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  • Title: Is in vivo dissociation between the antipropulsive and antidiarrheal properties of opioids in rats related to gut selectivity?
    Author: Megens AA, Canters LL, Awouters FH, Niemegeers CJ.
    Journal: Arch Int Pharmacodyn Ther; 1989; 298():220-9. PubMed ID: 2569297.
    Abstract:
    The antipropulsive activity of a series of opioids in the charcoal test was compared with their antidiarrheal activity in the castor oil test and their analgesic activity in the tail withdrawal test. The obtained antipropulsive/antidiarrheal potency ratios varied from 0.71 to greater than 552 [pethidine (oral ED50's in mg/kg: 21.5/30.2), fentanyl (0.77/0.49), dextromoramide (5.39/2.90), methadone (14.2/6.38), codeine (98.4/10.8), morphine (56.6/5.21), diphenoxylate (8.15/0.54), nufenoxole (74.7/1.72), difenoxin (7.10/0.16), loperamide oxide (greater than 160/0.34) and loperamide (greater than 160/0.29)]. The above ratios correlated with the gut selectivity of the compounds as defined by their analgesic/antidiarrheal potency ratios (r = 0.92, P less than 0.001). Furthermore, inhibition of propulsion was found to correlate with central analgesic activity (r = 0.93, P less than 0.001) but not with protection from diarrhea (r = 0.023, P greater than 0.05). Indeed, gut-selective opioids such as loperamide and loperamide oxide failed to affect propulsion up to doses more than 450 times their antidiarrheal doses. In contrast, alpha 2-adrenoceptor agonists delayed propulsion at doses comparable to their antidiarrheal doses [clonidine (0.085 vs 0.021), lidamidine (2.35 vs 1.66)] and anticholinergics inhibited propulsion even at doses many times below their antidiarrheal doses [atropine (0.26 vs 9.30), dexetimide (0.13 vs 5.03) and isopropamide (0.78 vs 74.6)]. The present results indicate that the in vivo inhibition of gastrointestinal propulsion by opioids in rats is mediated by a central action. Effects on intestinal fluid transport or, alternatively, on motility events distal to the ileocecal junction rather than effects on propulsion through the small intestine, seem to be the primary mechanism of antidiarrheal action of gut-selective opioids such as loperamide and loperamide oxide.
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