Gastric bypass involves reducing the size of the stomach and bypassing part of the small intestine, where digestion occurs. People eat less and absorb fewer calories as a result.
胃肠分流术包括缩小胃容积以及与部分小肠形成旁路,两者均参与消化过程,进而导致人们吃得更少或吸收更少的热量。
This article introduces the physiology, the physiological regulation and the clinic significance of the gastric or intestine movements.
本文介绍了胃肠运动的生理、生理调节、临床研究;
Gastrointestinal tract is very sensitive to coldness stimulation. Secreted gastric acid increases and stomach intestine shrinks convulsively. The resistance and adaptability decrease accordingly.
胃肠道对寒冷的刺激非常敏感,受冷后胃酸分泌增加,胃肠发生痉挛性收缩,抵抗力和适应性随之降低。
Lung cancer, liver cancer, intestine cancer and gastric cancer are also main cancers effecting citizen health.
支气管肺癌、肝癌、肠癌和胃癌仍是影响杭州市区居民健康的主要危险肿瘤类型。
Methods 1. The peristalsis length of chinese ink in small intestine of 10 mice were investigatedafter gastric infusion of ST, compared with 10 mice with distilled water;
方法:(1)用测量碳素墨水在小肠移动长度的实验方法观察10只小白鼠用升降肠灌胃后小肠的蠕动功能,并与蒸馏水对照组10只进行对比观察;
Methods: The methods of small intestine movement and gastric ulcer model, phagocytosis and swimming in mice.
方法:采用小肠运动和胃溃疡模型、细胞吞噬和小鼠游泳等实验方法。
Methods the experimental methods of gastric emptying and small intestine propulsion were used in the study.
方法采用小鼠胃排空和小肠推进的实验方法。
Objective To investigate the influence of Zengshiling oral liquid on gastric emptying, plasma motilin (mot) and small intestine propulsion of young rat.
目的观察增食灵口服液对幼龄鼠胃排空、血浆胃动素(MOT)、小肠推进的影响。
Objective:This study aims to investigate the effect of areca nut decoction on the expression of M2, M3RmRNA in rats ileum and gastric antrum tissue of rats with stomach and intestine dyskinesis.
目的:通过观察槟榔水煎液对胃肠动力障碍模型大鼠胃窦及回肠M2、M3受体表达的影响,进一步探讨槟榔的促胃肠动力机制。
Methods: Tissues of gastric antrum, small intestine, colon in 12 weeks alloxan-diabetic rat were observed through electric telescope.
方法:建立四氧嘧啶-糖尿病大鼠模型,对其胃肠道各个部位的超微结构变化进行观察。
Methods: Tissues of gastric antrum, small intestine, colon in 12 weeks alloxan-diabetic rat were observed through electric telescope.
方法:建立四氧嘧啶-糖尿病大鼠模型,对其胃肠道各个部位的超微结构变化进行观察。
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