Vulvar Inflammatory Dermatoses: New Approaches for Diagnosis and Treatment

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Vulvar Inflammatory Dermatoses: New Approaches for Diagnosis and Treatment

Vulvar dermatoses continue to be an overlooked aspect of medical care, highlighting the necessity for enhanced diagnosis and management of these conditions. Here, we address recent advancements in understanding vulvar inflammatory dermatoses other than lichen sclerosus (LS), which was discussed in a prior Guest Editorial1—specifically vulvovaginal lichen planus (VLP), plasma cell vulvitis (PCV), and vulvar lichen simplex chronicus (LSC).

Vulvar Inflammatory Skin Disease and Quality of Life

There is an increased awareness of the impact vulvar skin disease has on quality of life and its association with anxiety and depression.2-5 Evaluating the burden of vulvar dermatoses remains an active area of research due to its significance in monitoring disease progression and assessing therapeutic effectiveness. Despite the existence of various dermatology quality-of-life assessment tools, many fail to adequately capture the unique impacts of vulvovaginal diseases, such as sexual or urinary dysfunction. The vulvar quality of life index, which was developed and validated by Saunderson et al6 in 2020, consists of a 15-item questionnaire spanning 4 domains: symptoms, anxiety, activities of daily living, and sexuality. This tool has been utilized to gauge treatment response in vulvar conditions and to compare disease burden of various vulvar dermatoses.7,8 Moving forward, integrating this tool into clinical studies on vulvar skin disease holds promise for enhancing our understanding and management of these conditions.

Vulvovaginal Lichen Planus

Vulvovaginal lichen planus is unique among several prevalent vulvar inflammatory skin disorders encountered by dermatologists—primarily due to its erosive form, which can extend to the vagina, resulting in noninfectious vaginitis and potential vaginal stenosis.9,10 Managing VLP poses a notable challenge, even when it is confined to the vulva, as it often proves resistant to topical therapies.11

Evaluation for Vaginal Mucosal Disease—In contrast to LS, which typically spares the vaginal mucosa, VLP can involve mucosal sites.9,12,13 Therefore, it is imperative that all patients with a diagnosis of vulvar VLP undergo evaluation for potential vaginal involvement through speculum examination, wet mount, or vaginal biopsy. Strategies to manage vaginal involvement include use of dilators and pelvic floor physical therapy, lysis of adhesions (if present), topical estrogen, and intravaginal corticosteroids—all tailored to the severity of the disease.9,11,14

Management of VLP—Approximately 20% to 40% of patients with VLP may require systemic therapy for disease management, including those who are younger, those of non-White ethnicity, and those presenting with vulvar pruritus.11 Various systemic immunosuppressants have been used for VLP, with a recent retrospective study revealing similar response rates for both methotrexate and mycophenolate mofetil in the treatment of VLP.15 Another retrospective study found hydroxychloroquine to be safe and effective for VLP but noted a slow onset of action, with approximately 70% responding at 9 months following initiation of therapy.16

Recent attention has shifted to use of targeted therapies for VLP. For instance, apremilast has shown efficacy in a single-center, nonrandomized, open-label pilot study.17 Tildrakizumab, an IL-23 inhibitor, demonstrated efficacy in a case series involving 24 patients with VLP.18 Moreover, recent case reports and series have highlighted the potential of oral Janus kinase (JAK) ­inhibitors, such as tofacitinib, in VLP treatment.19 Clinical trials are ongoing to evaluate the safety and efficacy of topical ruxolitinib and deucravacitinib (a tyrosine kinase 2 inhibitor) in VLP.20-22 Systemic therapies for VLP currently are used off label, emphasizing the need for future randomized controlled trials to ascertain the optimal therapies for patients affected by erosive and nonerosive forms of this disease.

 

 

Plasma Cell Vulvitis

Plasma cell vulvitis is a chronic inflammatory disorder with an unknown etiology that some consider to be a variant of VLP.23 Others have observed an overlap with desquamative inflammatory vaginitis, categorizing PCV as a hemorrhagic vestibulovaginitis.24 Although its classification as a distinct entity remains under scrutiny, studies indicate a predilection for the nonkeratinized or partially keratinized vulva. A systematic review outlining common clinical findings reported that the most common anatomic sites included the vulvar vestibule, periurethral area, and labia minora.23 Additionally, reports have emphasized the association between PCV and other inflammatory vulvar skin conditions, including LS.25

Clinical Variants of PCV—A retrospective review proposed 2 clinical phenotypes for PCV: (1) primary non–lichen-associated PCV and (2) secondary lichen-associated PCV, which is linked to LS.26 The primary form is reported to be restricted to the vestibule, and the authors considered this a vulvar counterpart of atrophic vaginitis due to estrogen deficiency (now known as postmenopausal genitourinary syndrome). The secondary phenotype more commonly involved the vestibular and extravestibular epithelium.26

Management of PCV—Recognizing PCV in the context of LS may be important for identifying comorbid conditions and guiding treatment. However, evidence-based guidelines for PCV treatment are lacking. Commonly reported treatment modalities include clobetasol ointment 0.05% and tacrolimus ointment 0.1%.23 Successful treatment with hydrocortisone suppositories alternating with estradiol vaginal cream was reported in a recent case series.27 Crisaborole also has been reported as a treatment in 1 case of PCV.28 A recent case report found abrocitinib to be effective for the treatment of plasma cell balanitis in the setting of male genital LS,29 but there are limited data on the use of JAK inhibitors for PCV. Further research is necessary to ascertain the incidence, prevalence, clinical subtypes, and optimal management strategies for PCV to effectively treat patients with this condition.

 

 

Vulvar LSC

Similar to extragenital LSC, the evaluation of vulvar LSC should prioritize identification of underlying ­etiologies that contribute to the itch-scratch cycle, which may include psoriasis, atopic dermatitis, neurologic conditions, and allergic or irritant contact dermatitis.30,31 Although treatment strategies may vary based on underlying ­conditions, we will concentrate on updates in managing vulvar LSC and pruritus associated with an atopic ­diathesis or resulting from chronic contact dermatitis, which is prevalent in vulvar skin areas. Finally, we highlight some emerging vulvar allergens for consideration in clinical practice.

Management of Vulvar LSC—The advent of targeted therapies, including biologics and small-molecule inhibitors, for atopic dermatitis and prurigo nodularis in recent years presents potential options for treatment of individuals with vulvar LSC. However, studies on the use of these therapies specifically for vulvar LSC are limited, necessitating thorough discussions with patients. Given the debilitating nature of vulvar pruritus that may be seen in vulvar LSC and the potential inadequacy of topical steroids as monotherapy, systemic therapies may serve as alternative options for patients with refractory disease.30

Dupilumab, a dual inhibitor of IL-4 and IL-13 signaling, has shown rapid and sustained disease improvement in patients with atopic dermatitis, prurigo nodularis, and pruritus.32,33 Although data on its role in managing vulvar LSC are scarce, a recent case series reported improvement of vulvar pruritus with dupilumab.34 Similarly, tralokinumab, an IL-13 inhibitor approved by the US Food and Drug Administration (FDA) for atopic dermatitis, has shown efficacy in prurigo nodularis35 and may benefit patients with vulvar LSC, though studies on cutaneous outcomes in those with genital involvement specifically are lacking. Oral JAK inhibitors such as upadacitinib and abrocitinib—both FDA approved for atopic dermatitis—have demonstrated efficacy in treating LSC and itch, potentially serving as management options for vulvar LSC in cases resistant to topical steroids or in which steroid atrophy or other steroid adverse effects may preclude continued use of such agents.36,37 Finally, IL-31 inhibitors such as nemolizumab, which reduced the signs and symptoms of prurigo nodularis in a recent phase 3 clinical trial, may hold utility in addressing vulvar LSC and associated pruritus.38

The topical JAK inhibitor ruxolitinib, which is FDA approved for atopic dermatitis and vitiligo, holds promise for managing LSC on vulvar skin while mitigating the risk for steroid-induced atrophy.39 Additionally, nonsteroidal topicals including roflumilast cream 0.3% and tapinarof cream 1%, both FDA approved for psoriasis, are being evaluated in studies for their safety and efficacy in atopic dermatitis.40,41 These agents may have the potential to improve signs and symptoms of vulvar LSC, but further studies are necessary.

Vulvar Allergens and LSC—When assessing patients with vulvar LSC, it is crucial to recognize that allergic contact dermatitis is a common primary vulvar dermatosis but can coexist with other vulvar dermatoses such as LS.13,30 The vulvar skin’s susceptibly to allergic contact dermatitis is attributed to factors such as a higher ratio of antigen-presenting cells in the vulvar skin, the nonkeratinized nature of certain sites, and frequent contact with potential allergens.42,43 Therefore, incorporating patch testing into the diagnostic process should be considered when evaluating patients with vulvar skin conditions.43

A systemic review identified multiple vulvar allergens, including metals, topical medicaments, fragrances, preservatives, cosmetic constituents, and rubber components that led to contact dermatitis.44 Moreover, a recent analysis of topical preparations recommended by women with LS on social media found a high prevalence of known vulvar allergens in these agents, including botanical extracts/spices.45 Personal-care wipes marketed for vulvar care and hygiene are known to contain a variety of allergens, with a recent study finding numerous allergens in commercially available wipes including fragrances, scented botanicals in the form of essences, oils, fruit juices, and vitamin E.46 These findings underscore the importance of considering potential allergens when caring for patients with vulvar LSC and counseling patients about the potential allergens in many commercially available products that may be recommended on social media sites or by other sources.

Final Thoughts

Vulvar inflammatory dermatoses are becoming increasingly recognized, and there is a need to develop more effective diagnostic and treatment approaches. Recent literature has shed light on some of the challenges in the management of VLP, particularly its resistance to topical therapies and the importance of assessing and managing both cutaneous and vaginal involvement. Efforts have been made to refine the classification of PCV, with studies suggesting a variant that coexists with LS. Although evidence for vulvar-specific treatment of LSC is limited, the emergence of biologics and small-molecule inhibitors that are FDA approved for atopic dermatitis and prurigo nodularis offer promise for certain cases of vulvar LSC and vulvar pruritus. Moreover, recent developments in steroid-sparing topical agents warrant further investigation for their potential efficacy in treating vulvar LSC and possibly other vulvar inflammatory conditions in the future.

References
  1. Nguyen B, Kraus C. Vulvar lichen sclerosus: what’s new? Cutis. 2024;113:104-106. doi:10.12788/cutis.0967
  2. Van De Nieuwenhof HP, Meeuwis KAP, Nieboer TE, et al. The effect of vulvar lichen sclerosus on quality of life and sexual functioning. J Psychosom Obstet Gynaecol. 2010;31:279-284. doi:10.3109/0167482X.2010.507890
  3. Ranum A, Pearson DR. The impact of genital lichen sclerosus and lichen planus on quality of life: a review. Int J Womens Dermatol. 2022;8:E042. doi:10.1097/JW9.0000000000000042
  4. Messele F, Hinchee-Rodriguez K, Kraus CN. Vulvar dermatoses and depression: a systematic review of vulvar lichen sclerosus, lichen planus, and lichen simplex chronicus. JAAD Int. 2024;15:15-20. doi:10.1016/j.jdin.2023.10.009
  5. Choi UE, Nicholson RC, Agrawal P, et al. Involvement of vulva in lichen sclerosus increases the risk of antidepressant and benzodiazepine prescriptions for psychiatric disorder diagnoses. Int J Impot Res. Published online November 16, 2023. doi:10.1038/s41443-023-00793-3
  6. Saunderson R, Harris V, Yeh R, et al. Vulvar quality of life index (VQLI)—a simple tool to measure quality of life in patients with vulvar disease. Australas J Dermatol. 2020;61:152-157. doi:10.1111/ajd.13235
  7. Wu M, Kherlopian A, Wijaya M, et al. Quality of life impact and treatment response in vulval disease: comparison of 3 common conditions using the Vulval Quality of Life Index. Australas J Dermatol. 2022;63:E320-E328. doi:10.1111/ajd.13898
  8. Kherlopian A, Fischer G. Comparing quality of life in women with vulvovaginal lichen planus treated with topical and systemic treatments using the vulvar quality of life index. Australas J Dermatol. 2023;64:E125-E134. doi:10.1111/ajd.14032
  9. Cooper SM, Haefner HK, Abrahams-Gessel S, et al. Vulvovaginal lichen planus treatment: a survey of current practices. Arch Dermatol. 2008;144:1520-1521. doi:10.1001/archderm.144.11.1520
  10. Chow MR, Gill N, Alzahrani F, et al. Vulvar lichen planus–induced vulvovaginal stenosis: a case report and review of the literature. SAGE Open Med Case Rep. 2023;11:2050313X231164216. doi:10.1177/2050313X231164216
  11. Kherlopian A, Fischer G. Identifying predictors of systemic immunosuppressive treatment of vulvovaginal lichen planus: a retrospective cohort study of 122 women. Australas J Dermatol. 2022;63:335-343. doi:10.1111/ajd.13851
  12. Dunaway S, Tyler K, Kaffenberger, J. Update on treatments for erosive vulvovaginal lichen planus. Int J Dermatol. 2020;59:297-302. doi:10.1111/ijd.14692
  13. Mauskar MM, Marathe, K, Venkatesan A, et al. Vulvar diseases: conditions in adults and children. J Am Acad Dermatol. 2020;82:1287-1298. doi:10.1016/j.jaad.2019.10.077
  14. Hinchee-Rodriguez K, Duong A, Kraus CN. Local management strategies for inflammatory vaginitis in dermatologic conditions: suppositories, dilators, and estrogen replacement. JAAD Int. 2022;9:137-138. doi:10.1016/j.jdin.2022.09.004
  15. Hrin ML, Bowers NL, Feldman SR, et al. Mycophenolate mofetil versus methotrexate for vulvar lichen planus: a 10-year retrospective cohort study demonstrates comparable efficacy and tolerability. J Am Acad Dermatol. 2022;87:436-438. doi:10.1016/j.jaad.2021.08.061
  16. Vermeer HAB, Rashid H, Esajas MD, et al. The use of hydroxychloroquine as a systemic treatment in erosive lichen planus of the vulva and vagina. Br J Dermatol. 2021;185:201-203. doi:10.1111/bjd.19870
  17. Skullerud KH, Gjersvik P, Pripp AH, et al. Apremilast for genital erosive lichen planus in women (the AP-GELP Study): study protocol for a randomised placebo-controlled clinical trial. Trials. 2021;22:469. doi:10.1186/s13063-021-05428-w
  18. Kherlopian A, Fischer G. Successful treatment of vulvovaginal lichen planus with tildrakizumab: a case series of 24 patients. Australas J Dermatol. 2022;63:251-255. doi:10.1111/ajd.13793
  19. Kassels A, Edwards L, Kraus CN. Treatment of erosive vulvovaginal lichen planus with tofacitinib: a case series. JAAD Case Rep. 2023;40:14-18. doi:10.1016/j.jdcr.2023.08.001
  20. Wijaya M, Fischer G, Saunderson RB. The efficacy and safety of deucravacitinib compared to methotrexate, in patients with vulvar lichen planus who have failed topical therapy with potent corticosteroids: a study protocol for a single-centre double-blinded randomised controlled trial. Trials. 2024;25:181. doi:10.1186/s13063-024-08022-y
  21. Brumfiel CM, Patel MH, Severson KJ, et al. Ruxolitinib cream in the treatment of cutaneous lichen planus: a prospective, open-label study. J Invest Dermatol. 2022;142:2109-2116.e4. doi:10.1016/j.jid.2022.01.015
  22. A study to evaluate the efficacy and safety of ruxolitinib cream in participants with cutaneous lichen planus. ClinicalTrials.gov ­identifier: NCT05593432. Updated March 12, 2024. Accessed July 12, 2024. https://clinicaltrials.gov/study/NCT05593432
  23. Sattler S, Elsensohn AN, Mauskar MM, et al. Plasma cell vulvitis: a systematic review. Int J Womens Dermatol. 2021;7:756-762. doi:10.1016/j.ijwd.2021.04.005
  24. Song M, Day T, Kliman L, et al. Desquamative inflammatory vaginitis and plasma cell vulvitis represent a spectrum of hemorrhagic vestibulovaginitis. J Low Genit Tract Dis. 2022;26:60-67. doi:10.1097/LGT.0000000000000637
  25. Saeed L, Lee BA, Kraus CN. Tender solitary lesion in vulvar lichen sclerosus. JAAD Case Rep. 2022;23:61-63. doi:10.1016/j.jdcr.2022.01.038
  26. Wendling J, Plantier F, Moyal-Barracco M. Plasma cell vulvitis: a classification into two clinical phenotypes. J Low Genit Tract Dis. 2023;27:384-389. doi:10.1097/LGT.0000000000000771
  27. Prestwood CA, Granberry R, Rutherford A, et al. Successful treatment of plasma cell vulvitis: a case series. JAAD Case Rep. 2022;19:37-40. doi:10.1016/j.jdcr.2021.10.023
  28. He Y, Xu M, Wu M, et al. A case of plasma cell vulvitis successfully treated with crisaborole. J Dermatol. Published online April 1, 2024. doi:10.1111/1346-8138.17205
  29. Xiong X, Chen R, Wang L, et al. Treatment of plasma cell balanitis associated with male genital lichen sclerosus using abrocitinib. JAAD Case Rep. 2024;46:85-88. doi:10.1016/j.jdcr.2024.02.010
  30. Stewart KMA. Clinical care of vulvar pruritus, with emphasis on one common cause, lichen simplex chronicus. Dermatol Clin. 2010;28:669-680. doi:10.1016/j.det.2010.08.004
  31. Rimoin LP, Kwatra SG, Yosipovitch G. Female-specific pruritus from childhood to postmenopause: clinical features, hormonal factors, and treatment considerations. Dermatol Ther. 2013;26:157-167. doi:10.1111/dth.12034
  32. Simpson EL, Bieber T, Guttman-Yassky E, et al; SOLO 1 and SOLO 2 Investigators. Two phase 3 trials of dupilumab versus placebo in atopic dermatitis. N Engl J Med. 2016;375:2335-2348. doi:10.1056/NEJMoa1610020
  33. Yosipovitch G, Mollanazar N, Ständer S, et al. Dupilumab in patients with prurigo nodularis: two randomized, double-blind, placebo-controlled phase 3 trials. Nat Med. 2023;29:1180-1190. doi:10.1038/s41591-023-02320-9
  34. Gosch M, Cash S, Pichardo R. Vulvar pruritus improved with dupilumab. JSM Sexual Med. 2023;7:1104.
  35. Pezzolo E, Gambardella A, Guanti M, et al. Tralokinumab shows clinical improvement in patients with prurigo nodularis-like phenotype atopic dermatitis: a multicenter, prospective, open-label case series study. J Am Acad Dermatol. 2023;89:430-432. doi:10.1016/j.jaad.2023.04.056
  36. Simpson EL, Sinclair R, Forman S, et al. Efficacy and safety of abrocitinib in adults and adolescents with moderate-to-severe atopic dermatitis (JADE MONO-1): a multicentre, double-blind, randomised, placebo-controlled, phase 3 trial. Lancet. 2020;396:255-266. doi:10.1016/S0140-6736(20)30732-7
  37. Simpson EL, Papp KA, Blauvelt A, et al. Efficacy and safety of upadacitinib in patients with moderate to severe atopic dermatitis: analysis of follow-up data from the Measure Up 1 and Measure Up 2 randomized clinical trials. JAMA Dermatol. 2022;158:404-413. doi:10.1001/jamadermatol.2022.0029
  38. Kwatra SG, Yosipovitch G, Legat FJ, et al. Phase 3 trial of nemolizumab in patients with prurigo nodularis. N Engl J Med. 2023;389:1579-1589. doi:10.1056/NEJMoa2301333
  39. Papp K, Szepietowski JC, Kircik L, et al. Long-term safety and disease control with ruxolitinib cream in atopic dermatitis: results from two phase 3 studies. J Am Acad Dermatol. 2023;88:1008-1016. doi:10.1016/j.jaad.2022.09.060
  40. Lebwohl MG, Kircik LH, Moore AY, et al. Effect of roflumilast cream vs vehicle cream on chronic plaque psoriasis: the DERMIS-1 and DERMIS-2 randomized clinical trials. JAMA. 2022;328:1073-1084. doi:10.1001/jama.2022.15632
  41. Lebwohl MG, Gold LS, Strober B, et al. Phase 3 trials of tapinarof cream for plaque psoriasis. N Engl J Med. 2021;385:2219-2229. doi:10.1056/NEJMoa2103629
  42. O’Gorman SM, Torgerson RR. Allergic contact dermatitis of the vulva. Dermatitis. 2013;24:64-72. doi:10.1097/DER.0b013e318284da33
  43. Woodruff CM, Trivedi MK, Botto N, et al. Allergic contact dermatitis of the vulva. Dermatitis. 2018;29:233-243. doi:10.1097/DER.0000000000000339
  44. Vandeweege S, Debaene B, Lapeere H, et al. A systematic review of allergic and irritant contact dermatitis of the vulva: the most important allergens/irritants and the role of patch testing. Contact Dermatitis. 2023;88:249-262. doi:10.1111/cod.14258
  45. Luu Y, Admani S. Vulvar allergens in topical preparations recommended on social media: a cross-sectional analysis of Facebook groups for lichen sclerosus. Int J Womens Dermatol. 2023;9:E097. doi:10.1097/JW9.0000000000000097
  46. Newton J, Richardson S, van Oosbre AM, et al. A cross-sectional study of contact allergens in feminine hygiene wipes: a possible cause of vulvar contact dermatitis. Int J Womens Dermatol. 2022;8:E060. doi:10.1097/JW9.0000000000000060
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Author and Disclosure Information

Dr. Martin is from the Department of Dermatology, Loma Linda University, California. Britney T. Nguyen and Dr. Kraus are from the University of California, Irvine. Britney T. Nguyen is from the School of Medicine, and Dr. Kraus is from the Department of Dermatology.

Dr. Martin and Britney T. Nguyen report no conflict of interest. Dr. Kraus is supported by a Dermatology Foundation Career Development Award. She also is an investigator for Incyte and a consultant for Nuvig Therapeutics.

Correspondence: Christina N. Kraus, MD, UC Irvine Health, 118 Med Surg I, Irvine, CA 92697 (ckraus@hs.uci.edu).

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Dr. Martin is from the Department of Dermatology, Loma Linda University, California. Britney T. Nguyen and Dr. Kraus are from the University of California, Irvine. Britney T. Nguyen is from the School of Medicine, and Dr. Kraus is from the Department of Dermatology.

Dr. Martin and Britney T. Nguyen report no conflict of interest. Dr. Kraus is supported by a Dermatology Foundation Career Development Award. She also is an investigator for Incyte and a consultant for Nuvig Therapeutics.

Correspondence: Christina N. Kraus, MD, UC Irvine Health, 118 Med Surg I, Irvine, CA 92697 (ckraus@hs.uci.edu).

Cutis. 2024 August;114(2):37-40. doi:10.12788/cutis.1064

Author and Disclosure Information

Dr. Martin is from the Department of Dermatology, Loma Linda University, California. Britney T. Nguyen and Dr. Kraus are from the University of California, Irvine. Britney T. Nguyen is from the School of Medicine, and Dr. Kraus is from the Department of Dermatology.

Dr. Martin and Britney T. Nguyen report no conflict of interest. Dr. Kraus is supported by a Dermatology Foundation Career Development Award. She also is an investigator for Incyte and a consultant for Nuvig Therapeutics.

Correspondence: Christina N. Kraus, MD, UC Irvine Health, 118 Med Surg I, Irvine, CA 92697 (ckraus@hs.uci.edu).

Cutis. 2024 August;114(2):37-40. doi:10.12788/cutis.1064

Article PDF
Article PDF

Vulvar dermatoses continue to be an overlooked aspect of medical care, highlighting the necessity for enhanced diagnosis and management of these conditions. Here, we address recent advancements in understanding vulvar inflammatory dermatoses other than lichen sclerosus (LS), which was discussed in a prior Guest Editorial1—specifically vulvovaginal lichen planus (VLP), plasma cell vulvitis (PCV), and vulvar lichen simplex chronicus (LSC).

Vulvar Inflammatory Skin Disease and Quality of Life

There is an increased awareness of the impact vulvar skin disease has on quality of life and its association with anxiety and depression.2-5 Evaluating the burden of vulvar dermatoses remains an active area of research due to its significance in monitoring disease progression and assessing therapeutic effectiveness. Despite the existence of various dermatology quality-of-life assessment tools, many fail to adequately capture the unique impacts of vulvovaginal diseases, such as sexual or urinary dysfunction. The vulvar quality of life index, which was developed and validated by Saunderson et al6 in 2020, consists of a 15-item questionnaire spanning 4 domains: symptoms, anxiety, activities of daily living, and sexuality. This tool has been utilized to gauge treatment response in vulvar conditions and to compare disease burden of various vulvar dermatoses.7,8 Moving forward, integrating this tool into clinical studies on vulvar skin disease holds promise for enhancing our understanding and management of these conditions.

Vulvovaginal Lichen Planus

Vulvovaginal lichen planus is unique among several prevalent vulvar inflammatory skin disorders encountered by dermatologists—primarily due to its erosive form, which can extend to the vagina, resulting in noninfectious vaginitis and potential vaginal stenosis.9,10 Managing VLP poses a notable challenge, even when it is confined to the vulva, as it often proves resistant to topical therapies.11

Evaluation for Vaginal Mucosal Disease—In contrast to LS, which typically spares the vaginal mucosa, VLP can involve mucosal sites.9,12,13 Therefore, it is imperative that all patients with a diagnosis of vulvar VLP undergo evaluation for potential vaginal involvement through speculum examination, wet mount, or vaginal biopsy. Strategies to manage vaginal involvement include use of dilators and pelvic floor physical therapy, lysis of adhesions (if present), topical estrogen, and intravaginal corticosteroids—all tailored to the severity of the disease.9,11,14

Management of VLP—Approximately 20% to 40% of patients with VLP may require systemic therapy for disease management, including those who are younger, those of non-White ethnicity, and those presenting with vulvar pruritus.11 Various systemic immunosuppressants have been used for VLP, with a recent retrospective study revealing similar response rates for both methotrexate and mycophenolate mofetil in the treatment of VLP.15 Another retrospective study found hydroxychloroquine to be safe and effective for VLP but noted a slow onset of action, with approximately 70% responding at 9 months following initiation of therapy.16

Recent attention has shifted to use of targeted therapies for VLP. For instance, apremilast has shown efficacy in a single-center, nonrandomized, open-label pilot study.17 Tildrakizumab, an IL-23 inhibitor, demonstrated efficacy in a case series involving 24 patients with VLP.18 Moreover, recent case reports and series have highlighted the potential of oral Janus kinase (JAK) ­inhibitors, such as tofacitinib, in VLP treatment.19 Clinical trials are ongoing to evaluate the safety and efficacy of topical ruxolitinib and deucravacitinib (a tyrosine kinase 2 inhibitor) in VLP.20-22 Systemic therapies for VLP currently are used off label, emphasizing the need for future randomized controlled trials to ascertain the optimal therapies for patients affected by erosive and nonerosive forms of this disease.

 

 

Plasma Cell Vulvitis

Plasma cell vulvitis is a chronic inflammatory disorder with an unknown etiology that some consider to be a variant of VLP.23 Others have observed an overlap with desquamative inflammatory vaginitis, categorizing PCV as a hemorrhagic vestibulovaginitis.24 Although its classification as a distinct entity remains under scrutiny, studies indicate a predilection for the nonkeratinized or partially keratinized vulva. A systematic review outlining common clinical findings reported that the most common anatomic sites included the vulvar vestibule, periurethral area, and labia minora.23 Additionally, reports have emphasized the association between PCV and other inflammatory vulvar skin conditions, including LS.25

Clinical Variants of PCV—A retrospective review proposed 2 clinical phenotypes for PCV: (1) primary non–lichen-associated PCV and (2) secondary lichen-associated PCV, which is linked to LS.26 The primary form is reported to be restricted to the vestibule, and the authors considered this a vulvar counterpart of atrophic vaginitis due to estrogen deficiency (now known as postmenopausal genitourinary syndrome). The secondary phenotype more commonly involved the vestibular and extravestibular epithelium.26

Management of PCV—Recognizing PCV in the context of LS may be important for identifying comorbid conditions and guiding treatment. However, evidence-based guidelines for PCV treatment are lacking. Commonly reported treatment modalities include clobetasol ointment 0.05% and tacrolimus ointment 0.1%.23 Successful treatment with hydrocortisone suppositories alternating with estradiol vaginal cream was reported in a recent case series.27 Crisaborole also has been reported as a treatment in 1 case of PCV.28 A recent case report found abrocitinib to be effective for the treatment of plasma cell balanitis in the setting of male genital LS,29 but there are limited data on the use of JAK inhibitors for PCV. Further research is necessary to ascertain the incidence, prevalence, clinical subtypes, and optimal management strategies for PCV to effectively treat patients with this condition.

 

 

Vulvar LSC

Similar to extragenital LSC, the evaluation of vulvar LSC should prioritize identification of underlying ­etiologies that contribute to the itch-scratch cycle, which may include psoriasis, atopic dermatitis, neurologic conditions, and allergic or irritant contact dermatitis.30,31 Although treatment strategies may vary based on underlying ­conditions, we will concentrate on updates in managing vulvar LSC and pruritus associated with an atopic ­diathesis or resulting from chronic contact dermatitis, which is prevalent in vulvar skin areas. Finally, we highlight some emerging vulvar allergens for consideration in clinical practice.

Management of Vulvar LSC—The advent of targeted therapies, including biologics and small-molecule inhibitors, for atopic dermatitis and prurigo nodularis in recent years presents potential options for treatment of individuals with vulvar LSC. However, studies on the use of these therapies specifically for vulvar LSC are limited, necessitating thorough discussions with patients. Given the debilitating nature of vulvar pruritus that may be seen in vulvar LSC and the potential inadequacy of topical steroids as monotherapy, systemic therapies may serve as alternative options for patients with refractory disease.30

Dupilumab, a dual inhibitor of IL-4 and IL-13 signaling, has shown rapid and sustained disease improvement in patients with atopic dermatitis, prurigo nodularis, and pruritus.32,33 Although data on its role in managing vulvar LSC are scarce, a recent case series reported improvement of vulvar pruritus with dupilumab.34 Similarly, tralokinumab, an IL-13 inhibitor approved by the US Food and Drug Administration (FDA) for atopic dermatitis, has shown efficacy in prurigo nodularis35 and may benefit patients with vulvar LSC, though studies on cutaneous outcomes in those with genital involvement specifically are lacking. Oral JAK inhibitors such as upadacitinib and abrocitinib—both FDA approved for atopic dermatitis—have demonstrated efficacy in treating LSC and itch, potentially serving as management options for vulvar LSC in cases resistant to topical steroids or in which steroid atrophy or other steroid adverse effects may preclude continued use of such agents.36,37 Finally, IL-31 inhibitors such as nemolizumab, which reduced the signs and symptoms of prurigo nodularis in a recent phase 3 clinical trial, may hold utility in addressing vulvar LSC and associated pruritus.38

The topical JAK inhibitor ruxolitinib, which is FDA approved for atopic dermatitis and vitiligo, holds promise for managing LSC on vulvar skin while mitigating the risk for steroid-induced atrophy.39 Additionally, nonsteroidal topicals including roflumilast cream 0.3% and tapinarof cream 1%, both FDA approved for psoriasis, are being evaluated in studies for their safety and efficacy in atopic dermatitis.40,41 These agents may have the potential to improve signs and symptoms of vulvar LSC, but further studies are necessary.

Vulvar Allergens and LSC—When assessing patients with vulvar LSC, it is crucial to recognize that allergic contact dermatitis is a common primary vulvar dermatosis but can coexist with other vulvar dermatoses such as LS.13,30 The vulvar skin’s susceptibly to allergic contact dermatitis is attributed to factors such as a higher ratio of antigen-presenting cells in the vulvar skin, the nonkeratinized nature of certain sites, and frequent contact with potential allergens.42,43 Therefore, incorporating patch testing into the diagnostic process should be considered when evaluating patients with vulvar skin conditions.43

A systemic review identified multiple vulvar allergens, including metals, topical medicaments, fragrances, preservatives, cosmetic constituents, and rubber components that led to contact dermatitis.44 Moreover, a recent analysis of topical preparations recommended by women with LS on social media found a high prevalence of known vulvar allergens in these agents, including botanical extracts/spices.45 Personal-care wipes marketed for vulvar care and hygiene are known to contain a variety of allergens, with a recent study finding numerous allergens in commercially available wipes including fragrances, scented botanicals in the form of essences, oils, fruit juices, and vitamin E.46 These findings underscore the importance of considering potential allergens when caring for patients with vulvar LSC and counseling patients about the potential allergens in many commercially available products that may be recommended on social media sites or by other sources.

Final Thoughts

Vulvar inflammatory dermatoses are becoming increasingly recognized, and there is a need to develop more effective diagnostic and treatment approaches. Recent literature has shed light on some of the challenges in the management of VLP, particularly its resistance to topical therapies and the importance of assessing and managing both cutaneous and vaginal involvement. Efforts have been made to refine the classification of PCV, with studies suggesting a variant that coexists with LS. Although evidence for vulvar-specific treatment of LSC is limited, the emergence of biologics and small-molecule inhibitors that are FDA approved for atopic dermatitis and prurigo nodularis offer promise for certain cases of vulvar LSC and vulvar pruritus. Moreover, recent developments in steroid-sparing topical agents warrant further investigation for their potential efficacy in treating vulvar LSC and possibly other vulvar inflammatory conditions in the future.

Vulvar dermatoses continue to be an overlooked aspect of medical care, highlighting the necessity for enhanced diagnosis and management of these conditions. Here, we address recent advancements in understanding vulvar inflammatory dermatoses other than lichen sclerosus (LS), which was discussed in a prior Guest Editorial1—specifically vulvovaginal lichen planus (VLP), plasma cell vulvitis (PCV), and vulvar lichen simplex chronicus (LSC).

Vulvar Inflammatory Skin Disease and Quality of Life

There is an increased awareness of the impact vulvar skin disease has on quality of life and its association with anxiety and depression.2-5 Evaluating the burden of vulvar dermatoses remains an active area of research due to its significance in monitoring disease progression and assessing therapeutic effectiveness. Despite the existence of various dermatology quality-of-life assessment tools, many fail to adequately capture the unique impacts of vulvovaginal diseases, such as sexual or urinary dysfunction. The vulvar quality of life index, which was developed and validated by Saunderson et al6 in 2020, consists of a 15-item questionnaire spanning 4 domains: symptoms, anxiety, activities of daily living, and sexuality. This tool has been utilized to gauge treatment response in vulvar conditions and to compare disease burden of various vulvar dermatoses.7,8 Moving forward, integrating this tool into clinical studies on vulvar skin disease holds promise for enhancing our understanding and management of these conditions.

Vulvovaginal Lichen Planus

Vulvovaginal lichen planus is unique among several prevalent vulvar inflammatory skin disorders encountered by dermatologists—primarily due to its erosive form, which can extend to the vagina, resulting in noninfectious vaginitis and potential vaginal stenosis.9,10 Managing VLP poses a notable challenge, even when it is confined to the vulva, as it often proves resistant to topical therapies.11

Evaluation for Vaginal Mucosal Disease—In contrast to LS, which typically spares the vaginal mucosa, VLP can involve mucosal sites.9,12,13 Therefore, it is imperative that all patients with a diagnosis of vulvar VLP undergo evaluation for potential vaginal involvement through speculum examination, wet mount, or vaginal biopsy. Strategies to manage vaginal involvement include use of dilators and pelvic floor physical therapy, lysis of adhesions (if present), topical estrogen, and intravaginal corticosteroids—all tailored to the severity of the disease.9,11,14

Management of VLP—Approximately 20% to 40% of patients with VLP may require systemic therapy for disease management, including those who are younger, those of non-White ethnicity, and those presenting with vulvar pruritus.11 Various systemic immunosuppressants have been used for VLP, with a recent retrospective study revealing similar response rates for both methotrexate and mycophenolate mofetil in the treatment of VLP.15 Another retrospective study found hydroxychloroquine to be safe and effective for VLP but noted a slow onset of action, with approximately 70% responding at 9 months following initiation of therapy.16

Recent attention has shifted to use of targeted therapies for VLP. For instance, apremilast has shown efficacy in a single-center, nonrandomized, open-label pilot study.17 Tildrakizumab, an IL-23 inhibitor, demonstrated efficacy in a case series involving 24 patients with VLP.18 Moreover, recent case reports and series have highlighted the potential of oral Janus kinase (JAK) ­inhibitors, such as tofacitinib, in VLP treatment.19 Clinical trials are ongoing to evaluate the safety and efficacy of topical ruxolitinib and deucravacitinib (a tyrosine kinase 2 inhibitor) in VLP.20-22 Systemic therapies for VLP currently are used off label, emphasizing the need for future randomized controlled trials to ascertain the optimal therapies for patients affected by erosive and nonerosive forms of this disease.

 

 

Plasma Cell Vulvitis

Plasma cell vulvitis is a chronic inflammatory disorder with an unknown etiology that some consider to be a variant of VLP.23 Others have observed an overlap with desquamative inflammatory vaginitis, categorizing PCV as a hemorrhagic vestibulovaginitis.24 Although its classification as a distinct entity remains under scrutiny, studies indicate a predilection for the nonkeratinized or partially keratinized vulva. A systematic review outlining common clinical findings reported that the most common anatomic sites included the vulvar vestibule, periurethral area, and labia minora.23 Additionally, reports have emphasized the association between PCV and other inflammatory vulvar skin conditions, including LS.25

Clinical Variants of PCV—A retrospective review proposed 2 clinical phenotypes for PCV: (1) primary non–lichen-associated PCV and (2) secondary lichen-associated PCV, which is linked to LS.26 The primary form is reported to be restricted to the vestibule, and the authors considered this a vulvar counterpart of atrophic vaginitis due to estrogen deficiency (now known as postmenopausal genitourinary syndrome). The secondary phenotype more commonly involved the vestibular and extravestibular epithelium.26

Management of PCV—Recognizing PCV in the context of LS may be important for identifying comorbid conditions and guiding treatment. However, evidence-based guidelines for PCV treatment are lacking. Commonly reported treatment modalities include clobetasol ointment 0.05% and tacrolimus ointment 0.1%.23 Successful treatment with hydrocortisone suppositories alternating with estradiol vaginal cream was reported in a recent case series.27 Crisaborole also has been reported as a treatment in 1 case of PCV.28 A recent case report found abrocitinib to be effective for the treatment of plasma cell balanitis in the setting of male genital LS,29 but there are limited data on the use of JAK inhibitors for PCV. Further research is necessary to ascertain the incidence, prevalence, clinical subtypes, and optimal management strategies for PCV to effectively treat patients with this condition.

 

 

Vulvar LSC

Similar to extragenital LSC, the evaluation of vulvar LSC should prioritize identification of underlying ­etiologies that contribute to the itch-scratch cycle, which may include psoriasis, atopic dermatitis, neurologic conditions, and allergic or irritant contact dermatitis.30,31 Although treatment strategies may vary based on underlying ­conditions, we will concentrate on updates in managing vulvar LSC and pruritus associated with an atopic ­diathesis or resulting from chronic contact dermatitis, which is prevalent in vulvar skin areas. Finally, we highlight some emerging vulvar allergens for consideration in clinical practice.

Management of Vulvar LSC—The advent of targeted therapies, including biologics and small-molecule inhibitors, for atopic dermatitis and prurigo nodularis in recent years presents potential options for treatment of individuals with vulvar LSC. However, studies on the use of these therapies specifically for vulvar LSC are limited, necessitating thorough discussions with patients. Given the debilitating nature of vulvar pruritus that may be seen in vulvar LSC and the potential inadequacy of topical steroids as monotherapy, systemic therapies may serve as alternative options for patients with refractory disease.30

Dupilumab, a dual inhibitor of IL-4 and IL-13 signaling, has shown rapid and sustained disease improvement in patients with atopic dermatitis, prurigo nodularis, and pruritus.32,33 Although data on its role in managing vulvar LSC are scarce, a recent case series reported improvement of vulvar pruritus with dupilumab.34 Similarly, tralokinumab, an IL-13 inhibitor approved by the US Food and Drug Administration (FDA) for atopic dermatitis, has shown efficacy in prurigo nodularis35 and may benefit patients with vulvar LSC, though studies on cutaneous outcomes in those with genital involvement specifically are lacking. Oral JAK inhibitors such as upadacitinib and abrocitinib—both FDA approved for atopic dermatitis—have demonstrated efficacy in treating LSC and itch, potentially serving as management options for vulvar LSC in cases resistant to topical steroids or in which steroid atrophy or other steroid adverse effects may preclude continued use of such agents.36,37 Finally, IL-31 inhibitors such as nemolizumab, which reduced the signs and symptoms of prurigo nodularis in a recent phase 3 clinical trial, may hold utility in addressing vulvar LSC and associated pruritus.38

The topical JAK inhibitor ruxolitinib, which is FDA approved for atopic dermatitis and vitiligo, holds promise for managing LSC on vulvar skin while mitigating the risk for steroid-induced atrophy.39 Additionally, nonsteroidal topicals including roflumilast cream 0.3% and tapinarof cream 1%, both FDA approved for psoriasis, are being evaluated in studies for their safety and efficacy in atopic dermatitis.40,41 These agents may have the potential to improve signs and symptoms of vulvar LSC, but further studies are necessary.

Vulvar Allergens and LSC—When assessing patients with vulvar LSC, it is crucial to recognize that allergic contact dermatitis is a common primary vulvar dermatosis but can coexist with other vulvar dermatoses such as LS.13,30 The vulvar skin’s susceptibly to allergic contact dermatitis is attributed to factors such as a higher ratio of antigen-presenting cells in the vulvar skin, the nonkeratinized nature of certain sites, and frequent contact with potential allergens.42,43 Therefore, incorporating patch testing into the diagnostic process should be considered when evaluating patients with vulvar skin conditions.43

A systemic review identified multiple vulvar allergens, including metals, topical medicaments, fragrances, preservatives, cosmetic constituents, and rubber components that led to contact dermatitis.44 Moreover, a recent analysis of topical preparations recommended by women with LS on social media found a high prevalence of known vulvar allergens in these agents, including botanical extracts/spices.45 Personal-care wipes marketed for vulvar care and hygiene are known to contain a variety of allergens, with a recent study finding numerous allergens in commercially available wipes including fragrances, scented botanicals in the form of essences, oils, fruit juices, and vitamin E.46 These findings underscore the importance of considering potential allergens when caring for patients with vulvar LSC and counseling patients about the potential allergens in many commercially available products that may be recommended on social media sites or by other sources.

Final Thoughts

Vulvar inflammatory dermatoses are becoming increasingly recognized, and there is a need to develop more effective diagnostic and treatment approaches. Recent literature has shed light on some of the challenges in the management of VLP, particularly its resistance to topical therapies and the importance of assessing and managing both cutaneous and vaginal involvement. Efforts have been made to refine the classification of PCV, with studies suggesting a variant that coexists with LS. Although evidence for vulvar-specific treatment of LSC is limited, the emergence of biologics and small-molecule inhibitors that are FDA approved for atopic dermatitis and prurigo nodularis offer promise for certain cases of vulvar LSC and vulvar pruritus. Moreover, recent developments in steroid-sparing topical agents warrant further investigation for their potential efficacy in treating vulvar LSC and possibly other vulvar inflammatory conditions in the future.

References
  1. Nguyen B, Kraus C. Vulvar lichen sclerosus: what’s new? Cutis. 2024;113:104-106. doi:10.12788/cutis.0967
  2. Van De Nieuwenhof HP, Meeuwis KAP, Nieboer TE, et al. The effect of vulvar lichen sclerosus on quality of life and sexual functioning. J Psychosom Obstet Gynaecol. 2010;31:279-284. doi:10.3109/0167482X.2010.507890
  3. Ranum A, Pearson DR. The impact of genital lichen sclerosus and lichen planus on quality of life: a review. Int J Womens Dermatol. 2022;8:E042. doi:10.1097/JW9.0000000000000042
  4. Messele F, Hinchee-Rodriguez K, Kraus CN. Vulvar dermatoses and depression: a systematic review of vulvar lichen sclerosus, lichen planus, and lichen simplex chronicus. JAAD Int. 2024;15:15-20. doi:10.1016/j.jdin.2023.10.009
  5. Choi UE, Nicholson RC, Agrawal P, et al. Involvement of vulva in lichen sclerosus increases the risk of antidepressant and benzodiazepine prescriptions for psychiatric disorder diagnoses. Int J Impot Res. Published online November 16, 2023. doi:10.1038/s41443-023-00793-3
  6. Saunderson R, Harris V, Yeh R, et al. Vulvar quality of life index (VQLI)—a simple tool to measure quality of life in patients with vulvar disease. Australas J Dermatol. 2020;61:152-157. doi:10.1111/ajd.13235
  7. Wu M, Kherlopian A, Wijaya M, et al. Quality of life impact and treatment response in vulval disease: comparison of 3 common conditions using the Vulval Quality of Life Index. Australas J Dermatol. 2022;63:E320-E328. doi:10.1111/ajd.13898
  8. Kherlopian A, Fischer G. Comparing quality of life in women with vulvovaginal lichen planus treated with topical and systemic treatments using the vulvar quality of life index. Australas J Dermatol. 2023;64:E125-E134. doi:10.1111/ajd.14032
  9. Cooper SM, Haefner HK, Abrahams-Gessel S, et al. Vulvovaginal lichen planus treatment: a survey of current practices. Arch Dermatol. 2008;144:1520-1521. doi:10.1001/archderm.144.11.1520
  10. Chow MR, Gill N, Alzahrani F, et al. Vulvar lichen planus–induced vulvovaginal stenosis: a case report and review of the literature. SAGE Open Med Case Rep. 2023;11:2050313X231164216. doi:10.1177/2050313X231164216
  11. Kherlopian A, Fischer G. Identifying predictors of systemic immunosuppressive treatment of vulvovaginal lichen planus: a retrospective cohort study of 122 women. Australas J Dermatol. 2022;63:335-343. doi:10.1111/ajd.13851
  12. Dunaway S, Tyler K, Kaffenberger, J. Update on treatments for erosive vulvovaginal lichen planus. Int J Dermatol. 2020;59:297-302. doi:10.1111/ijd.14692
  13. Mauskar MM, Marathe, K, Venkatesan A, et al. Vulvar diseases: conditions in adults and children. J Am Acad Dermatol. 2020;82:1287-1298. doi:10.1016/j.jaad.2019.10.077
  14. Hinchee-Rodriguez K, Duong A, Kraus CN. Local management strategies for inflammatory vaginitis in dermatologic conditions: suppositories, dilators, and estrogen replacement. JAAD Int. 2022;9:137-138. doi:10.1016/j.jdin.2022.09.004
  15. Hrin ML, Bowers NL, Feldman SR, et al. Mycophenolate mofetil versus methotrexate for vulvar lichen planus: a 10-year retrospective cohort study demonstrates comparable efficacy and tolerability. J Am Acad Dermatol. 2022;87:436-438. doi:10.1016/j.jaad.2021.08.061
  16. Vermeer HAB, Rashid H, Esajas MD, et al. The use of hydroxychloroquine as a systemic treatment in erosive lichen planus of the vulva and vagina. Br J Dermatol. 2021;185:201-203. doi:10.1111/bjd.19870
  17. Skullerud KH, Gjersvik P, Pripp AH, et al. Apremilast for genital erosive lichen planus in women (the AP-GELP Study): study protocol for a randomised placebo-controlled clinical trial. Trials. 2021;22:469. doi:10.1186/s13063-021-05428-w
  18. Kherlopian A, Fischer G. Successful treatment of vulvovaginal lichen planus with tildrakizumab: a case series of 24 patients. Australas J Dermatol. 2022;63:251-255. doi:10.1111/ajd.13793
  19. Kassels A, Edwards L, Kraus CN. Treatment of erosive vulvovaginal lichen planus with tofacitinib: a case series. JAAD Case Rep. 2023;40:14-18. doi:10.1016/j.jdcr.2023.08.001
  20. Wijaya M, Fischer G, Saunderson RB. The efficacy and safety of deucravacitinib compared to methotrexate, in patients with vulvar lichen planus who have failed topical therapy with potent corticosteroids: a study protocol for a single-centre double-blinded randomised controlled trial. Trials. 2024;25:181. doi:10.1186/s13063-024-08022-y
  21. Brumfiel CM, Patel MH, Severson KJ, et al. Ruxolitinib cream in the treatment of cutaneous lichen planus: a prospective, open-label study. J Invest Dermatol. 2022;142:2109-2116.e4. doi:10.1016/j.jid.2022.01.015
  22. A study to evaluate the efficacy and safety of ruxolitinib cream in participants with cutaneous lichen planus. ClinicalTrials.gov ­identifier: NCT05593432. Updated March 12, 2024. Accessed July 12, 2024. https://clinicaltrials.gov/study/NCT05593432
  23. Sattler S, Elsensohn AN, Mauskar MM, et al. Plasma cell vulvitis: a systematic review. Int J Womens Dermatol. 2021;7:756-762. doi:10.1016/j.ijwd.2021.04.005
  24. Song M, Day T, Kliman L, et al. Desquamative inflammatory vaginitis and plasma cell vulvitis represent a spectrum of hemorrhagic vestibulovaginitis. J Low Genit Tract Dis. 2022;26:60-67. doi:10.1097/LGT.0000000000000637
  25. Saeed L, Lee BA, Kraus CN. Tender solitary lesion in vulvar lichen sclerosus. JAAD Case Rep. 2022;23:61-63. doi:10.1016/j.jdcr.2022.01.038
  26. Wendling J, Plantier F, Moyal-Barracco M. Plasma cell vulvitis: a classification into two clinical phenotypes. J Low Genit Tract Dis. 2023;27:384-389. doi:10.1097/LGT.0000000000000771
  27. Prestwood CA, Granberry R, Rutherford A, et al. Successful treatment of plasma cell vulvitis: a case series. JAAD Case Rep. 2022;19:37-40. doi:10.1016/j.jdcr.2021.10.023
  28. He Y, Xu M, Wu M, et al. A case of plasma cell vulvitis successfully treated with crisaborole. J Dermatol. Published online April 1, 2024. doi:10.1111/1346-8138.17205
  29. Xiong X, Chen R, Wang L, et al. Treatment of plasma cell balanitis associated with male genital lichen sclerosus using abrocitinib. JAAD Case Rep. 2024;46:85-88. doi:10.1016/j.jdcr.2024.02.010
  30. Stewart KMA. Clinical care of vulvar pruritus, with emphasis on one common cause, lichen simplex chronicus. Dermatol Clin. 2010;28:669-680. doi:10.1016/j.det.2010.08.004
  31. Rimoin LP, Kwatra SG, Yosipovitch G. Female-specific pruritus from childhood to postmenopause: clinical features, hormonal factors, and treatment considerations. Dermatol Ther. 2013;26:157-167. doi:10.1111/dth.12034
  32. Simpson EL, Bieber T, Guttman-Yassky E, et al; SOLO 1 and SOLO 2 Investigators. Two phase 3 trials of dupilumab versus placebo in atopic dermatitis. N Engl J Med. 2016;375:2335-2348. doi:10.1056/NEJMoa1610020
  33. Yosipovitch G, Mollanazar N, Ständer S, et al. Dupilumab in patients with prurigo nodularis: two randomized, double-blind, placebo-controlled phase 3 trials. Nat Med. 2023;29:1180-1190. doi:10.1038/s41591-023-02320-9
  34. Gosch M, Cash S, Pichardo R. Vulvar pruritus improved with dupilumab. JSM Sexual Med. 2023;7:1104.
  35. Pezzolo E, Gambardella A, Guanti M, et al. Tralokinumab shows clinical improvement in patients with prurigo nodularis-like phenotype atopic dermatitis: a multicenter, prospective, open-label case series study. J Am Acad Dermatol. 2023;89:430-432. doi:10.1016/j.jaad.2023.04.056
  36. Simpson EL, Sinclair R, Forman S, et al. Efficacy and safety of abrocitinib in adults and adolescents with moderate-to-severe atopic dermatitis (JADE MONO-1): a multicentre, double-blind, randomised, placebo-controlled, phase 3 trial. Lancet. 2020;396:255-266. doi:10.1016/S0140-6736(20)30732-7
  37. Simpson EL, Papp KA, Blauvelt A, et al. Efficacy and safety of upadacitinib in patients with moderate to severe atopic dermatitis: analysis of follow-up data from the Measure Up 1 and Measure Up 2 randomized clinical trials. JAMA Dermatol. 2022;158:404-413. doi:10.1001/jamadermatol.2022.0029
  38. Kwatra SG, Yosipovitch G, Legat FJ, et al. Phase 3 trial of nemolizumab in patients with prurigo nodularis. N Engl J Med. 2023;389:1579-1589. doi:10.1056/NEJMoa2301333
  39. Papp K, Szepietowski JC, Kircik L, et al. Long-term safety and disease control with ruxolitinib cream in atopic dermatitis: results from two phase 3 studies. J Am Acad Dermatol. 2023;88:1008-1016. doi:10.1016/j.jaad.2022.09.060
  40. Lebwohl MG, Kircik LH, Moore AY, et al. Effect of roflumilast cream vs vehicle cream on chronic plaque psoriasis: the DERMIS-1 and DERMIS-2 randomized clinical trials. JAMA. 2022;328:1073-1084. doi:10.1001/jama.2022.15632
  41. Lebwohl MG, Gold LS, Strober B, et al. Phase 3 trials of tapinarof cream for plaque psoriasis. N Engl J Med. 2021;385:2219-2229. doi:10.1056/NEJMoa2103629
  42. O’Gorman SM, Torgerson RR. Allergic contact dermatitis of the vulva. Dermatitis. 2013;24:64-72. doi:10.1097/DER.0b013e318284da33
  43. Woodruff CM, Trivedi MK, Botto N, et al. Allergic contact dermatitis of the vulva. Dermatitis. 2018;29:233-243. doi:10.1097/DER.0000000000000339
  44. Vandeweege S, Debaene B, Lapeere H, et al. A systematic review of allergic and irritant contact dermatitis of the vulva: the most important allergens/irritants and the role of patch testing. Contact Dermatitis. 2023;88:249-262. doi:10.1111/cod.14258
  45. Luu Y, Admani S. Vulvar allergens in topical preparations recommended on social media: a cross-sectional analysis of Facebook groups for lichen sclerosus. Int J Womens Dermatol. 2023;9:E097. doi:10.1097/JW9.0000000000000097
  46. Newton J, Richardson S, van Oosbre AM, et al. A cross-sectional study of contact allergens in feminine hygiene wipes: a possible cause of vulvar contact dermatitis. Int J Womens Dermatol. 2022;8:E060. doi:10.1097/JW9.0000000000000060
References
  1. Nguyen B, Kraus C. Vulvar lichen sclerosus: what’s new? Cutis. 2024;113:104-106. doi:10.12788/cutis.0967
  2. Van De Nieuwenhof HP, Meeuwis KAP, Nieboer TE, et al. The effect of vulvar lichen sclerosus on quality of life and sexual functioning. J Psychosom Obstet Gynaecol. 2010;31:279-284. doi:10.3109/0167482X.2010.507890
  3. Ranum A, Pearson DR. The impact of genital lichen sclerosus and lichen planus on quality of life: a review. Int J Womens Dermatol. 2022;8:E042. doi:10.1097/JW9.0000000000000042
  4. Messele F, Hinchee-Rodriguez K, Kraus CN. Vulvar dermatoses and depression: a systematic review of vulvar lichen sclerosus, lichen planus, and lichen simplex chronicus. JAAD Int. 2024;15:15-20. doi:10.1016/j.jdin.2023.10.009
  5. Choi UE, Nicholson RC, Agrawal P, et al. Involvement of vulva in lichen sclerosus increases the risk of antidepressant and benzodiazepine prescriptions for psychiatric disorder diagnoses. Int J Impot Res. Published online November 16, 2023. doi:10.1038/s41443-023-00793-3
  6. Saunderson R, Harris V, Yeh R, et al. Vulvar quality of life index (VQLI)—a simple tool to measure quality of life in patients with vulvar disease. Australas J Dermatol. 2020;61:152-157. doi:10.1111/ajd.13235
  7. Wu M, Kherlopian A, Wijaya M, et al. Quality of life impact and treatment response in vulval disease: comparison of 3 common conditions using the Vulval Quality of Life Index. Australas J Dermatol. 2022;63:E320-E328. doi:10.1111/ajd.13898
  8. Kherlopian A, Fischer G. Comparing quality of life in women with vulvovaginal lichen planus treated with topical and systemic treatments using the vulvar quality of life index. Australas J Dermatol. 2023;64:E125-E134. doi:10.1111/ajd.14032
  9. Cooper SM, Haefner HK, Abrahams-Gessel S, et al. Vulvovaginal lichen planus treatment: a survey of current practices. Arch Dermatol. 2008;144:1520-1521. doi:10.1001/archderm.144.11.1520
  10. Chow MR, Gill N, Alzahrani F, et al. Vulvar lichen planus–induced vulvovaginal stenosis: a case report and review of the literature. SAGE Open Med Case Rep. 2023;11:2050313X231164216. doi:10.1177/2050313X231164216
  11. Kherlopian A, Fischer G. Identifying predictors of systemic immunosuppressive treatment of vulvovaginal lichen planus: a retrospective cohort study of 122 women. Australas J Dermatol. 2022;63:335-343. doi:10.1111/ajd.13851
  12. Dunaway S, Tyler K, Kaffenberger, J. Update on treatments for erosive vulvovaginal lichen planus. Int J Dermatol. 2020;59:297-302. doi:10.1111/ijd.14692
  13. Mauskar MM, Marathe, K, Venkatesan A, et al. Vulvar diseases: conditions in adults and children. J Am Acad Dermatol. 2020;82:1287-1298. doi:10.1016/j.jaad.2019.10.077
  14. Hinchee-Rodriguez K, Duong A, Kraus CN. Local management strategies for inflammatory vaginitis in dermatologic conditions: suppositories, dilators, and estrogen replacement. JAAD Int. 2022;9:137-138. doi:10.1016/j.jdin.2022.09.004
  15. Hrin ML, Bowers NL, Feldman SR, et al. Mycophenolate mofetil versus methotrexate for vulvar lichen planus: a 10-year retrospective cohort study demonstrates comparable efficacy and tolerability. J Am Acad Dermatol. 2022;87:436-438. doi:10.1016/j.jaad.2021.08.061
  16. Vermeer HAB, Rashid H, Esajas MD, et al. The use of hydroxychloroquine as a systemic treatment in erosive lichen planus of the vulva and vagina. Br J Dermatol. 2021;185:201-203. doi:10.1111/bjd.19870
  17. Skullerud KH, Gjersvik P, Pripp AH, et al. Apremilast for genital erosive lichen planus in women (the AP-GELP Study): study protocol for a randomised placebo-controlled clinical trial. Trials. 2021;22:469. doi:10.1186/s13063-021-05428-w
  18. Kherlopian A, Fischer G. Successful treatment of vulvovaginal lichen planus with tildrakizumab: a case series of 24 patients. Australas J Dermatol. 2022;63:251-255. doi:10.1111/ajd.13793
  19. Kassels A, Edwards L, Kraus CN. Treatment of erosive vulvovaginal lichen planus with tofacitinib: a case series. JAAD Case Rep. 2023;40:14-18. doi:10.1016/j.jdcr.2023.08.001
  20. Wijaya M, Fischer G, Saunderson RB. The efficacy and safety of deucravacitinib compared to methotrexate, in patients with vulvar lichen planus who have failed topical therapy with potent corticosteroids: a study protocol for a single-centre double-blinded randomised controlled trial. Trials. 2024;25:181. doi:10.1186/s13063-024-08022-y
  21. Brumfiel CM, Patel MH, Severson KJ, et al. Ruxolitinib cream in the treatment of cutaneous lichen planus: a prospective, open-label study. J Invest Dermatol. 2022;142:2109-2116.e4. doi:10.1016/j.jid.2022.01.015
  22. A study to evaluate the efficacy and safety of ruxolitinib cream in participants with cutaneous lichen planus. ClinicalTrials.gov ­identifier: NCT05593432. Updated March 12, 2024. Accessed July 12, 2024. https://clinicaltrials.gov/study/NCT05593432
  23. Sattler S, Elsensohn AN, Mauskar MM, et al. Plasma cell vulvitis: a systematic review. Int J Womens Dermatol. 2021;7:756-762. doi:10.1016/j.ijwd.2021.04.005
  24. Song M, Day T, Kliman L, et al. Desquamative inflammatory vaginitis and plasma cell vulvitis represent a spectrum of hemorrhagic vestibulovaginitis. J Low Genit Tract Dis. 2022;26:60-67. doi:10.1097/LGT.0000000000000637
  25. Saeed L, Lee BA, Kraus CN. Tender solitary lesion in vulvar lichen sclerosus. JAAD Case Rep. 2022;23:61-63. doi:10.1016/j.jdcr.2022.01.038
  26. Wendling J, Plantier F, Moyal-Barracco M. Plasma cell vulvitis: a classification into two clinical phenotypes. J Low Genit Tract Dis. 2023;27:384-389. doi:10.1097/LGT.0000000000000771
  27. Prestwood CA, Granberry R, Rutherford A, et al. Successful treatment of plasma cell vulvitis: a case series. JAAD Case Rep. 2022;19:37-40. doi:10.1016/j.jdcr.2021.10.023
  28. He Y, Xu M, Wu M, et al. A case of plasma cell vulvitis successfully treated with crisaborole. J Dermatol. Published online April 1, 2024. doi:10.1111/1346-8138.17205
  29. Xiong X, Chen R, Wang L, et al. Treatment of plasma cell balanitis associated with male genital lichen sclerosus using abrocitinib. JAAD Case Rep. 2024;46:85-88. doi:10.1016/j.jdcr.2024.02.010
  30. Stewart KMA. Clinical care of vulvar pruritus, with emphasis on one common cause, lichen simplex chronicus. Dermatol Clin. 2010;28:669-680. doi:10.1016/j.det.2010.08.004
  31. Rimoin LP, Kwatra SG, Yosipovitch G. Female-specific pruritus from childhood to postmenopause: clinical features, hormonal factors, and treatment considerations. Dermatol Ther. 2013;26:157-167. doi:10.1111/dth.12034
  32. Simpson EL, Bieber T, Guttman-Yassky E, et al; SOLO 1 and SOLO 2 Investigators. Two phase 3 trials of dupilumab versus placebo in atopic dermatitis. N Engl J Med. 2016;375:2335-2348. doi:10.1056/NEJMoa1610020
  33. Yosipovitch G, Mollanazar N, Ständer S, et al. Dupilumab in patients with prurigo nodularis: two randomized, double-blind, placebo-controlled phase 3 trials. Nat Med. 2023;29:1180-1190. doi:10.1038/s41591-023-02320-9
  34. Gosch M, Cash S, Pichardo R. Vulvar pruritus improved with dupilumab. JSM Sexual Med. 2023;7:1104.
  35. Pezzolo E, Gambardella A, Guanti M, et al. Tralokinumab shows clinical improvement in patients with prurigo nodularis-like phenotype atopic dermatitis: a multicenter, prospective, open-label case series study. J Am Acad Dermatol. 2023;89:430-432. doi:10.1016/j.jaad.2023.04.056
  36. Simpson EL, Sinclair R, Forman S, et al. Efficacy and safety of abrocitinib in adults and adolescents with moderate-to-severe atopic dermatitis (JADE MONO-1): a multicentre, double-blind, randomised, placebo-controlled, phase 3 trial. Lancet. 2020;396:255-266. doi:10.1016/S0140-6736(20)30732-7
  37. Simpson EL, Papp KA, Blauvelt A, et al. Efficacy and safety of upadacitinib in patients with moderate to severe atopic dermatitis: analysis of follow-up data from the Measure Up 1 and Measure Up 2 randomized clinical trials. JAMA Dermatol. 2022;158:404-413. doi:10.1001/jamadermatol.2022.0029
  38. Kwatra SG, Yosipovitch G, Legat FJ, et al. Phase 3 trial of nemolizumab in patients with prurigo nodularis. N Engl J Med. 2023;389:1579-1589. doi:10.1056/NEJMoa2301333
  39. Papp K, Szepietowski JC, Kircik L, et al. Long-term safety and disease control with ruxolitinib cream in atopic dermatitis: results from two phase 3 studies. J Am Acad Dermatol. 2023;88:1008-1016. doi:10.1016/j.jaad.2022.09.060
  40. Lebwohl MG, Kircik LH, Moore AY, et al. Effect of roflumilast cream vs vehicle cream on chronic plaque psoriasis: the DERMIS-1 and DERMIS-2 randomized clinical trials. JAMA. 2022;328:1073-1084. doi:10.1001/jama.2022.15632
  41. Lebwohl MG, Gold LS, Strober B, et al. Phase 3 trials of tapinarof cream for plaque psoriasis. N Engl J Med. 2021;385:2219-2229. doi:10.1056/NEJMoa2103629
  42. O’Gorman SM, Torgerson RR. Allergic contact dermatitis of the vulva. Dermatitis. 2013;24:64-72. doi:10.1097/DER.0b013e318284da33
  43. Woodruff CM, Trivedi MK, Botto N, et al. Allergic contact dermatitis of the vulva. Dermatitis. 2018;29:233-243. doi:10.1097/DER.0000000000000339
  44. Vandeweege S, Debaene B, Lapeere H, et al. A systematic review of allergic and irritant contact dermatitis of the vulva: the most important allergens/irritants and the role of patch testing. Contact Dermatitis. 2023;88:249-262. doi:10.1111/cod.14258
  45. Luu Y, Admani S. Vulvar allergens in topical preparations recommended on social media: a cross-sectional analysis of Facebook groups for lichen sclerosus. Int J Womens Dermatol. 2023;9:E097. doi:10.1097/JW9.0000000000000097
  46. Newton J, Richardson S, van Oosbre AM, et al. A cross-sectional study of contact allergens in feminine hygiene wipes: a possible cause of vulvar contact dermatitis. Int J Womens Dermatol. 2022;8:E060. doi:10.1097/JW9.0000000000000060
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Vulvar Lichen Sclerosus: What’s New?

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Vulvar Lichen Sclerosus: What’s New?

Vulvar lichen sclerosus (VLS) is an underserved area in medicine and dermatology. We discuss updates in VLS, which include the following: (1) development of core outcome domains to include in all future clinical trials, with current efforts focused on determining outcome measurements for each domain; (2) increased understanding of the impact VLS has on quality-of-life (QOL) outcomes; (3) expanded disease associations; (4) clinical and histologic variants, including vestibular sclerosis and nonsclerotic VLS; and (5) updates in management of VLS.

Core Outcomes Measures

The burden of VLS is challenging to quantify, with little agreement among experts.1 Recently there has been a focus on developing scoring scales to measure disease progression and treatment response. Simpson et al2 pioneered the development of a core outcome set to be included in all future clinical trials for genital lichen sclerosus (LS)—clinical (visible) signs, symptoms, and LS-specific QOL.

Although there is no standardized method for assessing disease severity, various scales have been proposed to measure clinical findings in VLS, such as the vulvar architecture severity scale3 as well as the clinical LS score,4 which is the only validated scale to incorporate the signs and architectural changes identified by a 2018 Delphi consensus group of the International Society for the Study of Vulvovaginal Disease.5 Work is ongoing to identify and evaluate outcome measurement instruments for each of the 3 core outcome domains.

Increased Understanding of QOL Impacts

Pain, pruritus, impairment of sexual function, genitourinary complications, architectural changes, and risk for squamous cell carcinoma (SCC) all have been well established as VLS sequelae.6,7 Recent studies have focused on the QOL impact and associations with psychiatric comorbidities. A matched case-control study found that LS was significantly associated with depression and anxiety among US women (P<.001), and individuals with LS had a more than 2-fold increased odds of receiving a diagnosis of depression or anxiety.8

A review evaluating QOL outcomes in LS found that overall QOL was impaired. Female patients reported worse QOL in the work-school domain of the dermatology life quality index compared with male counterparts.9

Finally, a study exploring the experiences of patients living with VLS highlighted the secrecy and stigma of the condition,10 which serves as a call to action to improve the general population’s knowledge about vulvar anatomy and create change in societal attitudes on vulvar conditions.

Although there are several instruments assessing vulvar-specific QOL, most are for patients with vulvar cancer and focus on sexual function. In 2020, Saunderson et al11 published the 15-item vulvar quality of life index (VQLI), which has broad implications for measuring vulvar disease burden and is an important tool for standardizing vulvar disease measurements and outcomes for clinical research.12 The VQLI, though not specific to VLS, consists of 4 domains to assess vulvar QOL including symptoms, anxiety, activities of daily living, and sexuality. Studies have evaluated this scoring system in patients with VLS, with 1 study finding that VQLI correlated with clinician-rated severity scores (P=.01) and overall patient itch/discomfort score (P<.001) in VLS.13,14

 

 

Expanded Disease Associations

Lichen sclerosus has a well-known association with vulvar SCC and other autoimmune conditions, including thyroid disease and bullous pemphigoid.15-17 Recent studies also have revealed an association between LS and psoriasis.18 A case-control study from a single center found VLS was associated with elevated body mass index, statin usage, and cholecystectomy.19 Gynecologic pain syndromes, interstitial cystitis, urinary incontinence, and some gastrointestinal tract disorders including celiac disease also have been found to be increased in patients with VLS.20 Finally, the incidence of cutaneous immune-related adverse events such as LS has increased as the use of immune checkpoint therapies as anticancer treatments has expanded.21 Clinicians should be aware of these potential disease associations when caring for patients with VLS.

The incidence of VLS is higher in lower estrogen states throughout the lifespan, and a recent case-control study evaluated the cutaneous hormonal and microbial landscapes in postmenopausal patients (6 patients with VLS; 12 controls).22 Levels of the following cutaneous hormones in the groin were found to be altered in patients with VLS compared with controls: estrone (lower; P=.006), progesterone (higher; P<.0001), and testosterone (lower; P=.02). The authors found that most hormone levels normalized following treatment with a topical steroid. Additionally, bacterial microbiome alterations were seen in patients with VLS compared with controls. Thus, cutaneous sex hormone and skin microbiome alterations may be associated with VLS.22

Updates in Clinical and Histologic Variants

Less-recognized variants of VLS have been characterized in recent years. Vestibular sclerosis is a variant of VLS with unique clinical and histopathologic features; it is characterized by involvement localized to the anterior vestibule and either an absent or sparse lymphocytic infiltrate on histopathology.23,24 Nonsclerotic VLS is a variant with clinical features consistent with VLS that does not exhibit dermal sclerosis on histopathology. Thus, a diagnosis of nonsclerotic VLS requires clinicopathologic correlation. Four nonsclerotic histopathologic subtypes are proposed: lichenoid, hypertrophic lichenoid, dermal fibrosis without acanthosis, and dermal fibrosis with acanthosis.25 Longitudinal studies that correlate duration, signs, and symptoms will be important to further understand these variants.

Management Updates

First-line treatment of VLS still consists of ultrapotent topical corticosteroids with chronic maintenance therapy (usually lifetime) to decrease the risk for SCC and architectural changes.26 However, a survey across social media platforms found steroid phobia is common in patients with VLS (N=865), with approximately 40% of respondents endorsing waiting as long as they could before using topical corticosteroids and stopping as soon as possible.27 Clinicians should be aware of possible patient perceptions in the use of chronic steroids when discussing this therapy.

Randomized controlled trials utilizing fractional CO2 devices for VLS have been performed with conflicting results and no consensus regarding outcome measurement.28,29 Additionally, long-term disease outcomes following laser use have not been investigated. Although there is evidence that both ablative and nonablative devices can improve symptoms and signs, there is no evidence that they offer a cure for a chronic inflammatory skin condition. Current evidence suggests that even for patients undergoing these procedures, maintenance therapy is still essential to prevent sequelae.30 Future studies incorporating standardized outcome measures will be important for assessing the benefits of laser therapy in VLS. Finally, the reasons why topical corticosteroids may fail in an individual patient are multifaceted and should be explored thoroughly when considering laser therapy for VLS.

Studies evaluating the role of systemic therapies for refractory cases of VLS have expanded. A systematic review of systemic therapies for both genital and extragenital LS found oral corticosteroids and methotrexate were the most-reported systemic treatment regimens.31 Use of biologics in LS has been reported, with cases utilizing adalimumab for VLS and dupilumab for extragenital LS. Use of Janus kinase inhibitors including abrocitinib and baricitinib also has been reported for LS.31 A clinical trial to evaluate the safety and efficacy of topical ruxolitinib in VLS was recently completed (ClinicalTrials.govidentifier NCT05593445). Future research studies likely will focus on the safety and efficacy of targeted and steroid-sparing therapies for patients with VLS.

Final Thoughts

Vulvar lichen sclerosus increasingly is becoming recognized as a chronic genital skin condition that impacts QOL and health outcomes, with a need to develop more effective and safe evidence-based therapies. Recent literature has focused on the importance of developing and standardizing disease outcomes; identifying disease associations including the role of cutaneous hormones and microbiome alterations; characterizing histologic and clinical variants; and staying up-to-date on management, including the need for understanding patient perceptions of chronic topical steroid therapy. Each of these are important updates for clinicians to consider when caring for patients with VLS. Future studies likely will focus on elucidating disease etiology and mechanisms to gain a better understanding of VLS pathogenesis and potential targets for therapies as well as implementation of clinical trials that incorporate standardized outcome domains to test efficacy and safety of additional therapies.

References
  1. Sheinis M, Green N, Vieira-Baptista P, et al. Adult vulvar lichen sclerosus: can experts agree on the assessment of disease severity? J Low Genit Tract Dis. 2020;24:295-298. doi:10.1097/LGT.0000000000000534
  2. Simpson RC, Kirtschig G, Selk A, et al. Core outcome domains for lichen sclerosus: a CORALS initiative consensus statement. Br J Dermatol. 2023;188:628-635. doi:10.1093/bjd/ljac145
  3. Almadori A, Zenner N, Boyle D, et al. Development and validation of a clinical grading scale to assess the vulvar region: the Vulvar Architecture Severity Scale. Aesthet Surg J. 2020;40:1319-1326. doi:10.1093/asj/sjz342
  4. Erni B, Navarini AA, Huang D, et al. Proposition of a severity scale for lichen sclerosus: the “Clinical Lichen Sclerosus Score.” Dermatol Ther. 2021;34:E14773. doi:10.1111/dth.14773
  5. Sheinis M, Selk A. Development of the Adult Vulvar Lichen Sclerosus Severity Scale—a Delphi Consensus Exercise for Item Generation. J Low Genit Tract Dis. 2018;22:66-73. doi:10.1097/LGT.0000000000000361
  6. Mauskar MM, Marathe K, Venkatesan A, et al. Vulvar diseases. J Am Acad Dermatol. 2020;82:1287-1298. doi:10.1016/j.jaad.2019.10.077
  7. Wijaya M, Lee G, Fischer G. Why do some patients with vulval lichen sclerosus on long-term topical corticosteroid treatment experience ongoing poor quality of life? Australas J Dermatol. 2022;63:463-472. doi:10.1111/ajd.13926
  8. Fan R, Leasure AC, Maisha FI, et al. Depression and anxiety in patients with lichen sclerosus. JAMA Dermatol. 2022;158:953-954. doi:10.1001/jamadermatol.2022.1964
  9. Ranum A, Pearson DR. The impact of genital lichen sclerosus and lichen planus on quality of life: a review. Int J Womens Dermatol. 2022;8:E042. doi:10.1097/JW9.0000000000000042
  10. Arnold S, Fernando S, Rees S. Living with vulval lichen sclerosus: a qualitative interview study. Br J Dermatol. 2022;187:909-918. doi:10.1111/bjd.21777
  11. Saunderson RB, Harris V, Yeh R, et al. Vulvar quality of life index (VQLI)—a simple tool to measure quality of life in patients with vulvar disease. Australas J Dermatol. 2020;61:152-157. doi:10.1111/ajd.13235
  12. Pyle HJ, Evans JC, Vandergriff TW, et al. Vulvar lichen sclerosus clinical severity scales and histopathologic correlation: a case series. Am J Dermatopathol. 2023;45:588-592. doi:10.1097/DAD.0000000000002471
  13. Wijaya M, Lee G, Fischer G. Quality of life of women with untreated vulval lichen sclerosus assessed with vulval quality of life index (VQLI) [published online January 28, 2021]. Australas J Dermatol. 2021;62:177-182. doi:10.1111/ajd.13530
  14. Felmingham C, Chan L, Doyle LW, et al. The Vulval Disease Quality of Life Index in women with vulval lichen sclerosus correlates with clinician and symptom scores [published online November 14, 2019]. Australas J Dermatol. 2020;61:110-118. doi:10.1111/ajd.13197
  15. Walsh ML, Leonard N, Shawki H, et al. Lichen sclerosus and immunobullous disease. J Low Genit Tract Dis. 2012;16:468-470. doi:10.1097/LGT.0b013e31825e9b18
  16. Chin S, Scurry J, Bradford J, et al. Association of topical corticosteroids with reduced vulvar squamous cell carcinoma recurrence in patients with vulvar lichen sclerosus. JAMA Dermatol. 2020;156:813. doi:10.1001/jamadermatol.2020.1074
  17. Fan R, Leasure AC, Maisha FI, et al. Thyroid disorders associated with lichen sclerosus: a case–control study in the All of Us Research Program. Br J Dermatol. 2022;187:797-799. doi:10.1111/bjd.21702
  18. Fan R, Leasure AC, Little AJ, et al. Lichen sclerosus among women with psoriasis: a cross-sectional study in the All of Us research program. J Am Acad Dermatol. 2023;88:1175-1177. doi:10.1016/j.jaad.2022.12.012
  19. Luu Y, Cheng AL, Reisz C. Elevated body mass index, statin use, and cholecystectomy are associated with vulvar lichen sclerosus: a retrospective, case-control study. J Am Acad Dermatol. 2023;88:1376-1378. doi:10.1016/j.jaad.2023.01.023
  20. Söderlund JM, Hieta NK, Kurki SH, et al. Comorbidity of urogynecological and gastrointestinal disorders in female patients with lichen sclerosus. J Low Genit Tract Dis. 2023;2:156-160. doi:10.1097/LGT.0000000000000727
  21. Shin L, Smith J, Shiu J, et al. Association of lichen sclerosus and morphea with immune checkpoint therapy: a systematic review. Int J Womens Dermatol. 2023;9:E070. doi:10.1097/JW9.0000000000000070
  22. Pyle HJ, Evans JC, Artami M, et al. Assessment of the cutaneous hormone landscapes and microbiomes in vulvar lichen sclerosus [published online February 16, 2024]. J Invest Dermatol. 2024:S0022-202X(24)00111-8. doi:10.1016/j.jid.2024.01.027
  23. Day T, Burston K, Dennerstein G, et al. Vestibulovaginal sclerosis versus lichen sclerosus. Int J Gynecol Pathol. 2018;37:356-363. doi:10.1097/PGP.0000000000000441
  24. Croker BA, Scurry JP, Petry FM, et al. Vestibular sclerosis: is this a new, distinct clinicopathological entity? J Low Genit Tract Dis. 2018;22:260-263. doi:10.1097/LGT.0000000000000404
  25. Day T, Selim MA, Allbritton JI, et al. Nonsclerotic lichen sclerosus: definition of a concept and pathologic description. J Low Genit Tract Dis. 2023;27:358-364. doi:10.1097/LGT.0000000000000760
  26. Lee A, Bradford J, Fischer G. Long-term management of adult vulvar lichen sclerosus: a prospective cohort study of 507 women. JAMA Dermatol. 2015;151:1061. doi:10.1001/jamadermatol.2015.0643
  27. Delpero E, Sriharan A, Selk A. Steroid phobia in patients with vulvar lichen sclerosus. J Low Genit Tract Dis. 2023;27:286-290. doi:10.1097/LGT.0000000000000753
  28. Burkett LS, Siddique M, Zeymo A, et al. Clobetasol compared with fractionated carbon dioxide laser for lichen sclerosus: a randomized controlled trial. Obstet Gynecol. 2021;137:968-978. doi:10.1097/AOG.0000000000004332
  29. Mitchell L, Goldstein AT, Heller D, et al. Fractionated carbon dioxide laser for the treatment of vulvar lichen sclerosus: a randomized controlled trial. Obstet Gynecol. 2021;137:979-987. doi:10.1097/AOG.0000000000004409
  30. Li HOY, Bailey AMJ, Tan MG, Dover JS. Lasers as an adjuvant for vulvar lichen sclerosus: a systematic review and meta-analysis. J Am Acad Dermatol. 2022;86:694-696. doi:10.1016/j.jaad.2021.02.081
  31. Hargis A, Ngo M, Kraus CN, et al. Systemic therapy for lichen sclerosus: a systematic review [published online November 4, 2023]. J Low Genit Tract Dis. doi:10.1097/LGT.0000000000000775
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From the University of California, Irvine. Britney T. Nguyen is from the School of Medicine, and Dr. Kraus is from the Department of Dermatology.

Britney T. Nguyen reports no conflict of interest. Dr. Kraus is supported by a Dermatology Foundation Career Development Award and is a consultant for Nuvig Therapeutics and an investigator for Incyte Corporation.

Correspondence: Christina N. Kraus, MD, UC Irvine Health, 118 Med Surg I, Irvine, CA 92697 (ckraus@hs.uci.edu).

doi:10.12788/cutis.0967

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From the University of California, Irvine. Britney T. Nguyen is from the School of Medicine, and Dr. Kraus is from the Department of Dermatology.

Britney T. Nguyen reports no conflict of interest. Dr. Kraus is supported by a Dermatology Foundation Career Development Award and is a consultant for Nuvig Therapeutics and an investigator for Incyte Corporation.

Correspondence: Christina N. Kraus, MD, UC Irvine Health, 118 Med Surg I, Irvine, CA 92697 (ckraus@hs.uci.edu).

doi:10.12788/cutis.0967

Author and Disclosure Information

 

From the University of California, Irvine. Britney T. Nguyen is from the School of Medicine, and Dr. Kraus is from the Department of Dermatology.

Britney T. Nguyen reports no conflict of interest. Dr. Kraus is supported by a Dermatology Foundation Career Development Award and is a consultant for Nuvig Therapeutics and an investigator for Incyte Corporation.

Correspondence: Christina N. Kraus, MD, UC Irvine Health, 118 Med Surg I, Irvine, CA 92697 (ckraus@hs.uci.edu).

doi:10.12788/cutis.0967

Article PDF
Article PDF

Vulvar lichen sclerosus (VLS) is an underserved area in medicine and dermatology. We discuss updates in VLS, which include the following: (1) development of core outcome domains to include in all future clinical trials, with current efforts focused on determining outcome measurements for each domain; (2) increased understanding of the impact VLS has on quality-of-life (QOL) outcomes; (3) expanded disease associations; (4) clinical and histologic variants, including vestibular sclerosis and nonsclerotic VLS; and (5) updates in management of VLS.

Core Outcomes Measures

The burden of VLS is challenging to quantify, with little agreement among experts.1 Recently there has been a focus on developing scoring scales to measure disease progression and treatment response. Simpson et al2 pioneered the development of a core outcome set to be included in all future clinical trials for genital lichen sclerosus (LS)—clinical (visible) signs, symptoms, and LS-specific QOL.

Although there is no standardized method for assessing disease severity, various scales have been proposed to measure clinical findings in VLS, such as the vulvar architecture severity scale3 as well as the clinical LS score,4 which is the only validated scale to incorporate the signs and architectural changes identified by a 2018 Delphi consensus group of the International Society for the Study of Vulvovaginal Disease.5 Work is ongoing to identify and evaluate outcome measurement instruments for each of the 3 core outcome domains.

Increased Understanding of QOL Impacts

Pain, pruritus, impairment of sexual function, genitourinary complications, architectural changes, and risk for squamous cell carcinoma (SCC) all have been well established as VLS sequelae.6,7 Recent studies have focused on the QOL impact and associations with psychiatric comorbidities. A matched case-control study found that LS was significantly associated with depression and anxiety among US women (P<.001), and individuals with LS had a more than 2-fold increased odds of receiving a diagnosis of depression or anxiety.8

A review evaluating QOL outcomes in LS found that overall QOL was impaired. Female patients reported worse QOL in the work-school domain of the dermatology life quality index compared with male counterparts.9

Finally, a study exploring the experiences of patients living with VLS highlighted the secrecy and stigma of the condition,10 which serves as a call to action to improve the general population’s knowledge about vulvar anatomy and create change in societal attitudes on vulvar conditions.

Although there are several instruments assessing vulvar-specific QOL, most are for patients with vulvar cancer and focus on sexual function. In 2020, Saunderson et al11 published the 15-item vulvar quality of life index (VQLI), which has broad implications for measuring vulvar disease burden and is an important tool for standardizing vulvar disease measurements and outcomes for clinical research.12 The VQLI, though not specific to VLS, consists of 4 domains to assess vulvar QOL including symptoms, anxiety, activities of daily living, and sexuality. Studies have evaluated this scoring system in patients with VLS, with 1 study finding that VQLI correlated with clinician-rated severity scores (P=.01) and overall patient itch/discomfort score (P<.001) in VLS.13,14

 

 

Expanded Disease Associations

Lichen sclerosus has a well-known association with vulvar SCC and other autoimmune conditions, including thyroid disease and bullous pemphigoid.15-17 Recent studies also have revealed an association between LS and psoriasis.18 A case-control study from a single center found VLS was associated with elevated body mass index, statin usage, and cholecystectomy.19 Gynecologic pain syndromes, interstitial cystitis, urinary incontinence, and some gastrointestinal tract disorders including celiac disease also have been found to be increased in patients with VLS.20 Finally, the incidence of cutaneous immune-related adverse events such as LS has increased as the use of immune checkpoint therapies as anticancer treatments has expanded.21 Clinicians should be aware of these potential disease associations when caring for patients with VLS.

The incidence of VLS is higher in lower estrogen states throughout the lifespan, and a recent case-control study evaluated the cutaneous hormonal and microbial landscapes in postmenopausal patients (6 patients with VLS; 12 controls).22 Levels of the following cutaneous hormones in the groin were found to be altered in patients with VLS compared with controls: estrone (lower; P=.006), progesterone (higher; P<.0001), and testosterone (lower; P=.02). The authors found that most hormone levels normalized following treatment with a topical steroid. Additionally, bacterial microbiome alterations were seen in patients with VLS compared with controls. Thus, cutaneous sex hormone and skin microbiome alterations may be associated with VLS.22

Updates in Clinical and Histologic Variants

Less-recognized variants of VLS have been characterized in recent years. Vestibular sclerosis is a variant of VLS with unique clinical and histopathologic features; it is characterized by involvement localized to the anterior vestibule and either an absent or sparse lymphocytic infiltrate on histopathology.23,24 Nonsclerotic VLS is a variant with clinical features consistent with VLS that does not exhibit dermal sclerosis on histopathology. Thus, a diagnosis of nonsclerotic VLS requires clinicopathologic correlation. Four nonsclerotic histopathologic subtypes are proposed: lichenoid, hypertrophic lichenoid, dermal fibrosis without acanthosis, and dermal fibrosis with acanthosis.25 Longitudinal studies that correlate duration, signs, and symptoms will be important to further understand these variants.

Management Updates

First-line treatment of VLS still consists of ultrapotent topical corticosteroids with chronic maintenance therapy (usually lifetime) to decrease the risk for SCC and architectural changes.26 However, a survey across social media platforms found steroid phobia is common in patients with VLS (N=865), with approximately 40% of respondents endorsing waiting as long as they could before using topical corticosteroids and stopping as soon as possible.27 Clinicians should be aware of possible patient perceptions in the use of chronic steroids when discussing this therapy.

Randomized controlled trials utilizing fractional CO2 devices for VLS have been performed with conflicting results and no consensus regarding outcome measurement.28,29 Additionally, long-term disease outcomes following laser use have not been investigated. Although there is evidence that both ablative and nonablative devices can improve symptoms and signs, there is no evidence that they offer a cure for a chronic inflammatory skin condition. Current evidence suggests that even for patients undergoing these procedures, maintenance therapy is still essential to prevent sequelae.30 Future studies incorporating standardized outcome measures will be important for assessing the benefits of laser therapy in VLS. Finally, the reasons why topical corticosteroids may fail in an individual patient are multifaceted and should be explored thoroughly when considering laser therapy for VLS.

Studies evaluating the role of systemic therapies for refractory cases of VLS have expanded. A systematic review of systemic therapies for both genital and extragenital LS found oral corticosteroids and methotrexate were the most-reported systemic treatment regimens.31 Use of biologics in LS has been reported, with cases utilizing adalimumab for VLS and dupilumab for extragenital LS. Use of Janus kinase inhibitors including abrocitinib and baricitinib also has been reported for LS.31 A clinical trial to evaluate the safety and efficacy of topical ruxolitinib in VLS was recently completed (ClinicalTrials.govidentifier NCT05593445). Future research studies likely will focus on the safety and efficacy of targeted and steroid-sparing therapies for patients with VLS.

Final Thoughts

Vulvar lichen sclerosus increasingly is becoming recognized as a chronic genital skin condition that impacts QOL and health outcomes, with a need to develop more effective and safe evidence-based therapies. Recent literature has focused on the importance of developing and standardizing disease outcomes; identifying disease associations including the role of cutaneous hormones and microbiome alterations; characterizing histologic and clinical variants; and staying up-to-date on management, including the need for understanding patient perceptions of chronic topical steroid therapy. Each of these are important updates for clinicians to consider when caring for patients with VLS. Future studies likely will focus on elucidating disease etiology and mechanisms to gain a better understanding of VLS pathogenesis and potential targets for therapies as well as implementation of clinical trials that incorporate standardized outcome domains to test efficacy and safety of additional therapies.

Vulvar lichen sclerosus (VLS) is an underserved area in medicine and dermatology. We discuss updates in VLS, which include the following: (1) development of core outcome domains to include in all future clinical trials, with current efforts focused on determining outcome measurements for each domain; (2) increased understanding of the impact VLS has on quality-of-life (QOL) outcomes; (3) expanded disease associations; (4) clinical and histologic variants, including vestibular sclerosis and nonsclerotic VLS; and (5) updates in management of VLS.

Core Outcomes Measures

The burden of VLS is challenging to quantify, with little agreement among experts.1 Recently there has been a focus on developing scoring scales to measure disease progression and treatment response. Simpson et al2 pioneered the development of a core outcome set to be included in all future clinical trials for genital lichen sclerosus (LS)—clinical (visible) signs, symptoms, and LS-specific QOL.

Although there is no standardized method for assessing disease severity, various scales have been proposed to measure clinical findings in VLS, such as the vulvar architecture severity scale3 as well as the clinical LS score,4 which is the only validated scale to incorporate the signs and architectural changes identified by a 2018 Delphi consensus group of the International Society for the Study of Vulvovaginal Disease.5 Work is ongoing to identify and evaluate outcome measurement instruments for each of the 3 core outcome domains.

Increased Understanding of QOL Impacts

Pain, pruritus, impairment of sexual function, genitourinary complications, architectural changes, and risk for squamous cell carcinoma (SCC) all have been well established as VLS sequelae.6,7 Recent studies have focused on the QOL impact and associations with psychiatric comorbidities. A matched case-control study found that LS was significantly associated with depression and anxiety among US women (P<.001), and individuals with LS had a more than 2-fold increased odds of receiving a diagnosis of depression or anxiety.8

A review evaluating QOL outcomes in LS found that overall QOL was impaired. Female patients reported worse QOL in the work-school domain of the dermatology life quality index compared with male counterparts.9

Finally, a study exploring the experiences of patients living with VLS highlighted the secrecy and stigma of the condition,10 which serves as a call to action to improve the general population’s knowledge about vulvar anatomy and create change in societal attitudes on vulvar conditions.

Although there are several instruments assessing vulvar-specific QOL, most are for patients with vulvar cancer and focus on sexual function. In 2020, Saunderson et al11 published the 15-item vulvar quality of life index (VQLI), which has broad implications for measuring vulvar disease burden and is an important tool for standardizing vulvar disease measurements and outcomes for clinical research.12 The VQLI, though not specific to VLS, consists of 4 domains to assess vulvar QOL including symptoms, anxiety, activities of daily living, and sexuality. Studies have evaluated this scoring system in patients with VLS, with 1 study finding that VQLI correlated with clinician-rated severity scores (P=.01) and overall patient itch/discomfort score (P<.001) in VLS.13,14

 

 

Expanded Disease Associations

Lichen sclerosus has a well-known association with vulvar SCC and other autoimmune conditions, including thyroid disease and bullous pemphigoid.15-17 Recent studies also have revealed an association between LS and psoriasis.18 A case-control study from a single center found VLS was associated with elevated body mass index, statin usage, and cholecystectomy.19 Gynecologic pain syndromes, interstitial cystitis, urinary incontinence, and some gastrointestinal tract disorders including celiac disease also have been found to be increased in patients with VLS.20 Finally, the incidence of cutaneous immune-related adverse events such as LS has increased as the use of immune checkpoint therapies as anticancer treatments has expanded.21 Clinicians should be aware of these potential disease associations when caring for patients with VLS.

The incidence of VLS is higher in lower estrogen states throughout the lifespan, and a recent case-control study evaluated the cutaneous hormonal and microbial landscapes in postmenopausal patients (6 patients with VLS; 12 controls).22 Levels of the following cutaneous hormones in the groin were found to be altered in patients with VLS compared with controls: estrone (lower; P=.006), progesterone (higher; P<.0001), and testosterone (lower; P=.02). The authors found that most hormone levels normalized following treatment with a topical steroid. Additionally, bacterial microbiome alterations were seen in patients with VLS compared with controls. Thus, cutaneous sex hormone and skin microbiome alterations may be associated with VLS.22

Updates in Clinical and Histologic Variants

Less-recognized variants of VLS have been characterized in recent years. Vestibular sclerosis is a variant of VLS with unique clinical and histopathologic features; it is characterized by involvement localized to the anterior vestibule and either an absent or sparse lymphocytic infiltrate on histopathology.23,24 Nonsclerotic VLS is a variant with clinical features consistent with VLS that does not exhibit dermal sclerosis on histopathology. Thus, a diagnosis of nonsclerotic VLS requires clinicopathologic correlation. Four nonsclerotic histopathologic subtypes are proposed: lichenoid, hypertrophic lichenoid, dermal fibrosis without acanthosis, and dermal fibrosis with acanthosis.25 Longitudinal studies that correlate duration, signs, and symptoms will be important to further understand these variants.

Management Updates

First-line treatment of VLS still consists of ultrapotent topical corticosteroids with chronic maintenance therapy (usually lifetime) to decrease the risk for SCC and architectural changes.26 However, a survey across social media platforms found steroid phobia is common in patients with VLS (N=865), with approximately 40% of respondents endorsing waiting as long as they could before using topical corticosteroids and stopping as soon as possible.27 Clinicians should be aware of possible patient perceptions in the use of chronic steroids when discussing this therapy.

Randomized controlled trials utilizing fractional CO2 devices for VLS have been performed with conflicting results and no consensus regarding outcome measurement.28,29 Additionally, long-term disease outcomes following laser use have not been investigated. Although there is evidence that both ablative and nonablative devices can improve symptoms and signs, there is no evidence that they offer a cure for a chronic inflammatory skin condition. Current evidence suggests that even for patients undergoing these procedures, maintenance therapy is still essential to prevent sequelae.30 Future studies incorporating standardized outcome measures will be important for assessing the benefits of laser therapy in VLS. Finally, the reasons why topical corticosteroids may fail in an individual patient are multifaceted and should be explored thoroughly when considering laser therapy for VLS.

Studies evaluating the role of systemic therapies for refractory cases of VLS have expanded. A systematic review of systemic therapies for both genital and extragenital LS found oral corticosteroids and methotrexate were the most-reported systemic treatment regimens.31 Use of biologics in LS has been reported, with cases utilizing adalimumab for VLS and dupilumab for extragenital LS. Use of Janus kinase inhibitors including abrocitinib and baricitinib also has been reported for LS.31 A clinical trial to evaluate the safety and efficacy of topical ruxolitinib in VLS was recently completed (ClinicalTrials.govidentifier NCT05593445). Future research studies likely will focus on the safety and efficacy of targeted and steroid-sparing therapies for patients with VLS.

Final Thoughts

Vulvar lichen sclerosus increasingly is becoming recognized as a chronic genital skin condition that impacts QOL and health outcomes, with a need to develop more effective and safe evidence-based therapies. Recent literature has focused on the importance of developing and standardizing disease outcomes; identifying disease associations including the role of cutaneous hormones and microbiome alterations; characterizing histologic and clinical variants; and staying up-to-date on management, including the need for understanding patient perceptions of chronic topical steroid therapy. Each of these are important updates for clinicians to consider when caring for patients with VLS. Future studies likely will focus on elucidating disease etiology and mechanisms to gain a better understanding of VLS pathogenesis and potential targets for therapies as well as implementation of clinical trials that incorporate standardized outcome domains to test efficacy and safety of additional therapies.

References
  1. Sheinis M, Green N, Vieira-Baptista P, et al. Adult vulvar lichen sclerosus: can experts agree on the assessment of disease severity? J Low Genit Tract Dis. 2020;24:295-298. doi:10.1097/LGT.0000000000000534
  2. Simpson RC, Kirtschig G, Selk A, et al. Core outcome domains for lichen sclerosus: a CORALS initiative consensus statement. Br J Dermatol. 2023;188:628-635. doi:10.1093/bjd/ljac145
  3. Almadori A, Zenner N, Boyle D, et al. Development and validation of a clinical grading scale to assess the vulvar region: the Vulvar Architecture Severity Scale. Aesthet Surg J. 2020;40:1319-1326. doi:10.1093/asj/sjz342
  4. Erni B, Navarini AA, Huang D, et al. Proposition of a severity scale for lichen sclerosus: the “Clinical Lichen Sclerosus Score.” Dermatol Ther. 2021;34:E14773. doi:10.1111/dth.14773
  5. Sheinis M, Selk A. Development of the Adult Vulvar Lichen Sclerosus Severity Scale—a Delphi Consensus Exercise for Item Generation. J Low Genit Tract Dis. 2018;22:66-73. doi:10.1097/LGT.0000000000000361
  6. Mauskar MM, Marathe K, Venkatesan A, et al. Vulvar diseases. J Am Acad Dermatol. 2020;82:1287-1298. doi:10.1016/j.jaad.2019.10.077
  7. Wijaya M, Lee G, Fischer G. Why do some patients with vulval lichen sclerosus on long-term topical corticosteroid treatment experience ongoing poor quality of life? Australas J Dermatol. 2022;63:463-472. doi:10.1111/ajd.13926
  8. Fan R, Leasure AC, Maisha FI, et al. Depression and anxiety in patients with lichen sclerosus. JAMA Dermatol. 2022;158:953-954. doi:10.1001/jamadermatol.2022.1964
  9. Ranum A, Pearson DR. The impact of genital lichen sclerosus and lichen planus on quality of life: a review. Int J Womens Dermatol. 2022;8:E042. doi:10.1097/JW9.0000000000000042
  10. Arnold S, Fernando S, Rees S. Living with vulval lichen sclerosus: a qualitative interview study. Br J Dermatol. 2022;187:909-918. doi:10.1111/bjd.21777
  11. Saunderson RB, Harris V, Yeh R, et al. Vulvar quality of life index (VQLI)—a simple tool to measure quality of life in patients with vulvar disease. Australas J Dermatol. 2020;61:152-157. doi:10.1111/ajd.13235
  12. Pyle HJ, Evans JC, Vandergriff TW, et al. Vulvar lichen sclerosus clinical severity scales and histopathologic correlation: a case series. Am J Dermatopathol. 2023;45:588-592. doi:10.1097/DAD.0000000000002471
  13. Wijaya M, Lee G, Fischer G. Quality of life of women with untreated vulval lichen sclerosus assessed with vulval quality of life index (VQLI) [published online January 28, 2021]. Australas J Dermatol. 2021;62:177-182. doi:10.1111/ajd.13530
  14. Felmingham C, Chan L, Doyle LW, et al. The Vulval Disease Quality of Life Index in women with vulval lichen sclerosus correlates with clinician and symptom scores [published online November 14, 2019]. Australas J Dermatol. 2020;61:110-118. doi:10.1111/ajd.13197
  15. Walsh ML, Leonard N, Shawki H, et al. Lichen sclerosus and immunobullous disease. J Low Genit Tract Dis. 2012;16:468-470. doi:10.1097/LGT.0b013e31825e9b18
  16. Chin S, Scurry J, Bradford J, et al. Association of topical corticosteroids with reduced vulvar squamous cell carcinoma recurrence in patients with vulvar lichen sclerosus. JAMA Dermatol. 2020;156:813. doi:10.1001/jamadermatol.2020.1074
  17. Fan R, Leasure AC, Maisha FI, et al. Thyroid disorders associated with lichen sclerosus: a case–control study in the All of Us Research Program. Br J Dermatol. 2022;187:797-799. doi:10.1111/bjd.21702
  18. Fan R, Leasure AC, Little AJ, et al. Lichen sclerosus among women with psoriasis: a cross-sectional study in the All of Us research program. J Am Acad Dermatol. 2023;88:1175-1177. doi:10.1016/j.jaad.2022.12.012
  19. Luu Y, Cheng AL, Reisz C. Elevated body mass index, statin use, and cholecystectomy are associated with vulvar lichen sclerosus: a retrospective, case-control study. J Am Acad Dermatol. 2023;88:1376-1378. doi:10.1016/j.jaad.2023.01.023
  20. Söderlund JM, Hieta NK, Kurki SH, et al. Comorbidity of urogynecological and gastrointestinal disorders in female patients with lichen sclerosus. J Low Genit Tract Dis. 2023;2:156-160. doi:10.1097/LGT.0000000000000727
  21. Shin L, Smith J, Shiu J, et al. Association of lichen sclerosus and morphea with immune checkpoint therapy: a systematic review. Int J Womens Dermatol. 2023;9:E070. doi:10.1097/JW9.0000000000000070
  22. Pyle HJ, Evans JC, Artami M, et al. Assessment of the cutaneous hormone landscapes and microbiomes in vulvar lichen sclerosus [published online February 16, 2024]. J Invest Dermatol. 2024:S0022-202X(24)00111-8. doi:10.1016/j.jid.2024.01.027
  23. Day T, Burston K, Dennerstein G, et al. Vestibulovaginal sclerosis versus lichen sclerosus. Int J Gynecol Pathol. 2018;37:356-363. doi:10.1097/PGP.0000000000000441
  24. Croker BA, Scurry JP, Petry FM, et al. Vestibular sclerosis: is this a new, distinct clinicopathological entity? J Low Genit Tract Dis. 2018;22:260-263. doi:10.1097/LGT.0000000000000404
  25. Day T, Selim MA, Allbritton JI, et al. Nonsclerotic lichen sclerosus: definition of a concept and pathologic description. J Low Genit Tract Dis. 2023;27:358-364. doi:10.1097/LGT.0000000000000760
  26. Lee A, Bradford J, Fischer G. Long-term management of adult vulvar lichen sclerosus: a prospective cohort study of 507 women. JAMA Dermatol. 2015;151:1061. doi:10.1001/jamadermatol.2015.0643
  27. Delpero E, Sriharan A, Selk A. Steroid phobia in patients with vulvar lichen sclerosus. J Low Genit Tract Dis. 2023;27:286-290. doi:10.1097/LGT.0000000000000753
  28. Burkett LS, Siddique M, Zeymo A, et al. Clobetasol compared with fractionated carbon dioxide laser for lichen sclerosus: a randomized controlled trial. Obstet Gynecol. 2021;137:968-978. doi:10.1097/AOG.0000000000004332
  29. Mitchell L, Goldstein AT, Heller D, et al. Fractionated carbon dioxide laser for the treatment of vulvar lichen sclerosus: a randomized controlled trial. Obstet Gynecol. 2021;137:979-987. doi:10.1097/AOG.0000000000004409
  30. Li HOY, Bailey AMJ, Tan MG, Dover JS. Lasers as an adjuvant for vulvar lichen sclerosus: a systematic review and meta-analysis. J Am Acad Dermatol. 2022;86:694-696. doi:10.1016/j.jaad.2021.02.081
  31. Hargis A, Ngo M, Kraus CN, et al. Systemic therapy for lichen sclerosus: a systematic review [published online November 4, 2023]. J Low Genit Tract Dis. doi:10.1097/LGT.0000000000000775
References
  1. Sheinis M, Green N, Vieira-Baptista P, et al. Adult vulvar lichen sclerosus: can experts agree on the assessment of disease severity? J Low Genit Tract Dis. 2020;24:295-298. doi:10.1097/LGT.0000000000000534
  2. Simpson RC, Kirtschig G, Selk A, et al. Core outcome domains for lichen sclerosus: a CORALS initiative consensus statement. Br J Dermatol. 2023;188:628-635. doi:10.1093/bjd/ljac145
  3. Almadori A, Zenner N, Boyle D, et al. Development and validation of a clinical grading scale to assess the vulvar region: the Vulvar Architecture Severity Scale. Aesthet Surg J. 2020;40:1319-1326. doi:10.1093/asj/sjz342
  4. Erni B, Navarini AA, Huang D, et al. Proposition of a severity scale for lichen sclerosus: the “Clinical Lichen Sclerosus Score.” Dermatol Ther. 2021;34:E14773. doi:10.1111/dth.14773
  5. Sheinis M, Selk A. Development of the Adult Vulvar Lichen Sclerosus Severity Scale—a Delphi Consensus Exercise for Item Generation. J Low Genit Tract Dis. 2018;22:66-73. doi:10.1097/LGT.0000000000000361
  6. Mauskar MM, Marathe K, Venkatesan A, et al. Vulvar diseases. J Am Acad Dermatol. 2020;82:1287-1298. doi:10.1016/j.jaad.2019.10.077
  7. Wijaya M, Lee G, Fischer G. Why do some patients with vulval lichen sclerosus on long-term topical corticosteroid treatment experience ongoing poor quality of life? Australas J Dermatol. 2022;63:463-472. doi:10.1111/ajd.13926
  8. Fan R, Leasure AC, Maisha FI, et al. Depression and anxiety in patients with lichen sclerosus. JAMA Dermatol. 2022;158:953-954. doi:10.1001/jamadermatol.2022.1964
  9. Ranum A, Pearson DR. The impact of genital lichen sclerosus and lichen planus on quality of life: a review. Int J Womens Dermatol. 2022;8:E042. doi:10.1097/JW9.0000000000000042
  10. Arnold S, Fernando S, Rees S. Living with vulval lichen sclerosus: a qualitative interview study. Br J Dermatol. 2022;187:909-918. doi:10.1111/bjd.21777
  11. Saunderson RB, Harris V, Yeh R, et al. Vulvar quality of life index (VQLI)—a simple tool to measure quality of life in patients with vulvar disease. Australas J Dermatol. 2020;61:152-157. doi:10.1111/ajd.13235
  12. Pyle HJ, Evans JC, Vandergriff TW, et al. Vulvar lichen sclerosus clinical severity scales and histopathologic correlation: a case series. Am J Dermatopathol. 2023;45:588-592. doi:10.1097/DAD.0000000000002471
  13. Wijaya M, Lee G, Fischer G. Quality of life of women with untreated vulval lichen sclerosus assessed with vulval quality of life index (VQLI) [published online January 28, 2021]. Australas J Dermatol. 2021;62:177-182. doi:10.1111/ajd.13530
  14. Felmingham C, Chan L, Doyle LW, et al. The Vulval Disease Quality of Life Index in women with vulval lichen sclerosus correlates with clinician and symptom scores [published online November 14, 2019]. Australas J Dermatol. 2020;61:110-118. doi:10.1111/ajd.13197
  15. Walsh ML, Leonard N, Shawki H, et al. Lichen sclerosus and immunobullous disease. J Low Genit Tract Dis. 2012;16:468-470. doi:10.1097/LGT.0b013e31825e9b18
  16. Chin S, Scurry J, Bradford J, et al. Association of topical corticosteroids with reduced vulvar squamous cell carcinoma recurrence in patients with vulvar lichen sclerosus. JAMA Dermatol. 2020;156:813. doi:10.1001/jamadermatol.2020.1074
  17. Fan R, Leasure AC, Maisha FI, et al. Thyroid disorders associated with lichen sclerosus: a case–control study in the All of Us Research Program. Br J Dermatol. 2022;187:797-799. doi:10.1111/bjd.21702
  18. Fan R, Leasure AC, Little AJ, et al. Lichen sclerosus among women with psoriasis: a cross-sectional study in the All of Us research program. J Am Acad Dermatol. 2023;88:1175-1177. doi:10.1016/j.jaad.2022.12.012
  19. Luu Y, Cheng AL, Reisz C. Elevated body mass index, statin use, and cholecystectomy are associated with vulvar lichen sclerosus: a retrospective, case-control study. J Am Acad Dermatol. 2023;88:1376-1378. doi:10.1016/j.jaad.2023.01.023
  20. Söderlund JM, Hieta NK, Kurki SH, et al. Comorbidity of urogynecological and gastrointestinal disorders in female patients with lichen sclerosus. J Low Genit Tract Dis. 2023;2:156-160. doi:10.1097/LGT.0000000000000727
  21. Shin L, Smith J, Shiu J, et al. Association of lichen sclerosus and morphea with immune checkpoint therapy: a systematic review. Int J Womens Dermatol. 2023;9:E070. doi:10.1097/JW9.0000000000000070
  22. Pyle HJ, Evans JC, Artami M, et al. Assessment of the cutaneous hormone landscapes and microbiomes in vulvar lichen sclerosus [published online February 16, 2024]. J Invest Dermatol. 2024:S0022-202X(24)00111-8. doi:10.1016/j.jid.2024.01.027
  23. Day T, Burston K, Dennerstein G, et al. Vestibulovaginal sclerosis versus lichen sclerosus. Int J Gynecol Pathol. 2018;37:356-363. doi:10.1097/PGP.0000000000000441
  24. Croker BA, Scurry JP, Petry FM, et al. Vestibular sclerosis: is this a new, distinct clinicopathological entity? J Low Genit Tract Dis. 2018;22:260-263. doi:10.1097/LGT.0000000000000404
  25. Day T, Selim MA, Allbritton JI, et al. Nonsclerotic lichen sclerosus: definition of a concept and pathologic description. J Low Genit Tract Dis. 2023;27:358-364. doi:10.1097/LGT.0000000000000760
  26. Lee A, Bradford J, Fischer G. Long-term management of adult vulvar lichen sclerosus: a prospective cohort study of 507 women. JAMA Dermatol. 2015;151:1061. doi:10.1001/jamadermatol.2015.0643
  27. Delpero E, Sriharan A, Selk A. Steroid phobia in patients with vulvar lichen sclerosus. J Low Genit Tract Dis. 2023;27:286-290. doi:10.1097/LGT.0000000000000753
  28. Burkett LS, Siddique M, Zeymo A, et al. Clobetasol compared with fractionated carbon dioxide laser for lichen sclerosus: a randomized controlled trial. Obstet Gynecol. 2021;137:968-978. doi:10.1097/AOG.0000000000004332
  29. Mitchell L, Goldstein AT, Heller D, et al. Fractionated carbon dioxide laser for the treatment of vulvar lichen sclerosus: a randomized controlled trial. Obstet Gynecol. 2021;137:979-987. doi:10.1097/AOG.0000000000004409
  30. Li HOY, Bailey AMJ, Tan MG, Dover JS. Lasers as an adjuvant for vulvar lichen sclerosus: a systematic review and meta-analysis. J Am Acad Dermatol. 2022;86:694-696. doi:10.1016/j.jaad.2021.02.081
  31. Hargis A, Ngo M, Kraus CN, et al. Systemic therapy for lichen sclerosus: a systematic review [published online November 4, 2023]. J Low Genit Tract Dis. doi:10.1097/LGT.0000000000000775
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Epithelioma Cuniculatum (Plantar Verrucous Carcinoma): A Systematic Review of Treatment Options

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Epithelioma Cuniculatum (Plantar Verrucous Carcinoma): A Systematic Review of Treatment Options

Verrucous carcinoma (VC) is an uncommon type of well-differentiated squamous cell carcinoma (SCC) that most commonly affects men in the fifth to sixth decades of life. 1 The tumor grows slowly over a decade or more and does not frequently metastasize but has a high propensity for recurrence and local invasion. 2  There are 3 main subtypes of VC classified by anatomic site: oral florid papillomatosis (oral cavity), Buschke-Lowenstein tumor (anogenital region), and epithelioma cuniculatum (EC)(feet). 3 Epithelioma cuniculatum, also known as carcinoma cuniculatum or papillomatosis cutis carcinoides, most commonly presents as a solitary, warty or cauliflowerlike, exophytic mass with keratin-filled sinus tracts and malodorous discharge. 4 Diabetic foot ulcers and chronic inflammatory conditions are predisposing risk factors for EC, and it can result in difficulty walking/immobility, pain, and bleeding depending on anatomic involvement. 5-9

The differential diagnosis for VC includes refractory verruca vulgaris, clavus, SCC, keratoacanthoma, deep fungal or mycobacterial infection, eccrine poroma or porocarcinoma, amelanotic melanoma, and sarcoma.10-13 The slow-growing nature of VC, sampling error of superficial biopsies, and minimal cytological atypia on histologic examination can contribute to delayed diagnosis and appropriate treatment.14 Characteristic histologic features include hyperkeratosis, papillomatosis, marked acanthosis, broad blunt-ended rete ridges with a “bulldozing” architecture, and minimal cytologic atypia and mitoses.5,6 In some cases, pleomorphism and glassy eosinophilic cytoplasmic changes may be more pronounced than that of a common wart though less dramatic than that of conventional SCCs.15 Antigen Ki-67 and tumor protein p53 have been proposed to help differentiate between common plantar verruca, VC, and SCC, but the histologic diagnosis remains challenging, and repeat histopathologic examination often is required.16-19 Following diagnosis, computed tomography or magnetic resonance imaging may be necessary to determine tumor extension and assess for deep tissue and bony involvement.20-22

Treatment of EC is particularly challenging because of the anatomic location and need for margin control while maintaining adequate function, preserving healthy tissue, and providing coverage of defects. Surgical excision of EC is the first-line treatment, most commonly by wide local excision (WLE) or amputation. Mohs micrographic surgery (MMS) also has been utilized. One review found no recurrences in 5 cases of EC treated with MMS.23 As MMS is a tissue-sparing technique, this is a valuable modality for sites of functional importance such as the feet. Herein, we review various reported EC treatment modalities and outcomes, with an emphasis on recurrence rates for WLE and MMS.

METHODS

A systematic literature review of PubMed articles indexed for MEDLINE, as well as databases including the Cochrane Library, Web of Science, and Cumulative Index to Nursing and Allied Health Literature (CINAHL), was performed on January 14, 2020. Two authors (S.S.D. and S.V.C.) independently screened results using the search terms (plantar OR foot) AND (verrucous carcinoma OR epithelioma cuniculatum OR carcinoma cuniculatum). The search terms were chosen according to MeSH subject headings. All articles from the start date of the databases through the search date were screened, and articles pertaining to VC, EC, or carcinoma cuniculatum located on the foot were included. Of these, non–English-language articles were translated and included. Articles reporting VC on a site other than the foot (eg, the oral cavity) or benign verrucous skin lesions were excluded. The reference lists for all articles also were reviewed for additional reports that were absent from the initial search using both included and excluded articles. A full-text review was performed on 221 articles published between 1954 and 2019 per the PRISMA guidelines (Figure).

PRISMA flow diagram of the screening process for a systematic review of the literature using the search terms
PRISMA flow diagram of the screening process for a systematic review of the literature using the search terms (plantar OR foot) AND (verrucous carcinoma OR epithelioma cuniculatum OR carcinoma cuniculatum). Reasons for exclusion of articles included unavailable full text, errata or responses, not verrucous carcinoma, not plantar, or not malignant. CINAHL indicates Cumulative Index to Nursing and Allied Health Literature.

A total of 101 articles were included in the study for qualitative analysis. Nearly all articles identified were case reports, giving an evidence level of 5 by the Centre for Evidence-Based Medicine rating scale. Five articles reported data on multiple patients without individual demographic or clinical details and were excluded from analysis. Of the remaining 96 articles, information about patient characteristics, tumor size, treatment modality, and recurrence were extracted for 115 cases.

RESULTS

Of the 115 cases that were reviewed, 81 (70%) were male and 33 (29%) were female with a male-to-female ratio of 2.4:1. Ages of the patients ranged from 18 to 88 years; the mean and median age was 56 years. Nearly all reported cases of EC affected the plantar surface of one foot, with 4 reports of tumors affecting both feet.24-27 One case affecting both feet reported known exposure to lead arsenate pesticides27; all others were associated with a clinical history of chronic ulcers or warts persisting for several years to decades. Other less common sites of EC included the dorsal foot, interdigital web space, and subungual digit.28-30 The most common location reported was the anterior ball of the foot. Tumors were reported to arise within pre-existing lesions, such as hypertrophic lichen planus or chronic foot wounds associated with diabetes mellitus or leprosy.31-35 Tumor size ranged from 1 to 22 cm with a median of 4.5 cm.

Eight cases were reported to be associated with human papillomavirus; low-risk types 6 and 11 and high-risk types 16 and 18 were found in 6 cases.36-41 Two cases reported association with human papillomavirus type 2.7,42

 

 

Metastases to dermal and subdermal lymphatics, regional lymph nodes, and the lungs were reported in 3 cases, repectively.43-45 Of these, one primary tumor had received low-dose irradiation in the form of X-ray therapy.45

Treatment Modalities

The cases of EC that we reviewed included treatment with surgical and systemic therapies as well as other modalities such as acitretin, interferon alfa, topical imiquimod, curettage, debridement, electrodesiccation, and radiation. The Table includes a complete summary of the treatments we analyzed.

Treatment and Recurrence of Epithelioma Cuniculatum

Surgical Therapy—The majority (91% [105/115]) of cases were treated surgically. The most common treatment modality was WLE (50% [58/115]), followed by amputation (37% [43/115]) and MMS (12% [14/115]).

Wide local excision was the most frequently reported treatment, with excision margins of at least 5 mm to 1 cm.48 Incidence of recurrence was reported for 57% (33/58) of cases treated with WLE; of these, the recurrence rate was 33% (11/33). For patients with EC recurrence, the most common secondary treatment was repeat excision with wider margins (1–2 cm) or amputation (5/11).49-52 Few postoperative complications were reported but included pain, infection, and difficulty walking, which were mostly associated with repair modality (eg, split-thickness skin grafts, rotational flaps).53 
Amputation was the second most common treatment modality, with a 67% (29/43) incidence of recurrence. Types of amputation included transmetatarsal ray amputation (7/43 [16%]), foot or forefoot amputation (2/43 [5%]), above-the-knee amputation (1/43 [2%]), and below-the-knee amputation (1/43 [2%]). Complications associated with amputation included infection and requirement of prosthetics for ambulation. Split-thickness skin grafts and rotational flaps were the most common surgical repairs performed.52,53

Mohs micrographic surgery was the least frequently reported surgical treatment modality. Both traditional MMS on fresh tissue and “slow Mohs,” with formalin-fixed paraffin embedded tissue examination over several days, were performed for EC with horizontal en face sectioning.54-56 Incidence of recurrence was reported for 86% (12/14) of MMS cases. Of these, recurrence was seen in 17% (2/12) that utilized a flat horizontal processing of tissue sections coupled with saucerlike excisions to enable examination of the entire undersurface and margins. In one case, the patient was treated with MMS with recurrence noted 1 month later; thus, repeat MMS was performed, and the tumor was found to be entwined around the flexor tendon.57 The tendon was removed, and clear margins were obtained. Follow-up 3 years after the second MMS revealed no signs of recurrence.57 In the other case, the patient had a particularly aggressive course with bilateral VC in the setting of diabetic ulcers that was treated with WLE prior to MMS and recurrence still noted after MMS.26 No complications were reported with MMS.

Overall, recurrence was most frequently reported with WLE (11/33 [33%]), followed by MMS (2/12 [17%]) and amputation (3/29 [10%]). When comparing WLE and amputation, the relationship between treatment modality and recurrence was statistically significant using a χ2 test of independence (χ2=4.7; P=.03). However, results were not significant with Yates correction for continuity (χ2=3.4; P=.06). The χ2 test of independence showed no significant association between treatment method and recurrence when comparing WLE with MMS (χ2=1.2; P=.28). Reported follow-up times varied greatly from a few months to 10 years.

Systemic Therapy—Of the total cases, only 2 cases reported treatment with acitretin and 2 utilized interferon alfa.58,59 In one case, treatment of EC with interferon alfa alone required more aggressive therapy (ie, amputation).58 Neither of the 2 cases using acitretin reported recurrence.59,60 Complications of acitretin therapy included cheilitis and transaminitis.60

 

 

Other Treatment Modalities—Three cases utilized imiquimod, with 2 cases of imiquimod monotherapy and 1 case of imiquimod in combination with electrodesiccation and WLE.37 One of the cases of EC treated with imiquimod monotherapy recurred and required WLE.61

There were reports of other treatments including curettage alone (2% [2/115]),40,62 debridement alone (1% [1/115]),40 electrodesiccation (1% [1/115]),37 and radiation (1% [1/115]).43 Recurrence was found with curettage alone and debridement alone. Electrodesiccation was reported in conjunction with WLE without recurrence. Radiation was used to treat a case of VC that had metastasized to the lymph nodes; no follow-up was described.43

COMMENT

Epithelioma cuniculatum is an indolent malignancy of the plantar foot that likely is frequently underdiagnosed or misdiagnosed because of location, sampling error, and challenges in histopathologic diagnosis. Once diagnosed, surgical removal with margin control is the first-line therapy for EC. Our review found a number of surgical, systemic, and other treatment modalities that have been used to treat EC, but there remains a lack of evidence to provide clear guidelines as to which therapies are most effective. Current data on the treatment of EC largely are limited to case reports and case series. To date, there are no reports of higher-quality studies or randomized controlled trials to assess the efficacy of various treatment modalities.

Our review found that WLE is the most common treatment modality for EC, followed by amputation and MMS. Three cases43-45 that reported metastasis to lymph nodes also were treated with fine-needle aspiration or biopsy, and it is recommended that sentinel lymph node biopsy be performed when there is a history of radiation exposure or clinically and sonographically unsuspicious lymph nodes, while dissection of regional nodes should be performed if lymph node metastasis is suspected.53 Additional treatments reported included acitretin, interferon alfa, topical imiquimod, curettage, debridement, and electrodesiccation, but because of the limited number of cases and variable efficacy, no conclusions can be made on the utility of these alternative modalities.

The lowest rate of reported recurrence was found with amputation, followed by MMS and WLE. Amputation is the most aggressive treatment option, but its superiority in lower recurrence rates was not statistically significant when compared with either WLE or MMS after Yates correction. Despite treatment with radical surgery, recurrence is still possible and may be associated with factors including greater size (>2 cm) and depth (>4 mm), poor histologic differentiation, perineural involvement, failure of previous treatments, and immunosuppression.63 No statistically significant difference in recurrence rates was found among surgical methods, though data trended toward lower rates of recurrence with MMS compared with WLE, as recurrence with MMS was only reported in 2 cases.25,56

The efficacy of MMS is well documented for tumors with contiguous growth and enables maximum preservation of normal tissue structure and function with complete margin visualization. Thus, our results are in agreement with those of prior studies,54-56,64 suggesting that MMS is associated with lower recurrence rates for EC than WLE. Future studies and reporting of MMS for EC are particularly important because of the functional importance of the plantar foot.

It is important to note that there are local and systemic risk factors that increase the likelihood of developing EC and facilitate tumor growth, including antecedent trauma to the lesion site, chronic irritation or infection, and immunosuppression (HIV related or iatrogenic medication induced). These risk factors may play a role in the treatment modality utilized (eg, more aggressive EC may be treated with amputation instead of WLE). Underlying patient comorbidities could potentially affect recurrence rates, which is a variable we could not control for in our analysis.

Our findings are limited by study design, with supporting evidence consisting of case reports and series. The review is limited by interstudy variability and heterogeneity of results. Additionally, recurrence is not reported in all cases and may be a source of sampling bias. Further complicating the generalizability of these results is the lack of follow-up to evaluate morbidity and quality of life after treatment.

CONCLUSION

This review suggests that MMS is associated with lower recurrence rates than WLE for the treatment of EC. Further investigation of MMS for EC with appropriate follow-up is necessary to identify whether MMS is associated with lower recurrence and less functional impairment. Nonsurgical treatments, including topical imiquimod, interferon alfa, and acitretin, may be useful in cases where surgical therapies are contraindicated, but there is little evidence to support these treatment modalities. Treatment guidelines for EC are not established, and appropriate treatment guidelines should be developed in the future.

References
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  21. Wasserman PL, Taylor RC, Pinillia J, et al. Verrucous carcinoma of the foot and enhancement assessment by MRI. Skeletal Radiol. 2009;38:393-395.
  22. Bhushan MH, Ferguson JE, Hutchinson CE. Carcinoma cuniculatum of the foot assessed by magnetic resonance scanning. Clin Exp Dermatol. 2001;26:419-422.
  23. Penera KE, Manji KA, Craig AB, et al. Atypical presentation of verrucous carcinoma: a case study and review of the literature. Foot Ankle Spec. 2013;6:318-322.
  24. Suen K, Wijeratne S, Patrikios J. An unusual case of bilateral verrucous carcinoma of the foot (epithelioma cuniculatum). J Surg Case Rep. 2012;2012:rjs020.
  25. Riccio C, King K, Elston JB, et al. Bilateral plantar verrucous carcinoma. Eplasty. 2016;16:ic46.
  26. Di Palma V, Stone JP, Schell A, et al. Mistaken diabetic ulcers: a case of bilateral foot verrucous carcinoma. Case Rep Dermatol Med. 2018;2018:4192657.
  27. Seehafer JR, Muller SA, Dicken CH. Bilateral verrucous carcinoma of the feet. Orthop Surv. 1979;3:205.
  28. Tosti A, Morelli R, Fanti PA, et al. Carcinoma cuniculatum of the nail apparatus: report of three cases. Dermatology. 1993;186:217-221.
  29. Melo CR, Melo IS, Souza LP. Epithelioma cuniculatum, a verrucous carcinoma of the foot. report of 2 cases. Dermatologica. 1981;163:338-342.
  30. Van Geertruyden JP, Olemans C, Laporte M, et al. Verrucous carcinoma of the nail bed. Foot Ankle Int. 1998;19:327-328.
  31. Thakur BK, Verma S, Raphael V. Verrucous carcinoma developing in a long standing case of ulcerative lichen planus of sole: a rare case report. J Eur Acad Dermatol Venereol. 2015;29:399-401.
  32. Mayron R, Grimwood RE, Siegle RJ, et al. Verrucous carcinoma arising in ulcerative lichen planus of the soles. J Dermatol Surg Oncol. 1988;14:547-551.
  33. Boussofara L, Belajouza-Noueiri C, Ghariani N, et al. Verrucous epidermoid carcinoma as a complication in cutaneous lichen planus [article in French]. Ann Dermatol Venereol. 2006;133:404-405.
  34. Khullar G, Mittal S, Sharma S. Verrucous carcinoma on the foot arising in a chronic neuropathic ulcer of leprosy. Australas J Dermatol. 2019;60:245-246.
  35. Ochsner PE, Hausman R, Olsthoorn PGM. Epithelioma cunicalutum developing in a neuropathic ulcer of leprous etiology. Arch Orthop Trauma Surg. 1979;94:227-231.
  36. Ray R, Bhagat A, Vasudevan B, et al. A rare case of plantar epithelioma cuniculatum arising from a wart. Indian J Dermatol. 2015;60:485-487.
  37. Imko-Walczuk B, Cegielska A, Placek W, et al. Human papillomavirus-related verrucous carcinoma in a renal transplant patient after long-term immunosuppression: a case report. Transplant Proc. 2014;46:2916-2919.
  38. Floristán MU, Feltes RA, Sáenz JC, et al. Verrucous carcinoma of the foot associated with human papillomavirus type 18. Actas Dermosifiliogr. 2009;100:433-435.
  39. Sasaoka R, Morimura T, Mihara M, et al. Detection of human pupillomavirus type 16 DNA in two cases of verriicous carcinoma of the foot. Br J Dermatol. 1996;134:983984.
  40. Schell BJ, Rosen T, Rády P, et al. Verrucous carcinoma of the foot associated with human papillomavirus type 16. J Am Acad Dermatol. 2001;45:49-55.
  41. Knobler RM, Schneider S, Neumann RA, et al. DNA dot‐blot hybridization implicates human papillomavirus type 11‐DNA in epithelioma cuniculatum. J Med Virol. 1989;29:33-37.
  42. Noel JC, Peny MO, Detremmerie O, et al. Demonstration of human papillomavirus type 2 in a verrucous carcinoma of the foot. Dermatology. 1993;187:58-61.
  43. Jungmann J, Vogt T, Müller CSL. Giant verrucous carcinoma of the lower extremity in women with dementia. BMJ Case Rep. 2012;2012:bcr2012006357.
  44. McKee PH, Wilkinson JD, Corbett MF, et al. Carcinoma cuniculatum: a case metastasizing to skin and lymph nodes. Clin Exp Dermatol. 1981;6:613-618.
  45. Owen WR, Wolfe ID, Burnett JW, et al. Epithelioma cuniculatum. South Med J. 1978;71:477-479.
  46. Patel AN, Bedforth N, Varma S. Pain-free treatment of carcinoma cuniculatum on the heel using Mohs micrographic surgery and ultrasonography-guided sciatic nerve block. Clin Exp Dermatol. 2013;38:569-571.
  47. Padilla RS, Bailin PL, Howard WR, et al. Verrucous carcinoma of the skin and its management by Mohs’ surgery. Plast Reconstr Surg. 1984;73:442-447.
  48. Kotwal M, Poflee S, Bobhate S. Carcinoma cuniculatum at various anatomical sites. Indian J Dermatol. 2005;50:216-220.
  49. Arefi M, Philipone E, Caprioli R, et al. A case of verrucous carcinoma (epithelioma cuniculatum) of the heel mimicking infected epidermal cyst and gout. Foot Ankle Spec. 2008;1:297-299.
  50. Trebing D, Brunner M, Kröning Y, et al. Young man with verrucous heel tumor [article in German]. J Dtsch Dermatol Ges. 2003;9:739-741.
  51. Thompson SG. Epithelioma cuniculatum: an unusual tumour of the foot. Br J Plast Surg. 1965;18:214-217.
  52. Thomas EJ, Graves NC, Meritt SM. Carcinoma cuniculatum: an atypical presentation in the foot. J Foot Ankle Surg. 2014;53:356-359.
  53. Koch H, Kowatsch E, Hödl S, et al. Verrucous carcinoma of the skin: long-term follow-up results following surgical therapy. Dermatol Surg. 2004;30:1124-1130.
  54. Mallatt BD, Ceilley RI, Dryer RF. Management of verrucous carcinoma on a foot by a combination of chemosurgery and plastic repair: report of a case. J Dermatol Surg Oncol. 1980;6:532-534.
  55. Mohs FE, Sahl WJ. Chemosurgery for verrucous carcinoma. J Dermatol Surg Oncol. 1979;5:302-306.
  56. Alkalay R, Alcalay J, Shiri J. Plantar verrucous carcinoma treated with Mohs micrographic surgery: a case report and literature review. J Drugs Dermatol. 2006;5:68-73.
  57. Mora RG. Microscopically controlled surgery (Mohs’ chemosurgery) for treatment of verrucous squamous cell carcinoma of the foot (epithelioma cuniculatum). J Am Acad Dermatol. 1983;8:354-362.
  58. Risse L, Negrier P, Dang PM, et al. Treatment of verrucous carcinoma with recombinant alfa-interferon. Dermatology. 1995;190:142-144.
  59. Rogozin´ski TT, Schwartz RA, Towpik E. Verrucous carcinoma in Unna-Thost hyperkeratosis of the palms and soles. J Am Acad Dermatol. 1994;31:1061-1062.
  60. Kuan YZ, Hsu HC, Kuo TT, et al. Multiple verrucous carcinomas treated with acitretin. J Am Acad Dermatol. 2007;56(2 suppl):S29-S32.
  61. Schalock PC, Kornik RI, Baughman RD, et al. Treatment of verrucous carcinoma with topical imiquimod. J Am Acad Dermatol. 2006;54:233-234.
  62. Brown SM, Freeman RG. Epithelioma cuniculatum. Arch Dermatol. 1976;112:1295-1296.
  63. Rowe DE, Carroll RJ, Day CL, et al. Prognostic factors for local recurrence, metastasis, and survival rates in squamous cell carcinoma of the skin, ear, and lip. J Am Acad Dermatol. 1992;26:976-990.
  64. Swanson NA, Taylor WB. Plantar verrucous carcinoma: literature review and treatment by the Mohs’ chemosurgery technique. Arch Dermatol. 1980;116:794-797.
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Dr. Daniel is from Scripps Mercy Hospital, San Diego, California. Dr. Cox is from Scripps Clinic, San Diego. Dr. Kraus is from the Department of Dermatology, University of California, Irvine. Dr. Elsensohn is from the Department of Dermatology, Loma Linda University, San Diego.

The authors report no conflict of interest.

Correspondence: Samantha Shwe Daniel, MD, MBA, Scripps Mercy Hospital, 4077 5th Ave MER35, San Diego, CA 92103 (daniel.samantha@scrippshealth.org).

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Dr. Daniel is from Scripps Mercy Hospital, San Diego, California. Dr. Cox is from Scripps Clinic, San Diego. Dr. Kraus is from the Department of Dermatology, University of California, Irvine. Dr. Elsensohn is from the Department of Dermatology, Loma Linda University, San Diego.

The authors report no conflict of interest.

Correspondence: Samantha Shwe Daniel, MD, MBA, Scripps Mercy Hospital, 4077 5th Ave MER35, San Diego, CA 92103 (daniel.samantha@scrippshealth.org).

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Dr. Daniel is from Scripps Mercy Hospital, San Diego, California. Dr. Cox is from Scripps Clinic, San Diego. Dr. Kraus is from the Department of Dermatology, University of California, Irvine. Dr. Elsensohn is from the Department of Dermatology, Loma Linda University, San Diego.

The authors report no conflict of interest.

Correspondence: Samantha Shwe Daniel, MD, MBA, Scripps Mercy Hospital, 4077 5th Ave MER35, San Diego, CA 92103 (daniel.samantha@scrippshealth.org).

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Verrucous carcinoma (VC) is an uncommon type of well-differentiated squamous cell carcinoma (SCC) that most commonly affects men in the fifth to sixth decades of life. 1 The tumor grows slowly over a decade or more and does not frequently metastasize but has a high propensity for recurrence and local invasion. 2  There are 3 main subtypes of VC classified by anatomic site: oral florid papillomatosis (oral cavity), Buschke-Lowenstein tumor (anogenital region), and epithelioma cuniculatum (EC)(feet). 3 Epithelioma cuniculatum, also known as carcinoma cuniculatum or papillomatosis cutis carcinoides, most commonly presents as a solitary, warty or cauliflowerlike, exophytic mass with keratin-filled sinus tracts and malodorous discharge. 4 Diabetic foot ulcers and chronic inflammatory conditions are predisposing risk factors for EC, and it can result in difficulty walking/immobility, pain, and bleeding depending on anatomic involvement. 5-9

The differential diagnosis for VC includes refractory verruca vulgaris, clavus, SCC, keratoacanthoma, deep fungal or mycobacterial infection, eccrine poroma or porocarcinoma, amelanotic melanoma, and sarcoma.10-13 The slow-growing nature of VC, sampling error of superficial biopsies, and minimal cytological atypia on histologic examination can contribute to delayed diagnosis and appropriate treatment.14 Characteristic histologic features include hyperkeratosis, papillomatosis, marked acanthosis, broad blunt-ended rete ridges with a “bulldozing” architecture, and minimal cytologic atypia and mitoses.5,6 In some cases, pleomorphism and glassy eosinophilic cytoplasmic changes may be more pronounced than that of a common wart though less dramatic than that of conventional SCCs.15 Antigen Ki-67 and tumor protein p53 have been proposed to help differentiate between common plantar verruca, VC, and SCC, but the histologic diagnosis remains challenging, and repeat histopathologic examination often is required.16-19 Following diagnosis, computed tomography or magnetic resonance imaging may be necessary to determine tumor extension and assess for deep tissue and bony involvement.20-22

Treatment of EC is particularly challenging because of the anatomic location and need for margin control while maintaining adequate function, preserving healthy tissue, and providing coverage of defects. Surgical excision of EC is the first-line treatment, most commonly by wide local excision (WLE) or amputation. Mohs micrographic surgery (MMS) also has been utilized. One review found no recurrences in 5 cases of EC treated with MMS.23 As MMS is a tissue-sparing technique, this is a valuable modality for sites of functional importance such as the feet. Herein, we review various reported EC treatment modalities and outcomes, with an emphasis on recurrence rates for WLE and MMS.

METHODS

A systematic literature review of PubMed articles indexed for MEDLINE, as well as databases including the Cochrane Library, Web of Science, and Cumulative Index to Nursing and Allied Health Literature (CINAHL), was performed on January 14, 2020. Two authors (S.S.D. and S.V.C.) independently screened results using the search terms (plantar OR foot) AND (verrucous carcinoma OR epithelioma cuniculatum OR carcinoma cuniculatum). The search terms were chosen according to MeSH subject headings. All articles from the start date of the databases through the search date were screened, and articles pertaining to VC, EC, or carcinoma cuniculatum located on the foot were included. Of these, non–English-language articles were translated and included. Articles reporting VC on a site other than the foot (eg, the oral cavity) or benign verrucous skin lesions were excluded. The reference lists for all articles also were reviewed for additional reports that were absent from the initial search using both included and excluded articles. A full-text review was performed on 221 articles published between 1954 and 2019 per the PRISMA guidelines (Figure).

PRISMA flow diagram of the screening process for a systematic review of the literature using the search terms
PRISMA flow diagram of the screening process for a systematic review of the literature using the search terms (plantar OR foot) AND (verrucous carcinoma OR epithelioma cuniculatum OR carcinoma cuniculatum). Reasons for exclusion of articles included unavailable full text, errata or responses, not verrucous carcinoma, not plantar, or not malignant. CINAHL indicates Cumulative Index to Nursing and Allied Health Literature.

A total of 101 articles were included in the study for qualitative analysis. Nearly all articles identified were case reports, giving an evidence level of 5 by the Centre for Evidence-Based Medicine rating scale. Five articles reported data on multiple patients without individual demographic or clinical details and were excluded from analysis. Of the remaining 96 articles, information about patient characteristics, tumor size, treatment modality, and recurrence were extracted for 115 cases.

RESULTS

Of the 115 cases that were reviewed, 81 (70%) were male and 33 (29%) were female with a male-to-female ratio of 2.4:1. Ages of the patients ranged from 18 to 88 years; the mean and median age was 56 years. Nearly all reported cases of EC affected the plantar surface of one foot, with 4 reports of tumors affecting both feet.24-27 One case affecting both feet reported known exposure to lead arsenate pesticides27; all others were associated with a clinical history of chronic ulcers or warts persisting for several years to decades. Other less common sites of EC included the dorsal foot, interdigital web space, and subungual digit.28-30 The most common location reported was the anterior ball of the foot. Tumors were reported to arise within pre-existing lesions, such as hypertrophic lichen planus or chronic foot wounds associated with diabetes mellitus or leprosy.31-35 Tumor size ranged from 1 to 22 cm with a median of 4.5 cm.

Eight cases were reported to be associated with human papillomavirus; low-risk types 6 and 11 and high-risk types 16 and 18 were found in 6 cases.36-41 Two cases reported association with human papillomavirus type 2.7,42

 

 

Metastases to dermal and subdermal lymphatics, regional lymph nodes, and the lungs were reported in 3 cases, repectively.43-45 Of these, one primary tumor had received low-dose irradiation in the form of X-ray therapy.45

Treatment Modalities

The cases of EC that we reviewed included treatment with surgical and systemic therapies as well as other modalities such as acitretin, interferon alfa, topical imiquimod, curettage, debridement, electrodesiccation, and radiation. The Table includes a complete summary of the treatments we analyzed.

Treatment and Recurrence of Epithelioma Cuniculatum

Surgical Therapy—The majority (91% [105/115]) of cases were treated surgically. The most common treatment modality was WLE (50% [58/115]), followed by amputation (37% [43/115]) and MMS (12% [14/115]).

Wide local excision was the most frequently reported treatment, with excision margins of at least 5 mm to 1 cm.48 Incidence of recurrence was reported for 57% (33/58) of cases treated with WLE; of these, the recurrence rate was 33% (11/33). For patients with EC recurrence, the most common secondary treatment was repeat excision with wider margins (1–2 cm) or amputation (5/11).49-52 Few postoperative complications were reported but included pain, infection, and difficulty walking, which were mostly associated with repair modality (eg, split-thickness skin grafts, rotational flaps).53 
Amputation was the second most common treatment modality, with a 67% (29/43) incidence of recurrence. Types of amputation included transmetatarsal ray amputation (7/43 [16%]), foot or forefoot amputation (2/43 [5%]), above-the-knee amputation (1/43 [2%]), and below-the-knee amputation (1/43 [2%]). Complications associated with amputation included infection and requirement of prosthetics for ambulation. Split-thickness skin grafts and rotational flaps were the most common surgical repairs performed.52,53

Mohs micrographic surgery was the least frequently reported surgical treatment modality. Both traditional MMS on fresh tissue and “slow Mohs,” with formalin-fixed paraffin embedded tissue examination over several days, were performed for EC with horizontal en face sectioning.54-56 Incidence of recurrence was reported for 86% (12/14) of MMS cases. Of these, recurrence was seen in 17% (2/12) that utilized a flat horizontal processing of tissue sections coupled with saucerlike excisions to enable examination of the entire undersurface and margins. In one case, the patient was treated with MMS with recurrence noted 1 month later; thus, repeat MMS was performed, and the tumor was found to be entwined around the flexor tendon.57 The tendon was removed, and clear margins were obtained. Follow-up 3 years after the second MMS revealed no signs of recurrence.57 In the other case, the patient had a particularly aggressive course with bilateral VC in the setting of diabetic ulcers that was treated with WLE prior to MMS and recurrence still noted after MMS.26 No complications were reported with MMS.

Overall, recurrence was most frequently reported with WLE (11/33 [33%]), followed by MMS (2/12 [17%]) and amputation (3/29 [10%]). When comparing WLE and amputation, the relationship between treatment modality and recurrence was statistically significant using a χ2 test of independence (χ2=4.7; P=.03). However, results were not significant with Yates correction for continuity (χ2=3.4; P=.06). The χ2 test of independence showed no significant association between treatment method and recurrence when comparing WLE with MMS (χ2=1.2; P=.28). Reported follow-up times varied greatly from a few months to 10 years.

Systemic Therapy—Of the total cases, only 2 cases reported treatment with acitretin and 2 utilized interferon alfa.58,59 In one case, treatment of EC with interferon alfa alone required more aggressive therapy (ie, amputation).58 Neither of the 2 cases using acitretin reported recurrence.59,60 Complications of acitretin therapy included cheilitis and transaminitis.60

 

 

Other Treatment Modalities—Three cases utilized imiquimod, with 2 cases of imiquimod monotherapy and 1 case of imiquimod in combination with electrodesiccation and WLE.37 One of the cases of EC treated with imiquimod monotherapy recurred and required WLE.61

There were reports of other treatments including curettage alone (2% [2/115]),40,62 debridement alone (1% [1/115]),40 electrodesiccation (1% [1/115]),37 and radiation (1% [1/115]).43 Recurrence was found with curettage alone and debridement alone. Electrodesiccation was reported in conjunction with WLE without recurrence. Radiation was used to treat a case of VC that had metastasized to the lymph nodes; no follow-up was described.43

COMMENT

Epithelioma cuniculatum is an indolent malignancy of the plantar foot that likely is frequently underdiagnosed or misdiagnosed because of location, sampling error, and challenges in histopathologic diagnosis. Once diagnosed, surgical removal with margin control is the first-line therapy for EC. Our review found a number of surgical, systemic, and other treatment modalities that have been used to treat EC, but there remains a lack of evidence to provide clear guidelines as to which therapies are most effective. Current data on the treatment of EC largely are limited to case reports and case series. To date, there are no reports of higher-quality studies or randomized controlled trials to assess the efficacy of various treatment modalities.

Our review found that WLE is the most common treatment modality for EC, followed by amputation and MMS. Three cases43-45 that reported metastasis to lymph nodes also were treated with fine-needle aspiration or biopsy, and it is recommended that sentinel lymph node biopsy be performed when there is a history of radiation exposure or clinically and sonographically unsuspicious lymph nodes, while dissection of regional nodes should be performed if lymph node metastasis is suspected.53 Additional treatments reported included acitretin, interferon alfa, topical imiquimod, curettage, debridement, and electrodesiccation, but because of the limited number of cases and variable efficacy, no conclusions can be made on the utility of these alternative modalities.

The lowest rate of reported recurrence was found with amputation, followed by MMS and WLE. Amputation is the most aggressive treatment option, but its superiority in lower recurrence rates was not statistically significant when compared with either WLE or MMS after Yates correction. Despite treatment with radical surgery, recurrence is still possible and may be associated with factors including greater size (>2 cm) and depth (>4 mm), poor histologic differentiation, perineural involvement, failure of previous treatments, and immunosuppression.63 No statistically significant difference in recurrence rates was found among surgical methods, though data trended toward lower rates of recurrence with MMS compared with WLE, as recurrence with MMS was only reported in 2 cases.25,56

The efficacy of MMS is well documented for tumors with contiguous growth and enables maximum preservation of normal tissue structure and function with complete margin visualization. Thus, our results are in agreement with those of prior studies,54-56,64 suggesting that MMS is associated with lower recurrence rates for EC than WLE. Future studies and reporting of MMS for EC are particularly important because of the functional importance of the plantar foot.

It is important to note that there are local and systemic risk factors that increase the likelihood of developing EC and facilitate tumor growth, including antecedent trauma to the lesion site, chronic irritation or infection, and immunosuppression (HIV related or iatrogenic medication induced). These risk factors may play a role in the treatment modality utilized (eg, more aggressive EC may be treated with amputation instead of WLE). Underlying patient comorbidities could potentially affect recurrence rates, which is a variable we could not control for in our analysis.

Our findings are limited by study design, with supporting evidence consisting of case reports and series. The review is limited by interstudy variability and heterogeneity of results. Additionally, recurrence is not reported in all cases and may be a source of sampling bias. Further complicating the generalizability of these results is the lack of follow-up to evaluate morbidity and quality of life after treatment.

CONCLUSION

This review suggests that MMS is associated with lower recurrence rates than WLE for the treatment of EC. Further investigation of MMS for EC with appropriate follow-up is necessary to identify whether MMS is associated with lower recurrence and less functional impairment. Nonsurgical treatments, including topical imiquimod, interferon alfa, and acitretin, may be useful in cases where surgical therapies are contraindicated, but there is little evidence to support these treatment modalities. Treatment guidelines for EC are not established, and appropriate treatment guidelines should be developed in the future.

Verrucous carcinoma (VC) is an uncommon type of well-differentiated squamous cell carcinoma (SCC) that most commonly affects men in the fifth to sixth decades of life. 1 The tumor grows slowly over a decade or more and does not frequently metastasize but has a high propensity for recurrence and local invasion. 2  There are 3 main subtypes of VC classified by anatomic site: oral florid papillomatosis (oral cavity), Buschke-Lowenstein tumor (anogenital region), and epithelioma cuniculatum (EC)(feet). 3 Epithelioma cuniculatum, also known as carcinoma cuniculatum or papillomatosis cutis carcinoides, most commonly presents as a solitary, warty or cauliflowerlike, exophytic mass with keratin-filled sinus tracts and malodorous discharge. 4 Diabetic foot ulcers and chronic inflammatory conditions are predisposing risk factors for EC, and it can result in difficulty walking/immobility, pain, and bleeding depending on anatomic involvement. 5-9

The differential diagnosis for VC includes refractory verruca vulgaris, clavus, SCC, keratoacanthoma, deep fungal or mycobacterial infection, eccrine poroma or porocarcinoma, amelanotic melanoma, and sarcoma.10-13 The slow-growing nature of VC, sampling error of superficial biopsies, and minimal cytological atypia on histologic examination can contribute to delayed diagnosis and appropriate treatment.14 Characteristic histologic features include hyperkeratosis, papillomatosis, marked acanthosis, broad blunt-ended rete ridges with a “bulldozing” architecture, and minimal cytologic atypia and mitoses.5,6 In some cases, pleomorphism and glassy eosinophilic cytoplasmic changes may be more pronounced than that of a common wart though less dramatic than that of conventional SCCs.15 Antigen Ki-67 and tumor protein p53 have been proposed to help differentiate between common plantar verruca, VC, and SCC, but the histologic diagnosis remains challenging, and repeat histopathologic examination often is required.16-19 Following diagnosis, computed tomography or magnetic resonance imaging may be necessary to determine tumor extension and assess for deep tissue and bony involvement.20-22

Treatment of EC is particularly challenging because of the anatomic location and need for margin control while maintaining adequate function, preserving healthy tissue, and providing coverage of defects. Surgical excision of EC is the first-line treatment, most commonly by wide local excision (WLE) or amputation. Mohs micrographic surgery (MMS) also has been utilized. One review found no recurrences in 5 cases of EC treated with MMS.23 As MMS is a tissue-sparing technique, this is a valuable modality for sites of functional importance such as the feet. Herein, we review various reported EC treatment modalities and outcomes, with an emphasis on recurrence rates for WLE and MMS.

METHODS

A systematic literature review of PubMed articles indexed for MEDLINE, as well as databases including the Cochrane Library, Web of Science, and Cumulative Index to Nursing and Allied Health Literature (CINAHL), was performed on January 14, 2020. Two authors (S.S.D. and S.V.C.) independently screened results using the search terms (plantar OR foot) AND (verrucous carcinoma OR epithelioma cuniculatum OR carcinoma cuniculatum). The search terms were chosen according to MeSH subject headings. All articles from the start date of the databases through the search date were screened, and articles pertaining to VC, EC, or carcinoma cuniculatum located on the foot were included. Of these, non–English-language articles were translated and included. Articles reporting VC on a site other than the foot (eg, the oral cavity) or benign verrucous skin lesions were excluded. The reference lists for all articles also were reviewed for additional reports that were absent from the initial search using both included and excluded articles. A full-text review was performed on 221 articles published between 1954 and 2019 per the PRISMA guidelines (Figure).

PRISMA flow diagram of the screening process for a systematic review of the literature using the search terms
PRISMA flow diagram of the screening process for a systematic review of the literature using the search terms (plantar OR foot) AND (verrucous carcinoma OR epithelioma cuniculatum OR carcinoma cuniculatum). Reasons for exclusion of articles included unavailable full text, errata or responses, not verrucous carcinoma, not plantar, or not malignant. CINAHL indicates Cumulative Index to Nursing and Allied Health Literature.

A total of 101 articles were included in the study for qualitative analysis. Nearly all articles identified were case reports, giving an evidence level of 5 by the Centre for Evidence-Based Medicine rating scale. Five articles reported data on multiple patients without individual demographic or clinical details and were excluded from analysis. Of the remaining 96 articles, information about patient characteristics, tumor size, treatment modality, and recurrence were extracted for 115 cases.

RESULTS

Of the 115 cases that were reviewed, 81 (70%) were male and 33 (29%) were female with a male-to-female ratio of 2.4:1. Ages of the patients ranged from 18 to 88 years; the mean and median age was 56 years. Nearly all reported cases of EC affected the plantar surface of one foot, with 4 reports of tumors affecting both feet.24-27 One case affecting both feet reported known exposure to lead arsenate pesticides27; all others were associated with a clinical history of chronic ulcers or warts persisting for several years to decades. Other less common sites of EC included the dorsal foot, interdigital web space, and subungual digit.28-30 The most common location reported was the anterior ball of the foot. Tumors were reported to arise within pre-existing lesions, such as hypertrophic lichen planus or chronic foot wounds associated with diabetes mellitus or leprosy.31-35 Tumor size ranged from 1 to 22 cm with a median of 4.5 cm.

Eight cases were reported to be associated with human papillomavirus; low-risk types 6 and 11 and high-risk types 16 and 18 were found in 6 cases.36-41 Two cases reported association with human papillomavirus type 2.7,42

 

 

Metastases to dermal and subdermal lymphatics, regional lymph nodes, and the lungs were reported in 3 cases, repectively.43-45 Of these, one primary tumor had received low-dose irradiation in the form of X-ray therapy.45

Treatment Modalities

The cases of EC that we reviewed included treatment with surgical and systemic therapies as well as other modalities such as acitretin, interferon alfa, topical imiquimod, curettage, debridement, electrodesiccation, and radiation. The Table includes a complete summary of the treatments we analyzed.

Treatment and Recurrence of Epithelioma Cuniculatum

Surgical Therapy—The majority (91% [105/115]) of cases were treated surgically. The most common treatment modality was WLE (50% [58/115]), followed by amputation (37% [43/115]) and MMS (12% [14/115]).

Wide local excision was the most frequently reported treatment, with excision margins of at least 5 mm to 1 cm.48 Incidence of recurrence was reported for 57% (33/58) of cases treated with WLE; of these, the recurrence rate was 33% (11/33). For patients with EC recurrence, the most common secondary treatment was repeat excision with wider margins (1–2 cm) or amputation (5/11).49-52 Few postoperative complications were reported but included pain, infection, and difficulty walking, which were mostly associated with repair modality (eg, split-thickness skin grafts, rotational flaps).53 
Amputation was the second most common treatment modality, with a 67% (29/43) incidence of recurrence. Types of amputation included transmetatarsal ray amputation (7/43 [16%]), foot or forefoot amputation (2/43 [5%]), above-the-knee amputation (1/43 [2%]), and below-the-knee amputation (1/43 [2%]). Complications associated with amputation included infection and requirement of prosthetics for ambulation. Split-thickness skin grafts and rotational flaps were the most common surgical repairs performed.52,53

Mohs micrographic surgery was the least frequently reported surgical treatment modality. Both traditional MMS on fresh tissue and “slow Mohs,” with formalin-fixed paraffin embedded tissue examination over several days, were performed for EC with horizontal en face sectioning.54-56 Incidence of recurrence was reported for 86% (12/14) of MMS cases. Of these, recurrence was seen in 17% (2/12) that utilized a flat horizontal processing of tissue sections coupled with saucerlike excisions to enable examination of the entire undersurface and margins. In one case, the patient was treated with MMS with recurrence noted 1 month later; thus, repeat MMS was performed, and the tumor was found to be entwined around the flexor tendon.57 The tendon was removed, and clear margins were obtained. Follow-up 3 years after the second MMS revealed no signs of recurrence.57 In the other case, the patient had a particularly aggressive course with bilateral VC in the setting of diabetic ulcers that was treated with WLE prior to MMS and recurrence still noted after MMS.26 No complications were reported with MMS.

Overall, recurrence was most frequently reported with WLE (11/33 [33%]), followed by MMS (2/12 [17%]) and amputation (3/29 [10%]). When comparing WLE and amputation, the relationship between treatment modality and recurrence was statistically significant using a χ2 test of independence (χ2=4.7; P=.03). However, results were not significant with Yates correction for continuity (χ2=3.4; P=.06). The χ2 test of independence showed no significant association between treatment method and recurrence when comparing WLE with MMS (χ2=1.2; P=.28). Reported follow-up times varied greatly from a few months to 10 years.

Systemic Therapy—Of the total cases, only 2 cases reported treatment with acitretin and 2 utilized interferon alfa.58,59 In one case, treatment of EC with interferon alfa alone required more aggressive therapy (ie, amputation).58 Neither of the 2 cases using acitretin reported recurrence.59,60 Complications of acitretin therapy included cheilitis and transaminitis.60

 

 

Other Treatment Modalities—Three cases utilized imiquimod, with 2 cases of imiquimod monotherapy and 1 case of imiquimod in combination with electrodesiccation and WLE.37 One of the cases of EC treated with imiquimod monotherapy recurred and required WLE.61

There were reports of other treatments including curettage alone (2% [2/115]),40,62 debridement alone (1% [1/115]),40 electrodesiccation (1% [1/115]),37 and radiation (1% [1/115]).43 Recurrence was found with curettage alone and debridement alone. Electrodesiccation was reported in conjunction with WLE without recurrence. Radiation was used to treat a case of VC that had metastasized to the lymph nodes; no follow-up was described.43

COMMENT

Epithelioma cuniculatum is an indolent malignancy of the plantar foot that likely is frequently underdiagnosed or misdiagnosed because of location, sampling error, and challenges in histopathologic diagnosis. Once diagnosed, surgical removal with margin control is the first-line therapy for EC. Our review found a number of surgical, systemic, and other treatment modalities that have been used to treat EC, but there remains a lack of evidence to provide clear guidelines as to which therapies are most effective. Current data on the treatment of EC largely are limited to case reports and case series. To date, there are no reports of higher-quality studies or randomized controlled trials to assess the efficacy of various treatment modalities.

Our review found that WLE is the most common treatment modality for EC, followed by amputation and MMS. Three cases43-45 that reported metastasis to lymph nodes also were treated with fine-needle aspiration or biopsy, and it is recommended that sentinel lymph node biopsy be performed when there is a history of radiation exposure or clinically and sonographically unsuspicious lymph nodes, while dissection of regional nodes should be performed if lymph node metastasis is suspected.53 Additional treatments reported included acitretin, interferon alfa, topical imiquimod, curettage, debridement, and electrodesiccation, but because of the limited number of cases and variable efficacy, no conclusions can be made on the utility of these alternative modalities.

The lowest rate of reported recurrence was found with amputation, followed by MMS and WLE. Amputation is the most aggressive treatment option, but its superiority in lower recurrence rates was not statistically significant when compared with either WLE or MMS after Yates correction. Despite treatment with radical surgery, recurrence is still possible and may be associated with factors including greater size (>2 cm) and depth (>4 mm), poor histologic differentiation, perineural involvement, failure of previous treatments, and immunosuppression.63 No statistically significant difference in recurrence rates was found among surgical methods, though data trended toward lower rates of recurrence with MMS compared with WLE, as recurrence with MMS was only reported in 2 cases.25,56

The efficacy of MMS is well documented for tumors with contiguous growth and enables maximum preservation of normal tissue structure and function with complete margin visualization. Thus, our results are in agreement with those of prior studies,54-56,64 suggesting that MMS is associated with lower recurrence rates for EC than WLE. Future studies and reporting of MMS for EC are particularly important because of the functional importance of the plantar foot.

It is important to note that there are local and systemic risk factors that increase the likelihood of developing EC and facilitate tumor growth, including antecedent trauma to the lesion site, chronic irritation or infection, and immunosuppression (HIV related or iatrogenic medication induced). These risk factors may play a role in the treatment modality utilized (eg, more aggressive EC may be treated with amputation instead of WLE). Underlying patient comorbidities could potentially affect recurrence rates, which is a variable we could not control for in our analysis.

Our findings are limited by study design, with supporting evidence consisting of case reports and series. The review is limited by interstudy variability and heterogeneity of results. Additionally, recurrence is not reported in all cases and may be a source of sampling bias. Further complicating the generalizability of these results is the lack of follow-up to evaluate morbidity and quality of life after treatment.

CONCLUSION

This review suggests that MMS is associated with lower recurrence rates than WLE for the treatment of EC. Further investigation of MMS for EC with appropriate follow-up is necessary to identify whether MMS is associated with lower recurrence and less functional impairment. Nonsurgical treatments, including topical imiquimod, interferon alfa, and acitretin, may be useful in cases where surgical therapies are contraindicated, but there is little evidence to support these treatment modalities. Treatment guidelines for EC are not established, and appropriate treatment guidelines should be developed in the future.

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  57. Mora RG. Microscopically controlled surgery (Mohs’ chemosurgery) for treatment of verrucous squamous cell carcinoma of the foot (epithelioma cuniculatum). J Am Acad Dermatol. 1983;8:354-362.
  58. Risse L, Negrier P, Dang PM, et al. Treatment of verrucous carcinoma with recombinant alfa-interferon. Dermatology. 1995;190:142-144.
  59. Rogozin´ski TT, Schwartz RA, Towpik E. Verrucous carcinoma in Unna-Thost hyperkeratosis of the palms and soles. J Am Acad Dermatol. 1994;31:1061-1062.
  60. Kuan YZ, Hsu HC, Kuo TT, et al. Multiple verrucous carcinomas treated with acitretin. J Am Acad Dermatol. 2007;56(2 suppl):S29-S32.
  61. Schalock PC, Kornik RI, Baughman RD, et al. Treatment of verrucous carcinoma with topical imiquimod. J Am Acad Dermatol. 2006;54:233-234.
  62. Brown SM, Freeman RG. Epithelioma cuniculatum. Arch Dermatol. 1976;112:1295-1296.
  63. Rowe DE, Carroll RJ, Day CL, et al. Prognostic factors for local recurrence, metastasis, and survival rates in squamous cell carcinoma of the skin, ear, and lip. J Am Acad Dermatol. 1992;26:976-990.
  64. Swanson NA, Taylor WB. Plantar verrucous carcinoma: literature review and treatment by the Mohs’ chemosurgery technique. Arch Dermatol. 1980;116:794-797.
References
  1. McKee PH, Wilkinson JD, Black MM, et al. Carcinoma (epithelioma) cuniculatum: a clinicopathological study of nineteen cases and review of the literature. Histopathology. 1981;5:425-436.
  2. Aird I, Johnson HD, Lennox B, et al. Epithelioma cuniculatum: a variety of squamous carcinoma peculiar to the foot. Br J Surg. 1954;42:245-250.
  3. Seremet S, Erdemir AT, Kiremitci U, et al. Unusually early-onset plantar verrucous carcinoma. Cutis. 2019;104:34-36.
  4. Spyriounis PK, Tentis D, Sparveri IF, et al. Plantar epithelioma cuniculatum. a case report with review of the literature. Eur J Plast Surg. 2004;27:253-256.
  5. Ho J, Diven G, Bu J, et al. An ulcerating verrucous plaque on the foot. verrucous carcinoma (epithelioma cuniculatum). Arch Dermatol. 2000;136:547-548, 550-551.
  6. Kao GF, Graham JH, Helwig EB. Carcinoma cuniculatum (verrucous carcinoma of the skin): a clinicopathologic study of 46 cases with ultrastructural observations. Cancer. 1982;49:2395-2403.
  7. Zielonka E, Goldschmidt D, de Fontaine S. Verrucous carcinoma or epithelioma cuniculatum plantare. Eur J Surg Oncol. 1997;23:86-87.
  8. Dogan G, Oram Y, Hazneci E, et al. Three cases of verrucous carcinoma. Australas J Dermatol. 1998;39:251-254.
  9. Schwartz RA, Burgess GH. Verrucous carcinoma of the foot. J Surg Oncol. 1980;14:333-339.
  10. McKay C, McBride P, Muir J. Plantar verrucous carcinoma masquerading as toe web intertrigo. Australas J Dermatol. 2012;53:2010-2012.
  11. Shenoy AS, Waghmare RS, Kavishwar VS, et al. Carcinoma cuniculatum of foot. Foot. 2011;21:207-208.
  12. Lozzi G, Perris K. Carcinoma cuniculatum. CMAJ. 2007;177:249-251.
  13. Schein O, Orenstein A, Bar-Meir E. Plantar verrucous carcicoma (epithelioma cuniculatum): rare form of the common wart. Isr Med Assoc J. 2006;8:885.
  14. Rheingold LM, Roth LM. Carcinoma of the skin of the foot exhibiting some verrucous features. Plast Reconstr Surg. 1978;61:605-609.
  15. Klima M, Kurtis B, Jordan PH. Verrucous carcinoma of skin. J Cutan Pathol. 1980;7:88-98.
  16. Nakamura Y, Kashiwagi K, Nakamura A, et al. Verrucous carcinoma of the foot diagnosed using p53 and Ki-67 immunostaining in a patient with diabetic neuropathy. Am J Dermatopathol. 2015;37:257-259.
  17. Costache M, Desa LT, Mitrache LE, et al. Cutaneous verrucous carcinoma—report of three cases with review of literature. Rom J Morphol Embryol. 2014;55:383-388.
  18. Terada T. Verrucous carcinoma of the skin: a report on 5 Japanese cases. Ann Diagn Pathol. 2011;15:175-180.
  19. Noel JC, Heenen M, Peny MO, et al. Proliferating cell nuclear antigen distribution in verrucous carcinoma of the skin. Br J Dermatol. 1995;133:868-873.
  20. García-Gavín J, González-Vilas D, Rodríguez-Pazos L, et al. Verrucous carcinoma of the foot affecting the bone: utility of the computed tomography scanner. Dermatol Online J. 2010;16:3-5.
  21. Wasserman PL, Taylor RC, Pinillia J, et al. Verrucous carcinoma of the foot and enhancement assessment by MRI. Skeletal Radiol. 2009;38:393-395.
  22. Bhushan MH, Ferguson JE, Hutchinson CE. Carcinoma cuniculatum of the foot assessed by magnetic resonance scanning. Clin Exp Dermatol. 2001;26:419-422.
  23. Penera KE, Manji KA, Craig AB, et al. Atypical presentation of verrucous carcinoma: a case study and review of the literature. Foot Ankle Spec. 2013;6:318-322.
  24. Suen K, Wijeratne S, Patrikios J. An unusual case of bilateral verrucous carcinoma of the foot (epithelioma cuniculatum). J Surg Case Rep. 2012;2012:rjs020.
  25. Riccio C, King K, Elston JB, et al. Bilateral plantar verrucous carcinoma. Eplasty. 2016;16:ic46.
  26. Di Palma V, Stone JP, Schell A, et al. Mistaken diabetic ulcers: a case of bilateral foot verrucous carcinoma. Case Rep Dermatol Med. 2018;2018:4192657.
  27. Seehafer JR, Muller SA, Dicken CH. Bilateral verrucous carcinoma of the feet. Orthop Surv. 1979;3:205.
  28. Tosti A, Morelli R, Fanti PA, et al. Carcinoma cuniculatum of the nail apparatus: report of three cases. Dermatology. 1993;186:217-221.
  29. Melo CR, Melo IS, Souza LP. Epithelioma cuniculatum, a verrucous carcinoma of the foot. report of 2 cases. Dermatologica. 1981;163:338-342.
  30. Van Geertruyden JP, Olemans C, Laporte M, et al. Verrucous carcinoma of the nail bed. Foot Ankle Int. 1998;19:327-328.
  31. Thakur BK, Verma S, Raphael V. Verrucous carcinoma developing in a long standing case of ulcerative lichen planus of sole: a rare case report. J Eur Acad Dermatol Venereol. 2015;29:399-401.
  32. Mayron R, Grimwood RE, Siegle RJ, et al. Verrucous carcinoma arising in ulcerative lichen planus of the soles. J Dermatol Surg Oncol. 1988;14:547-551.
  33. Boussofara L, Belajouza-Noueiri C, Ghariani N, et al. Verrucous epidermoid carcinoma as a complication in cutaneous lichen planus [article in French]. Ann Dermatol Venereol. 2006;133:404-405.
  34. Khullar G, Mittal S, Sharma S. Verrucous carcinoma on the foot arising in a chronic neuropathic ulcer of leprosy. Australas J Dermatol. 2019;60:245-246.
  35. Ochsner PE, Hausman R, Olsthoorn PGM. Epithelioma cunicalutum developing in a neuropathic ulcer of leprous etiology. Arch Orthop Trauma Surg. 1979;94:227-231.
  36. Ray R, Bhagat A, Vasudevan B, et al. A rare case of plantar epithelioma cuniculatum arising from a wart. Indian J Dermatol. 2015;60:485-487.
  37. Imko-Walczuk B, Cegielska A, Placek W, et al. Human papillomavirus-related verrucous carcinoma in a renal transplant patient after long-term immunosuppression: a case report. Transplant Proc. 2014;46:2916-2919.
  38. Floristán MU, Feltes RA, Sáenz JC, et al. Verrucous carcinoma of the foot associated with human papillomavirus type 18. Actas Dermosifiliogr. 2009;100:433-435.
  39. Sasaoka R, Morimura T, Mihara M, et al. Detection of human pupillomavirus type 16 DNA in two cases of verriicous carcinoma of the foot. Br J Dermatol. 1996;134:983984.
  40. Schell BJ, Rosen T, Rády P, et al. Verrucous carcinoma of the foot associated with human papillomavirus type 16. J Am Acad Dermatol. 2001;45:49-55.
  41. Knobler RM, Schneider S, Neumann RA, et al. DNA dot‐blot hybridization implicates human papillomavirus type 11‐DNA in epithelioma cuniculatum. J Med Virol. 1989;29:33-37.
  42. Noel JC, Peny MO, Detremmerie O, et al. Demonstration of human papillomavirus type 2 in a verrucous carcinoma of the foot. Dermatology. 1993;187:58-61.
  43. Jungmann J, Vogt T, Müller CSL. Giant verrucous carcinoma of the lower extremity in women with dementia. BMJ Case Rep. 2012;2012:bcr2012006357.
  44. McKee PH, Wilkinson JD, Corbett MF, et al. Carcinoma cuniculatum: a case metastasizing to skin and lymph nodes. Clin Exp Dermatol. 1981;6:613-618.
  45. Owen WR, Wolfe ID, Burnett JW, et al. Epithelioma cuniculatum. South Med J. 1978;71:477-479.
  46. Patel AN, Bedforth N, Varma S. Pain-free treatment of carcinoma cuniculatum on the heel using Mohs micrographic surgery and ultrasonography-guided sciatic nerve block. Clin Exp Dermatol. 2013;38:569-571.
  47. Padilla RS, Bailin PL, Howard WR, et al. Verrucous carcinoma of the skin and its management by Mohs’ surgery. Plast Reconstr Surg. 1984;73:442-447.
  48. Kotwal M, Poflee S, Bobhate S. Carcinoma cuniculatum at various anatomical sites. Indian J Dermatol. 2005;50:216-220.
  49. Arefi M, Philipone E, Caprioli R, et al. A case of verrucous carcinoma (epithelioma cuniculatum) of the heel mimicking infected epidermal cyst and gout. Foot Ankle Spec. 2008;1:297-299.
  50. Trebing D, Brunner M, Kröning Y, et al. Young man with verrucous heel tumor [article in German]. J Dtsch Dermatol Ges. 2003;9:739-741.
  51. Thompson SG. Epithelioma cuniculatum: an unusual tumour of the foot. Br J Plast Surg. 1965;18:214-217.
  52. Thomas EJ, Graves NC, Meritt SM. Carcinoma cuniculatum: an atypical presentation in the foot. J Foot Ankle Surg. 2014;53:356-359.
  53. Koch H, Kowatsch E, Hödl S, et al. Verrucous carcinoma of the skin: long-term follow-up results following surgical therapy. Dermatol Surg. 2004;30:1124-1130.
  54. Mallatt BD, Ceilley RI, Dryer RF. Management of verrucous carcinoma on a foot by a combination of chemosurgery and plastic repair: report of a case. J Dermatol Surg Oncol. 1980;6:532-534.
  55. Mohs FE, Sahl WJ. Chemosurgery for verrucous carcinoma. J Dermatol Surg Oncol. 1979;5:302-306.
  56. Alkalay R, Alcalay J, Shiri J. Plantar verrucous carcinoma treated with Mohs micrographic surgery: a case report and literature review. J Drugs Dermatol. 2006;5:68-73.
  57. Mora RG. Microscopically controlled surgery (Mohs’ chemosurgery) for treatment of verrucous squamous cell carcinoma of the foot (epithelioma cuniculatum). J Am Acad Dermatol. 1983;8:354-362.
  58. Risse L, Negrier P, Dang PM, et al. Treatment of verrucous carcinoma with recombinant alfa-interferon. Dermatology. 1995;190:142-144.
  59. Rogozin´ski TT, Schwartz RA, Towpik E. Verrucous carcinoma in Unna-Thost hyperkeratosis of the palms and soles. J Am Acad Dermatol. 1994;31:1061-1062.
  60. Kuan YZ, Hsu HC, Kuo TT, et al. Multiple verrucous carcinomas treated with acitretin. J Am Acad Dermatol. 2007;56(2 suppl):S29-S32.
  61. Schalock PC, Kornik RI, Baughman RD, et al. Treatment of verrucous carcinoma with topical imiquimod. J Am Acad Dermatol. 2006;54:233-234.
  62. Brown SM, Freeman RG. Epithelioma cuniculatum. Arch Dermatol. 1976;112:1295-1296.
  63. Rowe DE, Carroll RJ, Day CL, et al. Prognostic factors for local recurrence, metastasis, and survival rates in squamous cell carcinoma of the skin, ear, and lip. J Am Acad Dermatol. 1992;26:976-990.
  64. Swanson NA, Taylor WB. Plantar verrucous carcinoma: literature review and treatment by the Mohs’ chemosurgery technique. Arch Dermatol. 1980;116:794-797.
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  • Because of its slow-growing nature and propensity for local invasion and recurrence, diagnosis of epithelioma cuniculatum (EC) often is delayed and therefore can be associated with notable morbidity.
  • Wide local excision with 5-mm to 1-cm margins is considered standard of care and is the most commonly reported treatment of EC. Amputation may be required in cases with extensive local destruction.
  • Mohs micrographic surgery is a viable option for treatment of EC, with more recent cases suggesting favorable outcomes regarding recurrence rates.
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Calcinosis Cutis Associated With Subcutaneous Glatiramer Acetate

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Calcinosis Cutis Associated With Subcutaneous Glatiramer Acetate

To the Editor:

Calcinosis cutis is a condition characterized by the deposition of insoluble calcium salts in the skin. Dystrophic calcinosis cutis is the most common type, occurring in previously traumatized skin in the absence of abnormal blood calcium levels. It commonly is seen in patients with connective tissue diseases and is thought to be precipitated by chronic inflammation and vascular hypoxia.1 Herein, we describe a case of calcinosis cutis arising after treatment with subcutaneous glatiramer acetate, an agent that is effective for the treatment of relapsing-remitting multiple sclerosis (MS). Diagnostic workup and treatment modalities for calcinosis cutis in this patient population should be considered in the context of minimizing interruption or discontinuation of this disease-modifying agent.

A 53-year-old woman with a history of relapsing-remitting MS and systemic lupus erythematosus (SLE) presented with multiple firm asymptomatic subcutaneous nodules on the thighs of 1 year’s duration that were increasing in number. The involved areas were the injection sites of subcutaneous glatiramer acetate, an immunomodulator for the treatment of MS, which our patient self-administered 3 times weekly. Physical examination revealed multiple flesh-colored to white, firm, and nontender nodules on the thighs (Figure). There was no epidermal change, and she had no other skin involvement. A punch biopsy of one of the nodules revealed calcium deposits in collagen bundles of the deep dermis. Calcium, phosphorus, parathyroid hormone, and vitamin D levels were within reference range. She declined further treatment for the calcinosis cutis and opted to continue treatment with glatiramer acetate, as her MS was well controlled on this medication.

Multiple firm, nontender, flesh-colored to white nodules on the thigh.
Multiple firm, nontender, flesh-colored to white nodules on the thigh.

Glatiramer acetate is an immunogenic polypeptide injectable that is approved by the US Food and Drug Administration for the treatment of relapsing-remitting MS.2 It is composed of synthetic polypeptides and contains 4 naturally occurring amino acids. Glatiramer acetate is administered subcutaneously as 20 mg/mL/d or 40 mg/mL 3 times weekly. Transient injection-site reactions are the most common cutaneous adverse events and include localized edema, induration, erythema, pain, and pruritus.3 There have been multiple reports of lobular panniculitis and skin necrosis as well as embolia cutis medicamentosa (Nicolau syndrome).4,5 Our case of calcinosis cutis related to glatiramer acetate is unique. The mechanism of calcinosis cutis in our patient likely was dystrophic due to tissue damage, rather than due to the injection of a calcium-containing substance. Our patient’s history of SLE is a notable risk factor for the development of calcinosis cutis, likely incited by the trauma occurring with subcutaneous injections.6

The mainstay of treatment for localized calcinosis cutis in the setting of connective tissue disease is surgical excision as well as treatment of the underlying disorder. Potential therapies include calcium channel blockers, warfarin, bisphosphonates, intravenous immunoglobulin, minocycline, colchicine, anti–tumor necrosis factor agents, intralesional corticosteroids, intravenous sodium thiosulfate, and CO2 laser.1,6 Our patient was already on intravenous immunoglobulin for MS and hydroxychloroquine for SLE. In select cases where the patient is asymptomatic and prefers not to pursue treatment, no treatment is necessary.

Although calcinosis cutis may occur in SLE alone, it is uncommon and usually is seen in chronic severe SLE, where calcification usually occurs in the setting of pre-existing cutaneous lupus.4 This case report of calcinosis cutis following treatment with glatiramer acetate highlights some of the cutaneous side effects associated with glatiramer acetate injections and should prompt practitioners to consider dystrophic calcinosis cutis in patients requiring subcutaneous medications, particularly in those with pre-existing connective tissue disease.

References
  1. Valenzuela A, Chung L. Calcinosis: pathophysiology and management. Curr Opin Rheumatol. 2015;27:542-548.
  2. Copaxone. Prescribing information. Teva Neuroscience, Inc; 2022. Accessed July 15, 2022. https://www.copaxone.com/globalassets/copaxone/prescribing-information.pdf
  3. McKeage K. Glatiramer acetate 40 mg/mL in relapsing-remitting multiple sclerosis: a review. CNS Drugs. 2015;29:425-432.
  4. Balak DMW, Hengstman GJD, Çakmak A, et al. Cutaneous adverse events associated with disease-modifying treatment in multiple sclerosis: a systematic review. Mult Scler. 2012;18:1705-1717.
  5. Watkins CE, Litchfield J, Youngberg G, et al. Glatiramer acetate-induced lobular panniculitis and skin necrosis. Cutis. 2015;95:E26-E30.
  6. Reiter N, El-Shabrawi L, Leinweber B, et al. Calcinosis cutis. J Am Acad Dermatol. 2011;65:1-12.
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From the Department of Dermatology, University of California, Irvine.

The authors report no conflict of interest.

Correspondence: Christina N. Kraus, MD, UC Irvine Dermatology, 118 Med Surge I, Irvine, CA 92697-2400 (ckraus@uci.edu).

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From the Department of Dermatology, University of California, Irvine.

The authors report no conflict of interest.

Correspondence: Christina N. Kraus, MD, UC Irvine Dermatology, 118 Med Surge I, Irvine, CA 92697-2400 (ckraus@uci.edu).

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From the Department of Dermatology, University of California, Irvine.

The authors report no conflict of interest.

Correspondence: Christina N. Kraus, MD, UC Irvine Dermatology, 118 Med Surge I, Irvine, CA 92697-2400 (ckraus@uci.edu).

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To the Editor:

Calcinosis cutis is a condition characterized by the deposition of insoluble calcium salts in the skin. Dystrophic calcinosis cutis is the most common type, occurring in previously traumatized skin in the absence of abnormal blood calcium levels. It commonly is seen in patients with connective tissue diseases and is thought to be precipitated by chronic inflammation and vascular hypoxia.1 Herein, we describe a case of calcinosis cutis arising after treatment with subcutaneous glatiramer acetate, an agent that is effective for the treatment of relapsing-remitting multiple sclerosis (MS). Diagnostic workup and treatment modalities for calcinosis cutis in this patient population should be considered in the context of minimizing interruption or discontinuation of this disease-modifying agent.

A 53-year-old woman with a history of relapsing-remitting MS and systemic lupus erythematosus (SLE) presented with multiple firm asymptomatic subcutaneous nodules on the thighs of 1 year’s duration that were increasing in number. The involved areas were the injection sites of subcutaneous glatiramer acetate, an immunomodulator for the treatment of MS, which our patient self-administered 3 times weekly. Physical examination revealed multiple flesh-colored to white, firm, and nontender nodules on the thighs (Figure). There was no epidermal change, and she had no other skin involvement. A punch biopsy of one of the nodules revealed calcium deposits in collagen bundles of the deep dermis. Calcium, phosphorus, parathyroid hormone, and vitamin D levels were within reference range. She declined further treatment for the calcinosis cutis and opted to continue treatment with glatiramer acetate, as her MS was well controlled on this medication.

Multiple firm, nontender, flesh-colored to white nodules on the thigh.
Multiple firm, nontender, flesh-colored to white nodules on the thigh.

Glatiramer acetate is an immunogenic polypeptide injectable that is approved by the US Food and Drug Administration for the treatment of relapsing-remitting MS.2 It is composed of synthetic polypeptides and contains 4 naturally occurring amino acids. Glatiramer acetate is administered subcutaneously as 20 mg/mL/d or 40 mg/mL 3 times weekly. Transient injection-site reactions are the most common cutaneous adverse events and include localized edema, induration, erythema, pain, and pruritus.3 There have been multiple reports of lobular panniculitis and skin necrosis as well as embolia cutis medicamentosa (Nicolau syndrome).4,5 Our case of calcinosis cutis related to glatiramer acetate is unique. The mechanism of calcinosis cutis in our patient likely was dystrophic due to tissue damage, rather than due to the injection of a calcium-containing substance. Our patient’s history of SLE is a notable risk factor for the development of calcinosis cutis, likely incited by the trauma occurring with subcutaneous injections.6

The mainstay of treatment for localized calcinosis cutis in the setting of connective tissue disease is surgical excision as well as treatment of the underlying disorder. Potential therapies include calcium channel blockers, warfarin, bisphosphonates, intravenous immunoglobulin, minocycline, colchicine, anti–tumor necrosis factor agents, intralesional corticosteroids, intravenous sodium thiosulfate, and CO2 laser.1,6 Our patient was already on intravenous immunoglobulin for MS and hydroxychloroquine for SLE. In select cases where the patient is asymptomatic and prefers not to pursue treatment, no treatment is necessary.

Although calcinosis cutis may occur in SLE alone, it is uncommon and usually is seen in chronic severe SLE, where calcification usually occurs in the setting of pre-existing cutaneous lupus.4 This case report of calcinosis cutis following treatment with glatiramer acetate highlights some of the cutaneous side effects associated with glatiramer acetate injections and should prompt practitioners to consider dystrophic calcinosis cutis in patients requiring subcutaneous medications, particularly in those with pre-existing connective tissue disease.

To the Editor:

Calcinosis cutis is a condition characterized by the deposition of insoluble calcium salts in the skin. Dystrophic calcinosis cutis is the most common type, occurring in previously traumatized skin in the absence of abnormal blood calcium levels. It commonly is seen in patients with connective tissue diseases and is thought to be precipitated by chronic inflammation and vascular hypoxia.1 Herein, we describe a case of calcinosis cutis arising after treatment with subcutaneous glatiramer acetate, an agent that is effective for the treatment of relapsing-remitting multiple sclerosis (MS). Diagnostic workup and treatment modalities for calcinosis cutis in this patient population should be considered in the context of minimizing interruption or discontinuation of this disease-modifying agent.

A 53-year-old woman with a history of relapsing-remitting MS and systemic lupus erythematosus (SLE) presented with multiple firm asymptomatic subcutaneous nodules on the thighs of 1 year’s duration that were increasing in number. The involved areas were the injection sites of subcutaneous glatiramer acetate, an immunomodulator for the treatment of MS, which our patient self-administered 3 times weekly. Physical examination revealed multiple flesh-colored to white, firm, and nontender nodules on the thighs (Figure). There was no epidermal change, and she had no other skin involvement. A punch biopsy of one of the nodules revealed calcium deposits in collagen bundles of the deep dermis. Calcium, phosphorus, parathyroid hormone, and vitamin D levels were within reference range. She declined further treatment for the calcinosis cutis and opted to continue treatment with glatiramer acetate, as her MS was well controlled on this medication.

Multiple firm, nontender, flesh-colored to white nodules on the thigh.
Multiple firm, nontender, flesh-colored to white nodules on the thigh.

Glatiramer acetate is an immunogenic polypeptide injectable that is approved by the US Food and Drug Administration for the treatment of relapsing-remitting MS.2 It is composed of synthetic polypeptides and contains 4 naturally occurring amino acids. Glatiramer acetate is administered subcutaneously as 20 mg/mL/d or 40 mg/mL 3 times weekly. Transient injection-site reactions are the most common cutaneous adverse events and include localized edema, induration, erythema, pain, and pruritus.3 There have been multiple reports of lobular panniculitis and skin necrosis as well as embolia cutis medicamentosa (Nicolau syndrome).4,5 Our case of calcinosis cutis related to glatiramer acetate is unique. The mechanism of calcinosis cutis in our patient likely was dystrophic due to tissue damage, rather than due to the injection of a calcium-containing substance. Our patient’s history of SLE is a notable risk factor for the development of calcinosis cutis, likely incited by the trauma occurring with subcutaneous injections.6

The mainstay of treatment for localized calcinosis cutis in the setting of connective tissue disease is surgical excision as well as treatment of the underlying disorder. Potential therapies include calcium channel blockers, warfarin, bisphosphonates, intravenous immunoglobulin, minocycline, colchicine, anti–tumor necrosis factor agents, intralesional corticosteroids, intravenous sodium thiosulfate, and CO2 laser.1,6 Our patient was already on intravenous immunoglobulin for MS and hydroxychloroquine for SLE. In select cases where the patient is asymptomatic and prefers not to pursue treatment, no treatment is necessary.

Although calcinosis cutis may occur in SLE alone, it is uncommon and usually is seen in chronic severe SLE, where calcification usually occurs in the setting of pre-existing cutaneous lupus.4 This case report of calcinosis cutis following treatment with glatiramer acetate highlights some of the cutaneous side effects associated with glatiramer acetate injections and should prompt practitioners to consider dystrophic calcinosis cutis in patients requiring subcutaneous medications, particularly in those with pre-existing connective tissue disease.

References
  1. Valenzuela A, Chung L. Calcinosis: pathophysiology and management. Curr Opin Rheumatol. 2015;27:542-548.
  2. Copaxone. Prescribing information. Teva Neuroscience, Inc; 2022. Accessed July 15, 2022. https://www.copaxone.com/globalassets/copaxone/prescribing-information.pdf
  3. McKeage K. Glatiramer acetate 40 mg/mL in relapsing-remitting multiple sclerosis: a review. CNS Drugs. 2015;29:425-432.
  4. Balak DMW, Hengstman GJD, Çakmak A, et al. Cutaneous adverse events associated with disease-modifying treatment in multiple sclerosis: a systematic review. Mult Scler. 2012;18:1705-1717.
  5. Watkins CE, Litchfield J, Youngberg G, et al. Glatiramer acetate-induced lobular panniculitis and skin necrosis. Cutis. 2015;95:E26-E30.
  6. Reiter N, El-Shabrawi L, Leinweber B, et al. Calcinosis cutis. J Am Acad Dermatol. 2011;65:1-12.
References
  1. Valenzuela A, Chung L. Calcinosis: pathophysiology and management. Curr Opin Rheumatol. 2015;27:542-548.
  2. Copaxone. Prescribing information. Teva Neuroscience, Inc; 2022. Accessed July 15, 2022. https://www.copaxone.com/globalassets/copaxone/prescribing-information.pdf
  3. McKeage K. Glatiramer acetate 40 mg/mL in relapsing-remitting multiple sclerosis: a review. CNS Drugs. 2015;29:425-432.
  4. Balak DMW, Hengstman GJD, Çakmak A, et al. Cutaneous adverse events associated with disease-modifying treatment in multiple sclerosis: a systematic review. Mult Scler. 2012;18:1705-1717.
  5. Watkins CE, Litchfield J, Youngberg G, et al. Glatiramer acetate-induced lobular panniculitis and skin necrosis. Cutis. 2015;95:E26-E30.
  6. Reiter N, El-Shabrawi L, Leinweber B, et al. Calcinosis cutis. J Am Acad Dermatol. 2011;65:1-12.
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Calcinosis Cutis Associated With Subcutaneous Glatiramer Acetate
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Practice Points

  • Glatiramer acetate is a subcutaneous injection utilized for relapsing-remitting multiple sclerosis, and common adverse effects include injection-site reactions such as calcinosis cutis.
  • Development of calcinosis cutis in association with glatiramer acetate is not an indication for medication discontinuation.
  • Dermatologists should be aware of this potential association, and treatment should be considered in cases of symptomatic calcinosis cutis.
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