(See also Overview of Pigmentation Disorders.)
Vitiligo affects up to 2% of the population.
Etiology of vitiligo is unclear, but melanocytes are lacking in affected areas. Proposed mechanisms include autoimmune destruction of melanocytes, reduced survival of melanocytes, and primary melanocyte defects.
Vitiligo can be familial (autosomal dominant with incomplete penetrance and variable expression) or acquired. Some patients have antibodies to melanin. Up to 30% have other autoimmune antibodies (to thyroglobulin, adrenal cells, and parietal cells) or clinical autoimmune endocrinopathies (Addison disease, diabetes mellitus, pernicious anemia, and thyroid dysfunction). However, the relationship is unclear and may be coincidental. The strongest association is with hyperthyroidism (Graves disease) and hypothyroidism (Hashimoto thyroiditis).
Occasionally, vitiligo occurs after a direct physical injury to the skin (eg, as a response to sunburn). Patients may associate the onset of vitiligo with emotional stress.
Vitiligo is characterized by hypopigmented or depigmented areas, usually sharply demarcated and often symmetric. Depigmentation may be localized, involving 1 or 2 spots or entire body segments (segmental vitiligo); rarely, it may be generalized, involving most of the skin surface (universal vitiligo). However, vitiligo most commonly involves the face (especially around the orifices), digits, dorsal hands, flexor wrists, elbows, knees, shins, dorsal ankles, armpits, inguinal area, anogenital area, umbilicus, and nipples. Cosmetic disfigurement can be especially severe and emotionally devastating in dark-skinned patients. Hair in vitiliginous areas is usually white.
Depigmented skin is typically obvious on examination. Subtle hypopigmented or depigmented lesions are accentuated under a Wood light (365 nm).
Differential diagnosis includes postinflammatory hypopigmentation, piebaldism (a rare autosomal dominant disorder in which depigmented patches surrounded by hyperpigmented areas occur most often on the forehead, neck, anterior trunk, and mid-extremities), morphea (localized scleroderma, in which skin is usually sclerotic), leprosy (in which lesions are usually hypoesthetic), lichen sclerosus, pityriasis alba, chemical leukoderma, and leukoderma due to melanoma.
Although there are no evidence-based guidelines, it is reasonable for physicians to do complete blood count, fasting blood glucose, and thyroid function tests as clinically indicated, guided by review of systems.
Treatment of vitiligo is supportive and cosmetic. Physicians must be aware of individual and ethnic sensibilities regarding uniform skin coloring; the disease can be psychologically devastating. All depigmented areas are prone to severe sunburn and must be protected with clothing or sunscreen.
Small, scattered lesions may be camouflaged with makeup. With more extensive involvement, treatment is usually aimed at repigmentation. However, little is known about comparative efficacies of such treatments. Traditional first-line therapy is potent topical corticosteroids, which may cause hypopigmentation or atrophy in normal surrounding skin. Calcineurin inhibitors (tacrolimus and pimecrolimus) may be particularly useful alternatives for treating areas of the skin (such as the face and groin) where adverse effects of topical corticosteroid therapy most commonly occur. Calcipotriene blended with betamethasone dipropionate may also be helpful and more successful than monotherapy with either drug.
Oral and topical PUVA are often successful, but over a hundred treatment sessions may be necessary, which can increase risk of skin cancer. Narrowband UVB is as effective as topical PUVA and has few adverse effects, making narrowband UVB preferable to PUVA. Narrowband UVB is often the preferred initial treatment for widespread vitiligo. Excimer laser (308 nm) may be useful, particularly for localized disease that does not respond to initial topical therapy.
Surgery is reasonable only for patients with stable, limited disease when medical therapy has failed. Therapies include autologous micrografting (1), suction blister grafting, and tattooing; tattooing is especially useful for difficult-to-repigment areas such as the nipples, lips, and fingertips.
Depigmentation of unaffected skin to achieve homogeneous skin tone is possible with 20% monobenzyl ether of hydroquinone applied twice daily. This treatment is indicated only when most of the skin is involved and the patient is prepared for permanent pigment loss and the subsequent increased risks of photo-induced skin damage (eg, skin cancers, photoaging). This treatment can be extremely irritating, so a smaller test area should be treated before widespread use. Treatment for ≥ 1 year may be required.
Janus kinase (JAK) inhibitors such as tofacitinib (JAK 1 and 3 inhibitors) and ruxolitinib (JAK 1 and 2 inhibitors) are emerging as possible treatment options for vitiligo (2). However, depigmentation can recur after these agents are stopped.
1. Gan EY, Kong YL, Tan WD, et al: Twelve-month and sixty-month outcomes of noncultured cellular grafting for vitiligo. J Am Acad Dermatol 75(3):564-571, 2016. doi: 10.1016/j.jaad.2016.04.007.
2. Rothstein B, Joshipura D, Saraiya A, et al: Treatment of vitiligo with the topical Janus kinase inhibitor ruxolitinib. J Am Acad Dermatol 76(6):1054-1060.e1. doi: 10.1016/j.jaad.2017.02.049.
Some cases of vitiligo may involve genetic mutations or autoimmune disorders.
Vitiligo can be focal, segmental, or, rarely, generalized.
Diagnose by skin examination and consider testing with complete blood count, fasting blood glucose, and thyroid function tests.
Consider treatments such as topical calcipotriene plus betamethasone dipropionate, corticosteroid topical monotherapy, narrowband UVB, or a calcineurin inhibitor (tacrolimus and pimecrolimus).