运动期间低水合状态对胃排空和肠道吸收的影响。

Effect of hypohydration on gastric emptying and intestinal absorption during exercise.

作者信息

Ryan A J, Lambert G P, Shi X, Chang R T, Summers R W, Gisolfi C V

机构信息

Departments of Exercise Science and Internal Medicine, University of Iowa, Iowa City 52242, USA.

出版信息

J Appl Physiol (1985). 1998 May;84(5):1581-8. doi: 10.1152/jappl.1998.84.5.1581.

DOI:10.1152/jappl.1998.84.5.1581

PMID:9572802

Abstract

Dehydration and hyperthermia may impair gastric emptying (GE) during exercise; the effect of these alterations on intestinal water flux (WF) is unknown. Thus the purpose of this study was to determine the effect of hypohydration ( approximately 2.7% body weight) on GE and WF of a water placebo (WP) during cycling exercise (85 min, 65% maximal oxygen uptake) in a cool environment (22 degrees C) and to also compare GE and WF of three carbohydrate-electrolyte solutions (CES) while the subjects were hypohydrated. GE and WF were determined simultaneously by a nasogastric tube placed in the gastric antrum and via a multilumen tube that spanned the duodenum and the first 25 cm of jejunum. Hypohydration was attained 12-16 h before experiments by low-intensity exercise in a hot (45 degrees C), humid (relative humidity 50%) environment. Seven healthy subjects (age 26.7 +/- 1.7 yr, maximal oxygen uptake 55.9 +/- 8.2 ml . kg-1 . min-1) ingested either WP or a 6% (330 mosmol), 8% (400 mosmol), or a 9% (590 mosmol) CES the morning following hypohydration. For comparison, subjects ingested WP after a euhydration protocol. Solutions ( approximately 2.0 liters total) were ingested as a large bolus (4.6 ml/kg body wt) 5 min before exercise and as small serial feedings (2.3 ml/kg body wt) every 10 min of exercise. Average GE rates were not different among conditions (P > 0.05). Mean (+/-SE) values for WF were also similar (P > 0.05) for the euhydration (15.3 +/- 1.7 ml . cm-1 . h-1) and hypohydration (18.3 +/- 2.6 ml . cm-1 . h-1) experiments. During exercise after hypohydration, water absorption was greater (P < 0.05) with ingestion of WP (18.3 +/- 2. 6) and the 6% CES (16.5 +/- 3.7), compared with the 8% CES (6.9 +/- 1.5) and the 9% CES (1.8 +/- 1.7). Mean values for final core temperature (38.6 +/- 0.1 degrees C), heart rate (152 +/- 1 beats/min), and change in plasma volume (-5.7 +/- 0.7%) were similar among experimental trials. We conclude that 1) hypohydration to approximately 3% body weight does not impair GE or fluid absorption during moderate exercise when ingesting WP, and 2) hyperosmolality (>400 mosmol) reduced WF in the proximal intestine.

摘要

脱水和体温过高可能会在运动期间损害胃排空（GE）；这些改变对肠道水通量（WF）的影响尚不清楚。因此，本研究的目的是确定在凉爽环境（22摄氏度）中进行自行车运动（85分钟，最大摄氧量的65%）期间，轻度脱水（约2.7%体重）对水安慰剂（WP）的GE和WF的影响，并且还要比较受试者轻度脱水时三种碳水化合物 - 电解质溶液（CES）的GE和WF。通过放置在胃窦中的鼻胃管以及跨越十二指肠和空肠前25厘米的多腔管同时测定GE和WF。在实验前12 - 16小时，通过在炎热（45摄氏度）、潮湿（相对湿度50%）环境中进行低强度运动来实现轻度脱水。七名健康受试者（年龄26.7±1.7岁，最大摄氧量55.9±8.2毫升·千克⁻¹·分钟⁻¹）在轻度脱水后的早晨摄入WP或6%（330毫渗量）、8%（400毫渗量）或9%（590毫渗量）的CES。为了进行比较，受试者在正常水合方案后摄入WP。溶液（总量约2.0升）在运动前5分钟作为大剂量（4.6毫升/千克体重）摄入，并在运动的每10分钟作为小剂量连续喂食（2.3毫升/千克体重）。各条件下的平均GE速率无差异（P>0.05）。正常水合（15.3±1.7毫升·厘米⁻¹·小时⁻¹）和轻度脱水（18.3±2.6毫升·厘米⁻¹·小时⁻¹）实验中WF的平均值（±标准误）也相似（P>0.05）。在轻度脱水后的运动期间，与8% CES（6.9±1.5）和9% CES（1.8±1.7）相比，摄入WP（18.3±2.6）和6% CES（16.5±3.7）时水吸收更大（P<0.05）。各实验中最终核心温度（38.6±0.1摄氏度）、心率（152±1次/分钟）和血浆量变化（-5.7±0.7%）的平均值相似。我们得出结论：1）当摄入WP时，轻度脱水至约3%体重不会损害中等强度运动期间的GE或液体吸收；2）高渗性（>400毫渗量）会降低近端肠道的WF。