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Query: UMLS:C0740441 (
acute diarrhea
)
2,275
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Acute infectious diarrhoea continues to cause high morbidity and mortality worldwide. Although oral rehydration therapy has reduced the mortality associated with
acute diarrhoea
, stool volume often increases during the rehydration process. Therefore, for > 20 years there has been a search for agents that will directly inhibit intestinal secretory mechanisms and thereby reduce stool volume. The most obvious target for antisecretory therapy has been the
chloride channel
and second messengers within the enterocyte. So far, this search has been largely unrewarding, although recent evidence suggests that a new class of
chloride channel
blocker is effective in vitro but further evaluation in humans is required. In addition, research during the past decade has highlighted the importance of neurohumoral mechanisms in the pathogenesis of diarrhoea, notably the role of 5-hydroxtryptamine, substance P, vasoactive intestinal polypeptide and neural reflexes within the enteric nervous system. This new dimension of intestinal pathophysiology has already exposed possible novel targets for antisecretory therapy; namely, 5-hydroxytryptamine receptor antagonists, substance P antagonists and sigma-receptor agonists. There is also the possibility for potentiating the proabsorptive effects of endogenous enkephalins by using enkephalinase inhibitors. There now seems to be a real possibility that antisecretory therapy will become more widely available in the future.
...
PMID:Novel agents for the control of secretory diarrhoea. 1521 18
Acute diarrhea
is a major cause of morbidity and mortality worldwide. Infants and pre-school children are the most vulnerable in whom there are 2-3 million deaths each year as a result of the associated dehydration and acidosis. Although oral rehydration therapy has reduced mortality during the past 30 years ago, the search for agents that will directly inhibit intestinal secretory mechanisms and thereby reduce faecal losses in patients with high-volume watery diarrhea has continued for more than 20 years. A variety of potential targets for antisecretory agents have been explored which include loci within the enterocyte (the
chloride channel
, calcium-calmodulin) and other sites such as enteric nerves and endogenous mediators (such as 5-HT, prostaglandins). Although the potential of calcium-calmodulin inhibition has as yet not been realised, preliminary studies suggest that there are
chloride channel
blockers under development that will find a place in the management of secretory diarrheas. Recent work has highlighted the importance of neurohumoral mechanisms in the pathogenesis of
acute diarrhea
. Potentiation of the effects of endogenous enkephalin activity by enkephalinase inhibition has already produced a safe, effective anti-secretory drug, racecadotril. Speculative early work indicates that there may be a role for antagonists of 5-HT, substance P, and VIP receptors. There now seems to be a real possibility that antisecretory therapy will become more widely available in the future.
...
PMID:Antisecretory drugs for diarrheal disease. 1669 63
The sodium-coupled glucose transporter-1 (SGLT1)-based oral rehydration solution (ORS) used in the management of
acute diarrhea
does not substantially reduce stool output, despite the fact that glucose stimulates the absorption of sodium and water. To explain this phenomenon, we investigated the possibility that glucose might also stimulate anion secretion. Transepithelial electrical measurements and isotope flux measurements in Ussing chambers were used to study the effect of glucose on active chloride and fluid secretion in mouse small intestinal cells and human Caco-2 cells. Confocal fluorescence laser microscopy and immunohistochemistry measured intracellular changes in calcium, sodium-glucose linked transporter, and calcium-activated
chloride channel
(anoctamin 1) expression. In addition to enhancing active sodium absorption, glucose increased intracellular calcium and stimulated electrogenic chloride secretion. Calcium imaging studies showed increased intracellular calcium when intestinal cells were exposed to glucose. Niflumic acid, but not glibenclamide, inhibited glucose-stimulated chloride secretion in mouse small intestines and in Caco-2 cells. Glucose-stimulated chloride secretion was not seen in ileal tissues incubated with the intracellular calcium chelater BAPTA-AM and the sodium-potassium-2 chloride cotransporter 1 (NKCC1) blocker bumetanide. These observations establish that glucose not only stimulates active Na absorption, a well-established phenomenon, but also induces a Ca-activated chloride secretion. This may explain the failure of glucose-based ORS to markedly reduce stool output in
acute diarrhea
. These results have immediate potential to improve the treatment outcomes for acute and/or chronic diarrheal diseases by replacing glucose with compounds that do not stimulate chloride secretion.
...
PMID:Glucose stimulates calcium-activated chloride secretion in small intestinal cells. 2447 33
