The American journal of pathology
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Several recent reports have suggested that nodular lymphocyte predominance Hodgkin's disease (NLPHD) may be distinct from other forms of Hodgkin's disease and may be more closely related to B-cell non-Hodgkin's lymphoma. This is primarily based on immunophenotypic studies that have shown that the L & H cells in NLPHD demonstrate a B-cell phenotype. In 1989, Poppema reported that the T cells in NLPHD differ from T cells in other forms of Hodgkin's disease in that they demonstrate reactivity for Leu 7 (CD57). ⋯ While scattered Leu 7 (CD57)-reactive lymphocytes were found in the other disorders, the percentage of reactive cells and the pattern of reactivity were significantly different in NLPHD. These results suggest that Leu 7 (CD57) reactivity may be used as an additional immunophenotypic criterion in distinguishing NLPHD from nodular sclerosing Hodgkin's disease, T-cell-rich B-cell lymphoma, and follicular lymphoma. The clinical and biological significance of Leu 7 (CD57) reactivity of small lymphocytes in NLPHD merits further investigation.
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Thermal energy causes an immediate, irreversible injury at the burn site, followed by a delayed, reversible tissue loss in the area surrounding the burn site due to progressive ischemia. We investigated the role of lipid peroxidation in the pathogenesis of progressive ischemia in a rat burn model. The burn model consisted of a row of four 10 x 20 mm burns separated by three unburned 5 x 20 mm skin bridges (interspaces). ⋯ Four separate burn wounds healed between three viable strips of hair-bearing interspaces. The treatment was effective, when given systemically during the period between 2 hours before and 1 hour after the burn. U75412E prevented progressive burn ischemia and the expansion of tissue loss.