465 research outputs found
[Visceral pleura lipoma: a previously undescribed localization and review of the literature on pleural lipomas]
Pleural lipomas are rare, often asymptomatic tumours arising from the parietal pleura. Whereas radiographic signs of pleural lipomas are aspecific, computed tomography and magnetic resonance imaging permit accurate preoperative diagnosis. We describe the clinical-pathologic features of the first case of lipoma arising from the visceral pleura, accidentally discovered in a woman during removal of chest schwannoma. A review of literature concerning pleural lipomas is also presented
Apocrine epithelium of the breast: does it result from metaplasia?
Benign and malignant breast lesions may show an apocrine epithelium considered to be the result of metaplasia. In an attempt to clarify the histogenesis of the breast apocrine epithelium we searched for the presence of apocrine cells or cells with apocrine differentiation during human breast development. We analysed 10 autopsy specimens of female breasts from fetuses between 28 and 40 weeks of gestational age and tissue from 6 normal breasts, obtained after breast reduction in nulliparous young women between 22 and 28 years of age. Formalin-fixed, paraffin-embedded sections were stained with haematoxylin-eosin, PAS-diastase and a monoclonal antibody (BRST-2) anti-GCDFP-15, which is a specific apocrine marker. A 40-week fetal breast was analysed by electron microscopy. No cells with histological and ultrastructural apocrine features were found in the ducts of fetal breasts. All fetal breasts showed some ducts with sparse GCDFP-15-immunoreactive cells; the number of these cells increased with gestational age. PAS-diastase was negative. No cells with apocrine morphology were found in ducts and lobules of normal adult breasts. Scattered GCDFP-15-positive luminal epithelial cells and rare PAS-diastase-positive cells were observed in some lobules of all adult breasts. Cells with biochemical characteristics (GCDFP-15 expression) of apocrine differentiation are evident during human fetal breast development and persist in adult mammary glands. Unknown stimuli may induce these cells to take on an apocrine morphology. Apocrine epithelium of the breast may be a normal process of differentiation rather than metaplasia. We suggest the term "apocrine differentiation precursor cells" for GCDFP-15-positive breast epithelial cells with no apocrine morphology
Le carcinoma canalicolaires in situ du sein : aspect anathomoclinique et considerations therapeutiques
Spectrum of GCDFP-15 expression in human fetal and adult normal tissues.
GCDFP-15, a glycoprotein identified in the cyst fluid of cystic breast disease, is considered to be a marker of apocrine differentiation. Studies on GCDFP-15 localization in adult normal tissues are lacking, and no information on GCDFP-15 expression during fetal development has been reported. We investigated GCDFP-15 expression in a large series of formalin-fixed, paraffin-embedded normal human adult and fetal tissues using the monoclonal antibody BRST-2. In normal adult tissues GCDFP-15 expression was found in all apocrine, lacrimal, ceruminous and Moll's glands and in numerous serous cells of the submandibular, sublingual and minor salivary glands. The serous cells of nasal and bronchial glands were also positive; parotid and laryngeal glands showed rare immunoreactive cells. GCDFP-15-positive cells were observed in all cutaneous eccrine glands from different body sites. In fetal tissues immunoreactivity was observed in numerous acinous cells of all tracheal, bronchial and submandibular salivary glands. GCDFP-15 positivity was identified in numerous cells of all axillary sweat glands and in rare cells of some sweat glands of the thorax, abdomen, back, leg and arm. In both apocrine and nonapocrine glands GCDFP-15 was always localized in the secretory component. These data suggest that GCDFP-15 is a glandular differentiation marker associated with apocrine secretion; that it is expressed in glands that have phylogenetic origins in common with apocrine glands (submandibular salivary and submucosal bronchial glands); and that eccrine cutaneous glands express GCDFP-15 and thus might be referred to as mixed apocrine-eccrine glands. GCDFP-15 is expressed during fetal development and may represent a common marker of embryologically linked glandular structures
Absence of neuroendocrine cells in fetal and adult mammary glands: are neuroendocrine breast tumors real neuroendocrine tumors?
Restoration of fecal continence with chronic electrostimulation of gracilis muscle 17 years after a Pickrell's operation
Feline cutaneous and visceral necrotizing panniculitis and steatitis associated with a pancreatic tumour
The association of pancreatic disorders with fat necrosis in domestic animals is rare. This report concerns a case of cutaneous/subcutaneous necrotizing panniculitis and steatitis associated with a pancreatic adenocarcinoma in an 11-year-old male Siamese cat. Clinical investigation revealed variably sized nodules on the trunk, limbs and abdomen. Some of them were ulcerated; others showed a shiny yellow necrotic background featuring irregular sinus tracts. The cat was euthanized at the owner's request before a diagnosis could be made. At necropsy, abundant oily material resembling mustard replaced the subcutaneous tissue and small yellow nodules were disseminated in the omentum, mesentery and serosa of the abdomen. A multilobulated mass arising from the anterior pancreatic head was found along with liver and lymph node metastasis. Histopathology showed wide fistulous tracts draining necrotic fat from the subcutis toward the surface and multifocal areas of necrotic adipocytes replacing the panniculus. Duct-like structures and tubules lined by neoplastic epithelial cells were observed in the primary pancreatic tumour and in the metastatic sites. The aetiology of the fat necrosis was possibly the result of systemic release of lipolytic pancreatic enzymes
- …
