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Epidermal Necrosis (epidermal + necrosis)

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Medical Sciences	87%

Selected Abstracts

Erythema multiforme, Stevens,Johnson syndrome and toxic epidermal necrolysis: Frozen-section diagnosis

THE JOURNAL OF DERMATOLOGY, Issue 5 2010
Hiroomi HOSAKA
Abstract Stevens,Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN) may be fatal. Although classified by body surface area skin detachment, initial stages of both may present with erythema multiforme (EM)-like lesions. To diagnose and predict disease activity adequately as early as possible for patients revealing EM-like lesions, we performed frozen-section diagnosis. Thirty-five patients clinically diagnosed as EM, SJS or TEN were biopsied to diagnose and predict disease progression within the initial-visit day. Half of a histological section taken from a lesion was snap-frozen and immediately cryostat-sectioned, acetone-fixed and stained with hematoxylin,eosin. Specimens were examined with light microscopy for presence of epidermal necrosis. A section from unaffected sites was also examined for 11 patients. Specimens were examined with light microscopy for presence of graft-versus-host reaction (GVHR)-like findings: apoptotic keratinocytes and satellite cell necrosis. Epidermal necrosis was seen in nine patients. Initial diagnosis of the nine was one of overlap SJS-TEN, four of SJS and four of EM, and final diagnosis of those was one of TEN, one of overlap SJS,TEN, four of SJS and three of EM. Dissociation between initial and final diagnosis was seen in three cases. GVHR-like findings in the epidermis were observed in two patients finally diagnosed as overlap SJS,TEN and TEN. Frozen sections are useful not only to make a diagnosis of erythema multiforme but to assess a potential to exhibit more aggressive clinical behaviors (SJS or TEN). [source]

Toxic epidermal necrosis associated with mesalamine in a patient with ulcerative colitis

INFLAMMATORY BOWEL DISEASES, Issue 8 2007
Ken Fukunaga MD
No abstract is available for this article. [source]

Acute generalized exanthematous pustulosis mimicking toxic epidermal necrolysis

INTERNATIONAL JOURNAL OF DERMATOLOGY, Issue 7 2001
Arnon D. Cohen MD
A 91-year-old patient presented with a nonfebrile, pruritic, widespread eruption that appeared 10 days after starting therapy with cefuroxime tablets, 1000 mg/day, due to stasis dermatitis with secondary infection. The patient was also treated with paracetamol tablets, 500,1000 mg/day, 10 days before the onset of the eruption. Previous diseases included congestive heart disease, hyperglycemia, and ectropion. There was no personal or family history of psoriasis. Additional medications, taken for more than 2 years at the time of the eruption, included indomethacin, captopril, hydrochlorothiazide, isosorbide-5-mononitrate tablets, and a combination drug Laxative®. Examination revealed widespread erythema involving 95% of the total body surface area, with numerous 1,2 mm nonfollicular pustules (Fig. 1). There was no predilection to the body folds. Within 24 h of hospitalization, during intravenous therapy with cefuroxime, the patient's condition worsened and bullae containing clear fluid appeared. Nikolsky's sign was positive on erythematous skin, and eventually skin detachment involved 41% of the total body surface area (Fig. 2). There were no target or target-like lesions and there was no involvement of the mucous membranes. Figure 1. Numerous, 1,2 mm, nonfollicular pustules, with confluence (viewed in the lower left part of the photograph), on erythematous skin Figure 2. Widespread skin detachment An early biopsy from a pustule revealed subcorneal and intraepidermal spongiform pustules, papillary edema, perivascular mononuclear infiltrate with a few eosinophils in the dermis, and leukocytoclastic vasculitis. A later biopsy showed similar findings with no evidence of full-thickness epidermal necrosis or necrotic keratinocytes. Direct immune fluorescence (DIF) taken from erythematous skin was negative. Laboratory studies showed the following results: sedimentation rate, 80 mm/h; white blood cell count, 26,200/mm3 with 87% polymorphonuclears and 1.8% eosinophils; hemoglobin, 13.0 g/dL; albumin, 2.8 g/dL (normal, 3.5,5.5 g/dL); other blood chemistry tests were normal. Immunologic studies for rheumatoid factor, antinuclear antibodies, antismooth muscle antibodies, antiparietal cell antibodies, antimitochondrial antibodies, C3, and C4 were normal or negative. Serology for venereal disease research laboratory (VDRL) test, Epstein,Barr virus, cytomegalovirus, hepatitis B virus, hepatitis C virus, human immunodeficiency virus, and antistreptolysin titer was negative. Chest X-ray was normal. Blood cultures were negative. Swab cultures taken from the pustules revealed Staphylococcus aureus as well as coagulase-negative Staphylococcus. All systemic drugs, including intravenous cefuroxime, were withdrawn with close monitoring for signs of heart failure or infection. Topical therapy consisted of application of wet dressings. Within 10 days, the eruption resolved with re-epithelialization of the erosions and the appearance of widespread post-pustular desquamation (Fig. 3) Figure 3. Post-pustular desquamation on the trunk [source]

A clonal cutaneous CD30+ lymphoproliferative eruption in a patient with evidence of past exposure to hepatitis E

INTERNATIONAL JOURNAL OF DERMATOLOGY, Issue 7 2000
Freddye M. Lemons-Estes CDR, MC USN
The patient was a 52-year-old white man who had worked in remote areas of the world during the past 2 years, including an extended period in rural areas of Central Africa and in Central and South America. He had no acute illnesses during the 2-year period except for rare, mild, upper respiratory tract infections. For approximately 1 year, however, he had developed recurrent, papular-vesicular, slightly painful lesions on the fingers and palms, that spontaneously healed over weeks to months ( Fig. 1). The patient had no other concurrent illnesses and no abnormal laboratory findings, except for positive enzyme-linked immunoabsorbent assay (ELISA) for immunoglobulin G (IgG) antibodies for hepatitis E virus (HEV) using a recombinant expressed HEV antigen (Genelabs Technologies, Inc., San Antonio). Prolonged treatment with minocycline did not appear to moderate the lesions. At approximately 2.5 years after the development of his first cutaneous lesion, however, the patient reported that he had had no new lesions for over 3 months. Figure 1. Vesicular ,lesion on the finger which regressed over a period of weeks A biopsy specimen showed an intraepidermal vesicle with prominent epidermal necrosis and reticular degeneration ( Fig. 2). Within the epidermis, there was a dense infiltrate of lymphoid cells. The majority of these cells were pleomorphic with prominent nucleoli and frequent mitotic figures ( Fig. 3). Sheets of atypical cells were found in the subjacent dermis. The infiltrate extended down into the reticular dermis. With extension into the dermis, the infiltrate became more polymorphous with more small lymphoid cells, large numbers of eosinophils, and some plasma cells located more deeply. Figure 2. Intraepidermal ,blister showing reticular degeneration and marked epidermotrophism of large atypical cells with extension into the dermis with a mixed infiltrate containing eosinophils and plasma cells (30×) Figure 3. Intraepidermal ,infiltrate of large atypical cells with extension into the dermis with a mixed infiltrate containing eosinophils and plasma cells (400×) Immunohistochemical stains for CD3 (DAKO), CD4 (Becton Dickinson), CD8 (Becton Dickinson), CD15 (LeuM1, Becton Dickinson), CD20 (L-26, DAKO), CD30 (Ber-H2, DAKO), CD45RO (UCHL1, DAKO), S-100 protein (DAKO), T-cell intracellular antigen (TIA) (Coulter), epithelial membrane antigen (EMA) (DAKO), KP-1 (CD68, DAKO), MAC-387 (DAKO), Epstein,Barr virus (EBV) latent membrane antigen-1 (LMP-1, DAKO), and EBV-encoded nuclear antigen 2 (EBNA2, DAKO) were performed on formalin-fixed tissue using the ABC method with DABA as the chromagen. CD3 showed diffuse membrane staining of the large atypical lymphoid cells, as well as the majority of the small lymphoid cells ( Fig. 4). CD4 showed positive membrane staining of the large atypical lymphoid cells and the majority of the small lymphoid cells. CD8 showed only scattered light membrane staining of small lymphoid cells. CD15 was negative, and CD20 showed foci of groups of small lymphoid cells mainly within the reticular dermis. CD30 showed positive membrane and paranuclear staining of the large atypical cells, most abundant within the epidermis and papillary dermis ( Fig. 5). CD45RO showed positive membrane staining of the large atypical cells and the majority of the small lymphoid cells. S-100 protein showed increased dendritic cells within the surrounding viable epidermis and the subjacent papillary dermis ( Fig. 6). TIA showed granular staining in the large atypical lymphoid cells and only rare staining in small lymphoid cells ( Fig. 7). EMA staining was essentially negative. KP-1 showed only scattered positive cells mainly in the lower papillary and the reticular dermis. MAC-387 showed membrane staining in the viable epidermis ( Fig. 8). LMP-1 and EBNA2 for EBV were negative within the lymphoid cells as well as within the overlying epidermis. Figure 4. Immunohistochemical ,staining for CD3 showing diffuse staining of lymphoid cells within the epidermis and dermis (150×) Figure 5. Immunohistochemical ,staining for CD30 showing membrane and paranuclear staining of large atypical lymphoid cells within the epidermis and papillary dermis (a, 150× b, 400×) Figure 6. Immunohistochemical ,staining for S-100 protein within the epidermis and in the papillary dermis (a, 150× b, 300×) Figure 7. Immunohistochemical ,granular staining of large atypical lymphoid cells for TIA (200×) Figure 8. Immunohistochemical ,staining for MAC-387 showing epidermal staining (100×) Gene rearrangement studies showed a ,-T-cell receptor gene rearrangement. The monoclonal band was detected with VJ1, VJ2, and D1J2 primer sets. The T-cell receptor , rearrangement assay has a sensitivity of 61% and a specificity of 94% for the detection of a monoclonal rearrangement in T-cell lymphomas for which amplifiable DNA can be recovered. Electron microscopy was performed on formalin-fixed material, positive-fixed with 2.5% phosphate-buffered glutaraldehyde and further with 1% osmium tetroxide by standard techniques. Intracellular, 50,60-nm, cytoplasmic, spherical, viral-like particles were identified ( Fig. 9). Figure 9. Electron ,microscopy showing 50,60-nm diameter, intracellular, viral-like particles (arrows) (70,000×) [source]

Putative role of proteolysis and in,ammatory response in the toxicity of nerve and blister chemical warfare agents: implications for multi-threat medical countermeasures,

JOURNAL OF APPLIED TOXICOLOGY, Issue 3 2003
F. M. Cowan
Abstract Despite the contrasts in chemistry and toxicity, for blister and nerve chemical warfare agents there may be some analogous proteolytic and in,ammatory mediators and pathological pathways that can be pharmacological targets for a single-drug multi-threat medical countermeasure. The dermal,epidermal separation caused by proteases and bullous diseases compared with that observed following exposure to the blister agent sulfur mustard (2,2,-dichlorodiethyl sul,de) has fostered the hypothesis that sulfur mustard vesication involves proteolysis and in,ammation. In conjunction with the paramount toxicological event of cholinergic crisis that causes acute toxicity and precipitates neuronal degeneration, both anaphylactoid reactions and pathological proteolytic activity have been reported in nerve-agent-intoxicated animals. Two classes of drugs already have demonstrated multi-threat activity for both nerve and blister agents. Serine protease inhibitors can prolong the survival of animals intoxicated with the nerve agent soman and can also protect against vesication caused by the blister agent sulfur mustard. Poly (ADP-ribose) polymerase (PARP) inhibitors can reduce both soman-induced neuronal degeneration and sulfur-mustard-induced epidermal necrosis. Protease and PARP inhibitors, like many of the other countermeasures for blister and nerve agents, have potent primary or secondary anti-in,ammatory pharmacology. Accordingly, we hypothesize that drugs with anti-in,ammatory actions against either nerve or blister agent might also display multi-threat ef,cacy for the in,ammatory pathogenesis of both classes of chemical warfare agent. Published in 2003 by John Wiley & Sons, Ltd. [source]

Cutaneous histopathological findings of Aicardi,Goutières syndrome, overlap with chilblain lupus

JOURNAL OF CUTANEOUS PATHOLOGY, Issue 8 2008
Athanassios Kolivras
We report a 2-year-old girl with developmental delay who, from the age of 1 year, developed perniotic lesions of the hands and feet initially diagnosed as chilblain lupus. Histological examination showed features of epidermal necrosis with intraepidermal bulla formation, interface dermatitis, lymphocytic vasculitis with fibrinoid necrosis and thrombi formation, both superficial and deep dermal lymphocytic infiltrate, lymphocytic eccrine hidradenitis and absence of marked dermal edema. Subsequent investigations suggested a clinical diagnosis of Aicardi,Goutières syndrome (AGS), a rare genetic leukoencephalopathy. Recently, both AGS and familial chilblain lupus, an autosomal dominant form of systemic lupus erythematosus (SLE), have been shown to be allelic thus suggesting a common pathogenic basis. In addition, a phenotypic overlap is apparent between SLE and AGS. To our knowledge, this is the first comprehensive dermatopathological report of the cutaneous lesions seen in AGS, and our paper highlights the importance of considering AGS in the differential diagnosis of perniosis and chilblain lupus. [source]

Toxic shock syndrome with extensive epidermal necrosis in a 9-year-old girl

JOURNAL OF THE EUROPEAN ACADEMY OF DERMATOLOGY & VENEREOLOGY, Issue 10 2006
K Nishigori
[source]