Histologic studies have become increasingly important in recognizing morphologic differences in photoaged versus intrinsically aged skin. Earlier histologic studies have attempted to evaluate these changes by examining anatomical sites which are not comparable, such as face and buttocks. As part of a multicenter study, we have quantitatively examined a panel of 16 histologic features in baseline facial skin biopsies from 158 women with moderate to severe photodamage. When compared to the postauricular area (photo protected), biopsies of the crow's feet area (photo exposed) had a twofold increase in melanocytes and a statistically significant increase in melanocytic atypia (p < .0001) and epidermal melanin (p < .0001). Other epidermal changes included reduced epidermal thickness (p < .01), more compact stratum corneum (p < .0001) and increased granular layer thickness (p < .0001) in the crow's feet skin. There was increased solar elastosis (p < .0001), dermal elastic tissue (p < .0001), melanophages (p < .0001), perivascular inflammation (p < .05) and perifollicular fibrosis (p < .01) but no change in the number of mast cells or dermal mucin in the photo exposed skin. Our data document quantitative differences in photoaged versus intrinsically aged facial skin and provides the groundwork for future studies to evaluate the efficacy of new treatments for photoaged skin.
Papular acrodermatitis of childhood (Gianotti-Crosti syndrome) is an uncommon, self-limited disease characterized by an erythematous papular eruption symmetrically distributed on the face and limbs and mild lymphadenopathy, thought to be of viral origin. The histopathologic findings are nonspecific and include focal parakeratosis, mild spongiosis, superficial perivascular infiltrate, papillary dermal edema, and extravasated red blood cells. Interface changes with some basal vacuolization may be present, but are not a conspicuous feature. We present a 2 1/2-year-old boy with multiple papules and plaques on the face and extremities and cervical lymphadenopathy. Histopathologic analysis showed compact orthokeratosis, focal parakeratosis, hypergranulosis, psoriasiform epidermal hyperplasia, and a dense lichenoid lymphohistiocytic infiltrate with extensive exocytosis of mononuclear cells. Immunoperoxidase staining with CD 1 a revealed clusters of Langerhans cells in the epidermis and in the papillary dermis. In view of the clinical findings, a diagnosis of Gianotti-Crosti syndrome was made. Although there are a few reports describing a lichenoid pattern of infiltration in Gianotti-Crosti syndrome, this histologic pattern is not widely known. This case is presented to illustrate the fact that Gianotti-Crosti syndrome can present as lichenoid dermatitis, and, especially in children, should be added to the differential diagnoses of lichenoid infiltrates.
We diagnosed histologically 178 cases of malignant melanoma in 1990. Thirteen cases were recorded in which the diagnosis of malignant melanoma was not considered by the clinician prior to biopsy or, in retrospect, following pathologic diagnosis. Eight of the 13 lesions were amelanotic. The majority were deeply invasive at the time of biopsy, implying poor prognosis. Despite improvements in early detection of malignant melanoma, a significant subcategory of melanomas escapes clinical diagnosis.
Polymerase chain reaction (PCR)-based amplification of T-cell receptor (TCR)-gamma genes is a novel technique that can detect a clone of T cells comprising less than 1% of the total T cells in a lymphoid infiltrate. Besides greater sensitivity than Southern blotting, this technique can be performed with smaller quantities of lower molecular weight genomic DNA as template. We retrospectively analyzed 12 paraffin-embedded biopsies of cutaneous T-cell lymphoma (CTCL), 1 case suspicious for CTCL, 1 case of granulomatous slack skin, and 8 cases of inflammatory skin diseases to determine if PCR-denaturing gradient gel electrophoresis (PCR-DGGE) analysis can detect TCR-gamma gene rearrangements on paraffin-embedded specimens. We were able to amplify Vgamma1-8 TCR sequences in each case and detected a dominant clone in 9 of 12 cases of CTCL and in granulomatous slack skin. We analyzed Vgamma9 sequences in 9 cases of CTCL and detected a dominant clone in 4 cases. This study demonstrates that PCR-DGGE can easily be applied retrospectively to cutaneous biopsies of lymphoproliferative diseases when fresh tissue is not available.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.