Introduction

Polymorphous light eruption (PMLE), also known as a polymorphic light eruption, is the most common photodermatosis, with some studies having shown an incidence that approaches 10% of the population in certain ethnic groups. Familial clustering and a higher incidence in some ethnic groups suggest a genetic predisposition, although the precise pathogenesis is not well understood. It is thought that PMLE represents a form of a delayed-type hypersensitivity process (type IV). PMLE may be precipitated by ultraviolet A (UVA) light (most common), UVB light ( Fig. 19.1 ), or both, depending on the patient.

Phototest with red plaques being produced in as little as 2 seconds of UVB exposure.

Clinical Features

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  PMLE is more common in women, and it generally presents in the first 3 decades of life.

  
  
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  Patients with PMLE usually develop a photoexposed eruption in the early spring, with fewer lesions later in the summer (due to hardening) or in the fall, when the UV light intensity wanes.

  
  
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  The threshold of exposure necessary for the development of lesions may vary from 5 minutes to 3 hours.

  
  
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  The delay between UV light exposure to the development of lesions is highly variable (30 minutes to 3 days).

  
  
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  The morphology of PMLE varies widely (hence the term polymorphous) and includes macular erythema ( Fig. 19.2 ), erythematous papules and plaques ( Figs. 19.3 and 19.4 ), and papulovesicles with a dermatitic appearance ( Fig. 19.5 ). In some cases, the lesions may resemble urticaria or erythema multiforme.

  
  

  
  

  
  

  

  
  

  
  

  Young lady with macular erythema of the cheeks, nose, and chin that resemble the malar rash of systemic lupus erythematosus.

  
  

  (From the William Weston Collection, Aurora, CO.)

  
  

  
  

  
  

  

  
  

  
  

  Young child with red indurated plaques confined to the sun-exposed portions of the arm.

  
  

  (From the William Weston Collection, Aurora, CO.)

  
  

  
  

  
  

  

  
  

  
  

  Polymorphous light eruption presenting as plaques of the cheek in a young man.

  
  

  (From the Fitzsimons Army Medical Center Collection, Aurora, CO.)

  
  

  
  

  
  

  

  
  

  
  

  Crusted dermatitic presentation of polymorphous light eruption in a child.

  
  

  (From the William Weston Collection, Aurora, CO.)

  
  
  
  
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  Pruritus is common.

Clinical Diagnosis

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  Clinical circumstances, including an affirmative family history, or appropriate ethnic background, may suggest the diagnosis.

  
  
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  A 3- or 4-mm punch biopsy may be supportive, but the histologic changes are not always diagnostic of only PMLE.

  
  
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  Screening laboratory studies to consider include antinuclear antibody (ANA) or extractable nuclear antigen antibody (ENA) testing and determination of urine or stool porphyrin levels to exclude porphyria.

  
  
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  Rare cases may require phototesting (see Fig. 19.1 ).

Treatment

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  Artificial light exposure can be used to harden an individual and decrease observed disease. Narrow-band UVB (NB-UVB) is the preferred modality, followed by PUVA (psoralen plus UVA). Broadband UVB is less effective.

  
  
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  Oral hydroxychloroquine (200–400 mg qd) is effective for many patients.

  
  
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  Oral β-carotene (25–50 mg tid) is effective for some patients.

  
  
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  Oral nicotinamide (1 g tid) induced complete remission in 14 of 25 patients and improved the course of disease in the remaining 11 patients.

  
  
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  Topical corticosteroids may be helpful, with the strength of the corticosteroid varied according to the amount of disease that is present and the skin affected.

  
  
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  Sun avoidance behaviors, sun-blocking clothing, and broad-spectrum sunscreens (with UVA and UVB protection) are important strategies to minimize disease activity.

Clinical Course

Lesions of PMLE typically last for 1 to 3 weeks and heal without scarring. The disorder may persist for decades, but the condition usually remits later in life.

Pathogenesis

Photoallergic drug eruptions are eczematoid tissue reactions that occur after the ingestion of a medication, vitamin, supplement, or even a preservative in food, but the condition requires light exposure for the reaction to transpire. Photoallergic drug reactions can be induced by UVA (most common) or UVB light. Many texts have combined photoallergic and phototoxic drug eruptions into one category of photosensitive drug eruptions, but the processes are distinct, and a separate discussion is warranted.

Clinical Features

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  With prior sensitization, photoallergic reactions usually occur 1 day after re-exposure. A new exposure may take up to 3 weeks to foment as a photoallergy.

  
  
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  The condition causes a photodistributed dermatitis that usually involves the face, posterior neck, upper chest, arms, and hands. There is usually sparing beneath the chin, in a natural shadow area.

  
  
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  The condition can spread somewhat to non–sun-exposed areas as UV light penetrates clothing.

  
  
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  Primary lesions vary from macular erythema to indurated eczematous plaques or even, on occasion, vesiculobullous reactions ( Figs. 19.6–19.8 ).

  
  

  
  

  
  

  

  
  

  
  

  Patient with photoallergic dermatitis manifesting as pruritic erythema on the forehead, malar cheeks, and chin due to cotrimoxazole.

  
  

  (From the Fitzsimons Army Medical Center Collection, Aurora, CO.)

  
  

  
  

  
  

  

  
  

  
  

  Patient with photoallergic erythema and induration of the malar cheeks and V of the neck caused by hydrochlorothiazide, one of the most common causes of photoallergic drug eruptions.

  
  

  
  

  
  

  

  
  

  
  

  Patient with eczematoid photoallergic erythema of the ears, lateral neck, and V of the neck caused by prochlorperazine, which is a relatively uncommon cause of photoallergy.

  
  
  
  
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  In contrast to phototoxic drug eruptions, which produce discomfort or pain similar to that of a sunburn, photoallergic drug eruptions are usually pruritic.

Clinical Diagnosis

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  A pruritic dermatitis, in a photodistributed or photoaccentuated pattern, and occurring in a patient taking medication(s) or a suspicious exogenous agents, raises concern for a photoallergic drug eruption.

  
  
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  In some cases, it is difficult to distinguish a photoallergic drug eruption from a contact dermatitis to pollen or sunscreen, which tend to occur on photoexposed portions of the skin.

  
  
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  Biopsies demonstrate nonspecific features of dermatitis but are only useful in excluding some photosensitive conditions, such as lupus erythematosus, dermatomyositis, or phototoxic drug eruption.

  
  
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  In many cases, the diagnosis is only definitively established after removal of the suspected exogenous agent, with observed clinical improvement.

Treatment

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  Withdrawal of the suspected exogenous agent is a critical element of management.

  
  
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  Sunlight and allergen avoidance are important to management. Patients should understand that UVA wavelengths, which produce most drug-induced photoallergic drug eruptions, can pass through window glass and produce disease.

  
  
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  Use of moderate to potent topical corticosteroids is an effective topical treatment.

  
  
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  Severe cases may require 3 to 14 days of oral prednisone (10–40 mg per day).

Clinical Course

Discontinuing the offending drug usually results in complete resolution in 2 to 3 weeks, although some reactions may persist for a longer duration.

Pathogenesis

Phototoxic drug eruptions are dose-related events. Because the reactions are not immunologically mediated, the condition will occur in any person given enough of the drug and incurring sufficient light exposure. In many cases, phototoxic drug eruptions resemble sunburn, but some drugs produce characteristic reactions, such as the onycholysis observed with tetracyclines or bullous reactions, which resemble porphyria cutaneous tarda caused by naproxen. Rarely, phototoxic eruptions are due to foods (e.g., celery root). Note that oral psoralen, in combination with UVA light (PUVA), is an intentional (iatrogenic) phototoxic drug eruption used to treat dermatologic disease.

Clinical Features

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  Patients usually demonstrate erythema in affected areas within hours after light exposure. This is in contrast to photoallergic eruptions, which take 1 day or longer to foment because of dependence on the immune system.

  
  
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  Erythema develops in a photodistributed pattern ( Figs. 19.9 and 19.10 ) and is often clinically indistinguishable from sunburn.

  
  

  
  

  
  

  

  
  

  
  

  Patient with phototoxic reaction manifesting as erythema of the face, lower neck, and upper chest attributable to tetracycline.

  
  

  (From the Fitzsimons Army Medical Center Collection, Aurora, CO.)

  
  

  
  

  
  

  

  
  

  
  

  Phototoxic reaction manifesting as erythema of the arms in a patient taking demeclocycline. Note that the area underneath the patient’s watchband is not involved.

  
  

  (From the Fitzsimons Army Medical Center Collection, Aurora, CO.)

  
  
  
  
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  Patients experience tender or painful skin that feels like sunburn.

  
  
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  Severe cases may blister—a second-degree phototoxic drug eruption.

  
  
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  Patients who continue to receive the drug and are exposed to light may develop variable erythema, which may be intermixed with variable hypopigmentation and hyperpigmentation ( Fig. 19.11 ).

  
  

  
  

  
  

  

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