Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Mucosa mucus

MTP mitochondrial permeability transition, mucosa mucus membrane. [Pg.417]

MNNG A-methyl-A -nitro-TV-nitrosoguanidine. monomer single subunit of a compound such as a protein, monomorphic with one form, mucosa mucus membrane. [Pg.711]

Estrogens stimulate cellular proliferation, induce RNA and protein synthesis of uterine endometrium and the fibrous connective tissue framework for ovaries, and increase the size of the cells. This effect leads to the growth and regeneration of the endometrial layer and spinal arterioles, and increase in the number and size of endometrial glands. Under the influence of estrogen, vaginal mucosa becomes thicker, as cervical mucus becomes thinner (85,86). [Pg.242]

Verdugo, P. (1984). Hydration kinetics of exocyto.sed mucins in cultured secretory cells of the rabbit trachea a new model. Mucus and Mucosa (Ciba Foundation symposium 109), 212-225. [Pg.229]

Widdicombe, J. G. (1989). Fluid transport across aitw-ay epithelia. Mucus and Mucosa 109, 109-120. [Pg.229]

V. cholerae is a gram-negative bacillus. Vibrios pass through the stomach to colonize the upper small intestine. Vibrios have filamentous protein extensions that attach to receptors on the intestinal mucosa, and their motility assists with penetration of the mucus layer.2 The cholera enterotoxin consists of two subunits, one of which (subunit A) is transported into the cells and causes an increase in cyclic AMP, which leads to a deluge of fluid into the small intestine.20 This large volume of fluid results in the watery diarrhea that is characteristic of cholera. The stools are an electrolyte-rich isotonic fluid, the loss of which results in blood volume depletion followed by low blood pressure and shock.2 Of note, the diarrheal fluid is highly infectious. [Pg.1122]

Mucus is produced by the mucus neck cells and by the surface epithelial cells of the stomach wall. A thick layer of mucus adheres to the wall of the stomach, forming the gastric mucosal barrier. The function of this barrier is to protect the gastric mucosa from injury — specifically, from the corrosive actions of HCl and pepsin. Together with bicarbonate ion released into the lumen of the stomach, mucus neutralizes the acid and maintains the mucosal surface at a nearly neutral pH. [Pg.292]

Secretion of the large intestine. The large intestine produces an alkaline mucus secretion, the function of which is to protect the mucosa from mechanical or chemical injury. Mucus provides lubrication to facilitate the movement of the contents of the lumen. Bicarbonate ion neutralizes the irritating acids produced by local bacterial fermentation colonic secretion increases in... [Pg.304]

Fig. 11.4. Model for cholinergic signalling in the intestinal mucosa, providing a possible rationale for AChE secretion by parasitic nematodes. ACh released from enteric cholinergic motor neurons stimulates chloride secretion, mucus secretion and Paneth cell exocytosis through muscarinic receptors. Secretory responses may be modulated by mast cell mediators, either directly or via the induction of neural reflex programmes. The role of muscarinic receptor-positive cells in the lamina propria of rats infected with N. brasiliensis is undetermined, as are potential mechanisms of trans-epithelial transport of the enzymes. Adapted from Cooke (1984). Fig. 11.4. Model for cholinergic signalling in the intestinal mucosa, providing a possible rationale for AChE secretion by parasitic nematodes. ACh released from enteric cholinergic motor neurons stimulates chloride secretion, mucus secretion and Paneth cell exocytosis through muscarinic receptors. Secretory responses may be modulated by mast cell mediators, either directly or via the induction of neural reflex programmes. The role of muscarinic receptor-positive cells in the lamina propria of rats infected with N. brasiliensis is undetermined, as are potential mechanisms of trans-epithelial transport of the enzymes. Adapted from Cooke (1984).
Fig. 1. Typical presentation of pseudomembranous colitis. At endoscopy (left), the mucosal surface of the colon appears hyper-emic and almost completely covered by a yellow-green exudate. The mucosa itself is somewhat eroded. Microscopically (right), the pseudomembrane is composed of inflammatory cells, necrotic epithelium, and mucus in which the overgrowth of microorganisms usually takes place. [Pg.86]

Inhalation route adults subjected to 50,000 or 200,000 pg acrolein/L (113 or 454 mg/m3) air via an endotracheal cannula for up to 27 days Air sac injection route embryos 2-3 days old examined at day 13 Decreases in trachea complement of ciliated and goblet cells inhibited mucus transport activity in trachea lymphocytic inflammatory lesions in the tracheal mucosa changes were more pronounced at the higher dose and with increasing exposures 2... [Pg.758]

In addition to the intercellular lipids of the buccal mucosa, there appear to be other barriers which may reduce the ability of an exogenous compound to permeate the buccal mucosa. These include the salivary film and mucus layer, the basement membrane, and a metabolic barrier. [Pg.92]

The function of the mucosal pellicle is to serve as a barrier between the oral epithelial surface and the external environment, and so it may also act as a barrier to drug delivery. However, there are limited studies assessing the role of the mucus layer in buccal permeability. In one study, treatment of the oral mucosa with anticholinergic agents resulted in an increased permeability of certain compounds, and it was suggested that the reduced salivary flow may have been responsible for the reduced barrier properties of the tissue [113]. In... [Pg.92]

See other pages where Mucosa mucus is mentioned: [Pg.404]    [Pg.478]    [Pg.1309]    [Pg.1469]    [Pg.200]    [Pg.178]    [Pg.404]    [Pg.478]    [Pg.1309]    [Pg.1469]    [Pg.200]    [Pg.178]    [Pg.155]    [Pg.155]    [Pg.166]    [Pg.322]    [Pg.323]    [Pg.323]    [Pg.225]    [Pg.259]    [Pg.885]    [Pg.35]    [Pg.254]    [Pg.303]    [Pg.403]    [Pg.419]    [Pg.28]    [Pg.97]    [Pg.97]    [Pg.32]    [Pg.234]    [Pg.550]    [Pg.22]    [Pg.93]    [Pg.117]    [Pg.184]    [Pg.218]    [Pg.219]    [Pg.219]    [Pg.308]    [Pg.120]    [Pg.41]    [Pg.217]   


SEARCH



Mucosa

Mucus oral mucosa

© 2024 chempedia.info