作为胃排空决定因素的进餐量和能量含量
The volume and energy content of meals as determinants of gastric emptying.
作者信息
Hunt J N, Stubbs D F
出版信息
J Physiol. 1975 Feb;245(1):209-25. doi: 10.1113/jphysiol.1975.sp010841.
Abstract
- Results were collected from thirty-three published and unpublished studies of gastric emptying. The volumes of the meals ranged from 50 to 1250 ml., and composition varied from pure carbohydrates to ordinary food. 2. From the published composition of the meals, their nutritive density, as kcal/ml. (4-18 KJ/ml.) was computed: it ranged from zero to 2-3 kcal/ml. 3. The volume of each meal, or test meal, delivered to the duodenum in 30 min was determined, assuming that gastric emptying was exponential. 4. The greater the nutritive density of a meal, the less was the volume transferred to the duodenum in 30 min. The original volume of meal given was not a determinant of the rate of emptying (ml./min). 5. The slowing of gastric emptying with a meal of high nutritive density was not sufficient to prevent an increased rate of delivery of energy to the duodenum (nutritive density times volume delivered in unit time) with a meal of high nutritive density. 6. Assuming an appropriate relationship for the interaction of a stimulus (kcal/ml.) and duodenal receptors, it was possible to predict a rate of gastric emptying for each meal, given its nutritive density. Knowing the initial volume of the meal, it was possible to predict the mean half time for its emptying. 7. There were eight sets of anomalous results: in four the volumes of meal given were less than 200 ml.; explanations of the anomalies in the other four results could not be provided. 8. The results are consistent with equal slowing of gastric emptying by the duodenal action of the products of digestion of isocaloric amounts of fat, protein and carbohydrate, for example, 4 g fat or 9 g carbohydrate, both 36 kcal, taking carbohydrate and protein as 4 kcal/g and fat as 9 kcal/g.
摘要
- 研究结果来自33项已发表和未发表的关于胃排空的研究。餐食的量从50毫升至1250毫升不等,其成分从纯碳水化合物到普通食物各不相同。2. 根据已公布的餐食成分,计算出它们的营养密度,以千卡/毫升(4 - 18千焦/毫升)为单位:范围从零至2 - 3千卡/毫升。3. 假设胃排空呈指数形式,测定了30分钟内输送至十二指肠的每餐或测试餐的量。4. 一餐的营养密度越高,30分钟内输送至十二指肠的量就越少。所给餐食的原始量并非排空速率(毫升/分钟)的决定因素。5. 高营养密度餐食导致的胃排空减慢并不足以阻止高营养密度餐食向十二指肠输送能量的速率增加(营养密度乘以单位时间内输送的量)。6. 假设刺激(千卡/毫升)与十二指肠受体之间存在适当的相互作用关系,那么根据每餐的营养密度就有可能预测其胃排空速率。知道餐食的初始量,就有可能预测其排空的平均半衰期。7. 有八组异常结果:其中四组所给餐食量小于200毫升;另外四组结果异常的原因无法给出解释。8. 这些结果与等热量的脂肪、蛋白质和碳水化合物消化产物的十二指肠作用使胃排空同等程度减慢是一致的,例如,4克脂肪或9克碳水化合物,两者均为36千卡,以碳水化合物和蛋白质4千卡/克、脂肪9千卡/克计算。
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