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Lingual Glands (lingual + gland)
Selected AbstractsAccumulation of amyloid-, protein in exocrine glands of transgenic mice overexpressing a carboxyl terminal portion of amyloid protein precursorINTERNATIONAL JOURNAL OF EXPERIMENTAL PATHOLOGY, Issue 4 2000Ken-Ichiro Fukuchi Amyloid-, protein (A,) and its precursor (,PP) play important roles in the pathogenesis of Alzheimer disease and inclusion-body myositis. In humans, A, deposits are found in brain, skeletal muscle, and skin. Therefore, we have investigated possible A, deposits in multiple tissues of two transgenic mouse lines overexpressing the signal plus A,-bearing 99-amino acid carboxyl terminal sequences of ,PP under the control of a cytomegalovirus enhancer/,-actin promoter. One of the lines developed A,-immunoreactive intracellular deposits consistently in the pancreas and lacrimal gland, and occasionally in gastric, DeSteno's, and lingual glands. Although the A, deposits increased during ageing and degenerative changes of the tissues were observed, little or no extracellular A, deposits were observed up to the age of 25 months. These lines of transgenic mice are useful for studying the molecular mechanisms of development and clearance of intracellular A, deposits. [source] Ultrastructural changes of posterior lingual glands after hypoglossal denervation in hamstersJOURNAL OF ANATOMY, Issue 1 2009S. J. Cheng Abstract Posterior lingual glands consist of two sets of minor salivary glands that serve important functions in oral physiology. To investigate the hypothesis that the hypoglossal nerve provides sympathetic innervation to the posterior lingual glands, we examined ultrastructural changes in the glands following hypoglossal denervation. In the posterior deep lingual glands (of von Ebner), the serous acinar cells showed a decrease in the number of secretory granules and an increase in lipofuscin accumulation. The ratios of cells containing lipofuscin granules were 11.39, 36.49 and 50.46%, respectively, of the control, 3- and 7-day post-axotomy glands (P < 0.001). Intraepithelial phagocytotic activity was increased. The mucous acinar cells in the posterior superficial lingual glands (of Weber) also showed degenerative changes after hypoglossal denervation. One week after nerve transection, marked cytoplasmic vacuolation and fragmentation of organelles were frequently observed. Degenerative changes were also found in unmyelinated axons associated with the glands. We provide the first evidence of the structural and functional connections between the sympathetic component of the hypoglossal nerve and posterior lingual glands. [source] The tongue morphology and lingual gland histochemistry of Ligurian Sea odontocetesMARINE MAMMAL SCIENCE, Issue 3 2010Tiziana Ferrando Abstract The morphology and histomorphology of the tongue and the histochemistry of the lingual glands of eight specimens from four species of Ligurian Sea odontocetes (Stenella coeruleoalba, Tursiops truncatus, Grampus griseus, and Ziphius cavirostris) were studied. The shape of tongues and the appearance of their dorsal surfaces differed between species. The lingual glands differed in size, distribution, and histochemistry by species. In S. coeruleoalba and G. griseus, a strong alcianophilic mucous material was detected in the lingual glands, while neutral and acidic mucous substances were observed in the most proximal secretory acini. In G. griseus, small simple alveolar apocrine glands were also found, and the duct of the serous lingual glands in Z. cavirostris is of apocrine type. Numerous mechanoreceptors were observed. Only the tongue of the young specimens showed marginal papillae: their histomorphological composition is consistent with the hypothesis that they create a tight seal between the tongue and the roof of the cavity in order to create suction. This comparative study suggests that differences in tongue morphology and in the morphology and histochemistry of lingual glands might be related to feeding habits. [source] | ||||||||||