兔和人类体内的胆汁酸与结肠运动

Bile acids and colonic motility in the rabbit and the human.

作者信息

Kirwan W O, Smith A N, Mitchell W D, Falconer J D, Eastwood M A

出版信息

Gut. 1975 Nov;16(11):894-902. doi: 10.1136/gut.16.11.894.

DOI:10.1136/gut.16.11.894

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1413128/

Abstract

Colonic motor activity was initiated by infusions of bile salts into the caecum or rectum of the anaesthetized rabbit. Primary bile acids were examined proximally and distally in the colon and elicited marked motor responses. Sinc dihydroxy bile acids are known to be potent inhibitors of electrolyte and water absorption in the colon, the secondary bile acid deoxycholic acid, the dihydroxyl compound most related to cholic acid which is the main bile acid in the rabbit, was examined distally and was also active, but to a lesser extent than cholic acid conjugates in this species. In man, a relationship was found between the faecal bile acid excretion and colonic motility: the introduction of bile acids directly into the human sigmoid colon and rectum also stimulated colonic motility. In man, the dihydroxy compound chenodeoxycholic acid was slightly more active than conjugates of cholic acid.

摘要

通过向麻醉兔的盲肠或直肠注入胆汁盐来启动结肠运动活性。在结肠近端和远端检测了初级胆汁酸，它们引发了明显的运动反应。由于已知二羟基胆汁酸是结肠中电解质和水吸收的有效抑制剂，因此检测了次级胆汁酸脱氧胆酸，它是与兔体内主要胆汁酸胆酸关系最密切的二羟基化合物，在远端检测时也有活性，但活性程度低于该物种中的胆酸共轭物。在人类中，发现粪便胆汁酸排泄与结肠动力之间存在关联：将胆汁酸直接引入人体乙状结肠和直肠也会刺激结肠动力。在人类中，二羟基化合物鹅去氧胆酸的活性略高于胆酸共轭物。

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