflict of interest.

Correspondence: Laura Kline, MD, West Virginia University School of Medicine, Morgantown, WV 26506 (lklinemd@gmail.com).

Author and Disclosure Information

From West Virginia University, Morgantown.

The authors report no conflict of interest.

Correspondence: Laura Kline, MD, West Virginia University School of Medicine, Morgantown, WV 26506 (lklinemd@gmail.com).

Article PDF
CT095010019.pdf
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CT095010019.pdf
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The Diagnosis: Lepromatous Leprosy

Histopathologic examination of a punch biopsy specimen (Figures 1 and 2) disclosed a grenz zone and a diffuse infiltrative process beneath a normal-appearing epidermis. Higher-power examination revealed areas containing macrophages (Virchow cells) with cloudy regions devoid of nuclei (globi). Fite stain demonstrated numerous intracytoplasmic acid-fast bacilli (Figure 3). Laboratory test results for rapid plasma reagin and human immunodeficiency virus were negative, and a complete blood cell count was normal.

Figure 1. Extensive dermal infiltrate of macrophages with characteristic grenz zone (H&E, original magnification ×40).

Figure 2. Foamy macrophages (Virchow cells)(H&E, original magnification ×100).

Figure 3. Large clumps of acid-fast bacilli (globi)(Fite, original magnification ×100).

On further questioning the patient revealed he was an immigrant from Micronesia, and he described decreased sensation and numbness in the lesions that had been present from onset. Physical examination was consistent with this history and revealed hypoesthesia of the lesions, particularly over the central aspect of the depigmented macules. Based on the clinical examination and histopathologic findings, a diagnosis of lepromatous leprosy was made.

Therapy with rifampin, clofazimine, and dapsone was initiated. Unfortunately, compliance was poor, and at clinic follow-up 10 months later the patient demonstrated formation of new indurated lesions as well as mild eyelid swelling and edema of the hands thought to be consistent with erythema nodosum leprosum. Prednisone was then initiated and the dose of clofazimine was increased from 50 mg daily to 100 mg daily with excellent clinical response.

Mycobacterium leprae is a small, slightly curved rod that is an acid-fast, obligate, intracellular organism. It remains endemic in Brazil and Southeast Asia but may present outside of these areas secondary to immigration.1

Hallmarks of the disease are anesthetic skin or mucous membrane lesions with thickened peripheral nerves.2 It grows best at 27°C to 33°C, thereby affecting cooler areas of the human body such as earlobes, knees, and distal extremities.3 It is most likely spread by aerosolized respiratory droplets and less commonly by direct contact. There have been reports suggesting transmission via armadillos.4

Genetic susceptibility influences the development of leprosy, while HLA type influences the immune response and hence the type of leprosy.5 Ridley and Jopling6 devised a classification system based on the immunologic response to M leprae. Highly reactive hosts with a vigorous cell-mediated response to M leprae develop tuberculoid leprosy and exhibit few skin lesions containing rare organisms. In contrast, anergic hosts develop lepromatous leprosy, characterized by multiple skin lesions, abundant organisms, and diffuse disease. Borderline tuberculoid, borderline, and borderline lepromatous make up the middle of the spectrum.6-9 Skin lesions can present with poorly defined, hypopigmented macules of indeterminate leprosy on one end and diffuse skin involvement of lepromatous leprosy on the opposite end. Diffuse involvement includes facial skin thickening, classic leonine facies, loss of eyebrows and eyelashes, anesthetic lesions, and anhidrosis.

Erythema nodosum leprosum occurs with chronic infection from M leprae, most commonly lepromatous leprosy. Immune complex deposition results in vasculitis and inflammatory foci. This phenomenon is thought to be secondary to high antigen load released by dying mycobacteria, causing secretion of tumor necrosis factor a from macrophages.1 Erythema nodosum leprosum demonstrates rapid onset of tender erythematous plaques or nodules, most commonly on the face and extensor surfaces of the extremities, with fever, malaise, iritis, arthralgia, and orchitis. Clofazimine therapy probably decreases the occurence.1 Treatment includes systemic corticosteroids and/or thalidomide.

The Diagnosis: Lepromatous Leprosy

Histopathologic examination of a punch biopsy specimen (Figures 1 and 2) disclosed a grenz zone and a diffuse infiltrative process beneath a normal-appearing epidermis. Higher-power examination revealed areas containing macrophages (Virchow cells) with cloudy regions devoid of nuclei (globi). Fite stain demonstrated numerous intracytoplasmic acid-fast bacilli (Figure 3). Laboratory test results for rapid plasma reagin and human immunodeficiency virus were negative, and a complete blood cell count was normal.

Figure 1. Extensive dermal infiltrate of macrophages with characteristic grenz zone (H&E, original magnification ×40).

Figure 2. Foamy macrophages (Virchow cells)(H&E, original magnification ×100).

Figure 3. Large clumps of acid-fast bacilli (globi)(Fite, original magnification ×100).

On further questioning the patient revealed he was an immigrant from Micronesia, and he described decreased sensation and numbness in the lesions that had been present from onset. Physical examination was consistent with this history and revealed hypoesthesia of the lesions, particularly over the central aspect of the depigmented macules. Based on the clinical examination and histopathologic findings, a diagnosis of lepromatous leprosy was made.

Therapy with rifampin, clofazimine, and dapsone was initiated. Unfortunately, compliance was poor, and at clinic follow-up 10 months later the patient demonstrated formation of new indurated lesions as well as mild eyelid swelling and edema of the hands thought to be consistent with erythema nodosum leprosum. Prednisone was then initiated and the dose of clofazimine was increased from 50 mg daily to 100 mg daily with excellent clinical response.

Mycobacterium leprae is a small, slightly curved rod that is an acid-fast, obligate, intracellular organism. It remains endemic in Brazil and Southeast Asia but may present outside of these areas secondary to immigration.1

Hallmarks of the disease are anesthetic skin or mucous membrane lesions with thickened peripheral nerves.2 It grows best at 27°C to 33°C, thereby affecting cooler areas of the human body such as earlobes, knees, and distal extremities.3 It is most likely spread by aerosolized respiratory droplets and less commonly by direct contact. There have been reports suggesting transmission via armadillos.4

Genetic susceptibility influences the development of leprosy, while HLA type influences the immune response and hence the type of leprosy.5 Ridley and Jopling6 devised a classification system based on the immunologic response to M leprae. Highly reactive hosts with a vigorous cell-mediated response to M leprae develop tuberculoid leprosy and exhibit few skin lesions containing rare organisms. In contrast, anergic hosts develop lepromatous leprosy, characterized by multiple skin lesions, abundant organisms, and diffuse disease. Borderline tuberculoid, borderline, and borderline lepromatous make up the middle of the spectrum.6-9 Skin lesions can present with poorly defined, hypopigmented macules of indeterminate leprosy on one end and diffuse skin involvement of lepromatous leprosy on the opposite end. Diffuse involvement includes facial skin thickening, classic leonine facies, loss of eyebrows and eyelashes, anesthetic lesions, and anhidrosis.

Erythema nodosum leprosum occurs with chronic infection from M leprae, most commonly lepromatous leprosy. Immune complex deposition results in vasculitis and inflammatory foci. This phenomenon is thought to be secondary to high antigen load released by dying mycobacteria, causing secretion of tumor necrosis factor a from macrophages.1 Erythema nodosum leprosum demonstrates rapid onset of tender erythematous plaques or nodules, most commonly on the face and extensor surfaces of the extremities, with fever, malaise, iritis, arthralgia, and orchitis. Clofazimine therapy probably decreases the occurence.1 Treatment includes systemic corticosteroids and/or thalidomide.

References
  1. Moschella S, Ooi W. Update on leprosy in immigrants in the United States: status in the year 2000. Clin Infect Dis. 2001;32:930-937.
  2. Abraham S, Job C, Joseph G, et al. Epidemiological significance of first skin lesion in leprosy. Int J Lep Other Mycobact Dis. 1998;66:131-139.
  3. Shepard C. The experimental disease that follows the injection of human bacilli into footpads of mice. J Exp Med. 1960;112:445-454.
  4. Leprosy: global target attained. Wkly Epidemiol Rec. 2001;20:155-156.
  5. World Health Organization. Global leprosy situation, 2005. Wkly Epidemiol Rec. 2005;80:289-295.
  6. Ridley DS, Jopling WH. A classification of leprosy for research purposes. Lepr Rev. 1962;33:119-128.
  7. Lane J. Borderline tuberculoid leprosy in a woman from the state of Georgia with armadillo exposure. J Am Acad Dermatol. 2006;55:714-716.
  8. Fitness J, Tosh K, Hill AV. Genetics of susceptibility to leprosy. Genes Immun. 2002;3:441-453.
  9. Moschella SL. An update on the diagnosis and treatment of leprosy. J Am Acad Dermatol. 2004;51:417-426.
References
  1. Moschella S, Ooi W. Update on leprosy in immigrants in the United States: status in the year 2000. Clin Infect Dis. 2001;32:930-937.
  2. Abraham S, Job C, Joseph G, et al. Epidemiological significance of first skin lesion in leprosy. Int J Lep Other Mycobact Dis. 1998;66:131-139.
  3. Shepard C. The experimental disease that follows the injection of human bacilli into footpads of mice. J Exp Med. 1960;112:445-454.
  4. Leprosy: global target attained. Wkly Epidemiol Rec. 2001;20:155-156.
  5. World Health Organization. Global leprosy situation, 2005. Wkly Epidemiol Rec. 2005;80:289-295.
  6. Ridley DS, Jopling WH. A classification of leprosy for research purposes. Lepr Rev. 1962;33:119-128.
  7. Lane J. Borderline tuberculoid leprosy in a woman from the state of Georgia with armadillo exposure. J Am Acad Dermatol. 2006;55:714-716.
  8. Fitness J, Tosh K, Hill AV. Genetics of susceptibility to leprosy. Genes Immun. 2002;3:441-453.
  9. Moschella SL. An update on the diagnosis and treatment of leprosy. J Am Acad Dermatol. 2004;51:417-426.
Issue
Cutis - 95(1)
Issue
Cutis - 95(1)
Page Number
19, 25-26
Page Number
19, 25-26
Publications
Cutis
MDedge Dermatology
Publications
Cutis
MDedge Dermatology
Topics
Infectious Diseases
Article Type
Article
Display Headline
What Is Your Diagnosis? Lepromatous Leprosy
Display Headline
What Is Your Diagnosis? Lepromatous Leprosy
Legacy Keywords
leprosy, mycobacterium, erythema nodosum leprosum, tuberculoid leprosy, borderline leprosy, lepromatous leprosy
Legacy Keywords
leprosy, mycobacterium, erythema nodosum leprosum, tuberculoid leprosy, borderline leprosy, lepromatous leprosy
Sections
Photo Challenge
Questionnaire Body

A 37-year-old man presented with pruritic lesions over the arms, legs, face, and back of 4 months’ duration that had been refractory to topical steroid treatment. He reported a 15-lb weight loss that he attributed to recent intranasal cocaine use. His medical history revealed obesity. There was no known history of sexually transmitted diseases, human immunodeficiency virus infection, tuberculosis, diabetes mellitus, or intravenous drug use. Physical examination revealed small nodules over the pinnae, plaques on the forehead, and large plaques with depigmented macules of variable sizes over the extremities and back. Some lesions on the extremities were violaceous in appearance, while others on the upper extremities had raised borders.

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