Human pathology
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Review Comparative Study
Ductal carcinoma in situ treated with lumpectomy and irradiation: histopathological analysis of 49 specimens with emphasis on risk factors and long term results.
Forty-nine women with ductal carcinoma in situ (DCIS) treated with lumpectomy and irradiation were studied retrospectively. The median age was 50 years (range, 29 to 73 years) and the median follow-up time from initiation of therapy was 86 months (range, 17 to 230 months). Twelve patients presented with palpable masses (0.4 to 4 cm), three with breast thickening, and three with nipple discharge. ⋯ Although the recurrences were attributed to residual disease in two patients, of the clinical and pathological parameters evaluated, only periductal fibrosis showed a significant relationship with outcome, with a P value < or = .05 by the Wilcoxon test. On the other hand, using the proportional hazards model, necrosis was a significant predictor for recurrence (P = .02), as was the pair fibrosis and tumor detection when taken together (P = .05). Fibrosis significantly associated with high NG, Lagios' histological subtypes I and II, periductal lymphoid infiltrate, and necrosis (P < or = .0006).(ABSTRACT TRUNCATED AT 400 WORDS)
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The authors review the clinical, radiographic, and pathologic features of the benign pulmonary lymphoid disorders. The essential role of immunopathologic techniques in distinguishing pulmonary lymphoid hyperplasias from malignant lymphoma is stressed. A theory regarding the development of pulmonary lymphoid hyperplasia is proposed as a basis for understanding these disorders. The authors suggest that lymphoid hyperplasia is a basic inflammatory response of the lung.
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We describe briefly and comment upon the salient strengths and limitations of the major published theories that purport to explain the mechanism of contrecoup cerebrocortical contusions. Through the application of mechanical principles, we then present a modification, clarification, and expansion of selected aspects of several theories. Our final formulation emphasizes the injurious potential of nonuniform compressive stress and the relationship between brain lag and rotationally induced injury. The resulting theory remains faithful to the laws of physics while explaining the location and distribution of cerebrocortical contusions opposite the site of a moving head impact.