Comment
Postherpetic Cutaneous Reactions
Various cutaneous reactions can occur at the site of prior herpes infection. The most frequently reported reactions are granulomatous dermatitides such as granuloma annulare, granulomatous vasculitis, granulomatous folliculitis, sarcoidosis, and nonspecific granulomatous dermatitis. 1 Primary cutaneous malignancies and cutaneous metastases, including hematologic malignancies, have also been reported after herpetic infections. In a review of 127 patients with postherpetic cutaneous reactions, 47 had a granulomatous dermatitis, 32 had nonhematologic malignancies, 18 had leukemic or lymphomatous/pseudolymphomatous infiltrates, 10 had acneform lesions, 9 had nongranulomatous dermatitides such as lichen planus and allergic contact dermatitis, and 8 had nonherpetic skin infections; single cases of reactive perforating collagenosis, nodular solar degeneration, and a keloid also were reported. 1
Pathogenesis of Cutaneous Reactions
Although postherpetic cutaneous reactions can develop in healthy individuals, they occur more often in immunocompromised patients. Postherpetic isotopic response has been used to describe the development of a nonherpetic disease at the site of prior herpes infection. 2 Several different theories have been proposed to explain the pathogenesis of the PHIR, including an unusual delayed-type hypersensitivity reaction to residual viral antigen or host-tissue antigen altered by the virus. This delayed-type hypersensitivity explanation is supported by the presence of helper T cells, activated T lymphocytes, macrophages, varicella major viral envelope glycoproteins, and viral DNA in postherpetic granulomatous lesions 3; however, cases that lack detectable virus and viral DNA in these types of lesions also have been reported. 4
A second hypothesis proposes that inflammatory or viral-induced alteration of the local microvasculature results in increased site-specific susceptibility to subsequent inflammatory responses and drives these isotopic reactions. 2,3 Damage or alteration of local peripheral nerves leading to abnormal release of specific neuromediators involved in regulating cutaneous inflammatory responses also may play a role. 5 Varicella-zoster virus utilizes the peripheral nervous system to establish latent infection and can cause destruction of alpha delta and C nerve fibers in the dermis. 1 Destruction of nerve fibers may indirectly influence the local immune system by altering the release of neuromediators such as substance P (known to increase blood vessel permeability, increase fibrinolytic activity, and induce mast cell secretion), vasoactive intestinal peptide (enhances monocyte migration, increases histamine release from mast cells, and inhibits natural killer cell activity), calcitonin gene-related peptide (increases vascular permeability, endothelial cell proliferation, and the accumulation of neutrophils), and melanocyte-stimulating hormone (induces anti-inflammatory cytokines). Disruption of the nervous system resulting in an altered local immune response also has been observed in other settings (eg, amputees who develop inflammatory diseases, bacterial and fungal infections, and cutaneous neoplasms confined to stump skin). 1
Malignancies in PHIR
The granulomatous inflammation in PHIRs is a nonneoplastic inflammatory reaction with a variable lymphocytic component. Granuloma formation can be seen in both reactive inflammatory infiltrates and in cutaneous involvement of leukemias and lymphomas. Leukemia cutis has been reported in 4% to 20% of patients with CLL/small lymphocytic leukemia. 6 In one series of 42 patients with CLL, the malignant cells were confined to the site of postherpetic scars in 14% (6/42) of patients. 5 Sixteen percent (7/42) of patients had no prior diagnosis of CLL at the time they developed leukemia cutis, including one patient with leukemia cutis in a postzoster scar. The mechanism involved in the accumulation of neoplastic lymphocytes within postzoster scars has not been fully characterized. The idea that postzoster sites represent a site of least resistance for cutaneous infiltration of CLL due to the changes from prior inflammatory responses has been proposed. 7