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Eur J Gastroenterol Hepatol. 1995 Nov;7(11):1059-63.
Influence of adrenoceptor agonists and antagonists on fluid secretion in small bowel obstruction.

Nellgard P, Bojo L, Jonsson A, Cassuto J.

Department of Anesthesiology and Intensive Care, Sahlgren's Hospital, Goteborg University, Sweden.

OBJECTIVES: To investigate the importance of adrenoceptors on fluid losses in small bowel obstruction. DESIGN: Evaluation of the effects of adrenergic agonists and antagonists on in-vivo net fluid secretion in chronic small bowel obstruction in rats. METHODS: Net fluid transport in a jejunal segment was continuously registered in vivo after 18 h of mechanical obstruction of the small bowel in anaesthetized rats. The effect on net fluid transport of adrenoceptor agonists and antagonists and of isotonic saline was quantified. RESULTS: Clonidine, an alpha 2-agonist, had a significant (P < 0.05) anti-secretory effect, while yohimbine, an alpha 2-antagonist, significantly (P < 0.05) increased net fluid secretion. Phenylephrine, an alpha 1-agonist, and prazosin, an alpha 1-antagonist, lacked significant effects on net fluid transport. Similarly, prenalterol, a beta 1-agonist, and metoprolol, a beta 1-antagonist, had no significant effect on the net fluid transport. The beta 2-agonist salbutamol significantly (P < 0.001) decreased net fluid secretion, while the beta-antagonist propranolol significantly (P < 0.001) decreased net fluid secretion. CONCLUSION: Activation of alpha 2-adrenoceptors and blockade of beta 2-adrenoceptors significantly reduce net fluid secretion in small bowel obstruction. Results also demonstrate a continuous stimulatory effect on fluid secretion mediated by beta 2-receptors and a continuous inhibitory effect mediated by alpha 2-receptors.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8680905&dopt=Abstract

Clin Pharmacol Ther. 1985 Jun;37(6):688-92.
Pregnancy-induced increase in metoprolol metabolism.

Hogstedt S, Lindberg B, Peng DR, Regardh CG, Rane A.

Five women who developed hypertension during pregnancy received metoprolol, 10 mg iv; 3 days later they received metoprolol, 100 mg by mouth. Blood and urine samples were collected after each dose. The same procedure was repeated 3 to 6 months after delivery. The apparent oral clearance of metoprolol during pregnancy exceeded that after pregnancy by a factor of 2 to 13. As a result, after oral dosing the peak plasma concentrations during pregnancy were only 12% to 55% those after delivery, and the plasma AUCs were reduced to the same extent. Oral bioavailability increased by a factor of 1.3 to 3.7 after pregnancy. Systemic clearance after pregnancy was 26% to 97% that during pregnancy, but this difference was not significant. Metoprolol plasma protein binding was the same on both study occasions. Our data cannot be explained by a change in gastrointestinal absorption, because the urinary recovery of metoprolol and its metabolites was slightly higher during pregnancy. It is concluded that the greater metoprolol clearance during pregnancy results from increased hepatic metabolism of the drug.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=4006368&dopt=Abstract

Endocrinology. 1984 Sep;115(3):858-61.
Beta-adrenergic antagonist inhibition of hepatic 3,5,3'-triiodothyronine production.

Shulkin BL, Peele ME, Utiger RD.

beta-Adrenergic antagonists provide moderate symptomatic relief for most hyperthyroid patients, although these agents have no direct antithyroid effects. Propranolol administration results in modest declines in serum T3 concentrations in both hyperthyroid and normal subjects and also inhibits T4 to T3 conversion in various tissue preparations in vitro. Other beta-adrenergic antagonists have not been shown to consistently alter serum T3 concentrations in vivo or T3 production in vitro. To evaluate the ability of beta-adrenergic antagonists to inhibit T4-5'-deiodination, we measured T3 production from T4 in rat liver homogenates (10,000 X g supernatant) using 1 microM T4 in the presence of varying concentrations of the beta-adrenergic antagonists available in the United States. Each drug inhibited T3 production, and the dose-dependent responses were linear and parallel when plotted as percent inhibition vs. log dose concentration. The calculated drug concentrations required to produce 50% inhibition were: propranolol, 1.7 mM; pindolol, 6.7 mM; timolol, 11.5 mM; atenolol, 23.2 mM; metoprolol, 30.5 mM, and nadolol, 106.1 mM. The IC50 values were similar in the presence of 4 mM dithiothreitol. In separate studies, the ability of D- and L-propranolol to inhibit T3 production was compared with that of D,L-propranolol, the common form. Both D- and L-propranolol were as effective as the racemic mixture. The propranolol metabolites 4-hydroxypropranolol, 4-methylpropranolol, propranolol glycol, and N-desisopropyl propranolol were also effective inhibitors. Thus, beta-adrenergic antagonists inhibit T3 production in vitro. This inhibition is not related to beta-adrenergic antagonism per se, but is correlated with the lipid solubility of the drugs, which may explain the effects of propranolol on serum T3 in vivo.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=6146516&dopt=Abstract

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