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Query: UMLS:C0022104 (
irritable bowel syndrome
)
8,033
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Colonic motor activity and plasma concentrations of cholecystokinin (CCK) both increase after oral intake of a meal. Thus, CCK had been thought to mediate the postprandial increase in colonic motor activity, which is termed gastrocolonic response. The present study used the substance loxiglumide, which acts as a specific antagonist at the CCK-A receptor, to evaluate this hypothesis. In the first set of experiments, eight healthy subjects were studied four times on separate days. A multilumen catheter was endoscopically placed with its tip lying in the descending colon. Motor activity was recorded by a low-compliance perfusion manometry system at six locations 60-45 cm from the anus. Basal activity was recorded for at least 2 hours to achieve steady-state conditions. The order of the following four experiments was randomized: (a) intravenous infusion of the CCK analogue cerulein at increasing doses (7.5, 15, 30, and 60 ng/kg.h, each given for 30 minutes); (b) intravenous cerulein plus 5 mg/kg.h loxiglumide; (c) a 1000-kcal solid/liquid meal consisting of regular German food; and (d) a meal plus 5 mg/kg.h loxiglumide. In the second set of experiments, eight patients with
irritable bowel syndrome
were studied twice on two separate days, and two experiments were performed n randomized order: (a) a 1000-kcal solid/liquid meal consisting of regular German food; or (b) a meal plus 5 mg/kg.h loxiglumide. The motor index was calculated as the area under contractions by a computerized system. The 1000-kcal meal markedly increased colonic motor activity. This gastrocolonic response was significantly greater in patients with
irritable bowel syndrome
than in healthy volunteers. Cerulein stimulated motor activity only at pharmacological doses (30-60 ng/kg.h), which resulted in plasma CCK levels markedly exceeding postprandial values.
Loxiglumide
abolished the effects of cerulein even at pharmacological doses. However, loxiglumide did not inhibit the gastrocolonic response to a regular meal either in healthy volunteers or in patients with
irritable bowel syndrome
.
Loxiglumide
also failed to alter the interdigestive colonic motor activity. Therefore, effects mediated by the CCK-A receptor do not play a major physiological role in the regulation of the interdigestive and postprandial motility of the left colon.
...
PMID:Cholecystokinin's role in regulation of colonic motility in health and in irritable bowel syndrome. 158 8
Although it is unclear to what extent
irritable bowel syndrome
(
IBS
) symptoms represent a normal perception of abnormal function or an abnormal perception of normal function, many believe that
IBS
constitutes the clinical expression of an underlying motility disorder, affecting primarily the mid- and lower gut. Indeed, transit and contractile abnormalities have been demonstrated with sophisticated techniques in a subset of patients with
IBS
. As a consequence, drugs affecting gastrointestinal (GI) motility have been widely employed with the aim of correcting the major
IBS
manifestations, ie, pain and altered bowel function. Unfortunately, no single drug has proven to be effective in treating
IBS
symptom complex. In addition, the use of some medications has often been associated with unpleasant side effects. Therefore, the search for a truly effective and safe drug to control motility disturbances in
IBS
continues. Several classes of drugs look promising and are under evaluation. Among the motor-inhibiting drugs, gut selective muscarinic antagonists (such as zamifenacin and darifenacin), neurokinin2 antagonists (such as MEN-10627 and MEN-11420), beta3-adrenoreceptor agonists (eg, SR-58611A) and GI-selective calcium channel blockers (eg, pinaverium bromide and octylonium) are able to decrease painful contractile activity in the gut (antispasmodic effect), without significantly affecting other body functions. Novel mechanisms to stimulate GI motility and transit include blockade of cholecystokinin (CCK)A receptors and stimulation of motilin receptors.
Loxiglumide
(and its dextroisomer, dexloxiglumide) is the only CCKA receptor antagonist that is being evaluated clinically. This drug accelerates gastric emptying and colonic transit, thereby increasing the number of bowel movements in patients with chronic constipation. It is also able to reduce visceral perception. Erythromycin and related 14-member macrolide compounds inhibit the binding of motilin to its receptors on GI smooth muscle and, therefore, act as motilin agonists. This antibiotic accelerates gastric emptying and shortens orocecal transit time. In the large bowel a significant decrease in transit is observed only in the right colon, which suggests a shift in fecal distribution. Several 'motilinomimetics' have been synthesized. Their development depends on the lack of antimicrobial activity and the absence of fading of the prokinetic effect during prolonged administration. 5-hydroxytryptamine (5-HT)4 agonists with significant pharmacological effects on the mid- and distal gut (such as prucalopride and tegaserod) are available for human use. These 'enterokinetic' compounds are useful for treating constipation-predominant
IBS
patients. 5-HT3 receptor antagonists also possess a number of interesting pharmacological properties that may make them suitable for treatment of
IBS
. Besides decreasing colonic sensitivity to distension, these drugs prolong intestinal transit and may be particularly useful in diarrhea-predominant
IBS
. Finally, when administered in small pulsed doses, octreotide, besides reducing the perception of rectal distension, accelerates intestinal transit, although other evidence disputes such an effect.
...
PMID:Management of irritable bowel syndrome: novel approaches to the pharmacology of gut motility. 1020 10
