热、渗透压和血容量减少因素在猪饮水控制中的相对重要性。
The relative importance of thermal, osmotic and hypovolaemic factors in the control of drinking in the pig.
作者信息
Ingram D L, Stephens D B
出版信息
J Physiol. 1979 Aug;293:501-12. doi: 10.1113/jphysiol.1979.sp012903.
Abstract
- The influence of thermogenic, osmotic or hypovolaemic stimuli on drinking has been measured in young pigs. Temperature changes in the hypothalamus and spinal cord were induced by means of implanted thermodes, while peripheral changes in skin and scrotal temperature were induced by circulating water through a coat. Osmotic stimuli were applied by I.V. injections of NaCl and hypovolaemia was induced by withdrawal of blood. 2. At an ambient temperature of 21--24 degrees C warming the hypothalamus for 10 min increased the water intake approximately 40%, while cooling the hypothalamus for a similar period reduced it by about 70%. 3. At an ambient temperature of 21--24 degrees C warming the scrotum caused the pigs to drink more than controls, and at the higher ambient temperature of 32 degrees C the effect was even greater. 4. Warming or cooling the spinal cord produced effects that were not consistent either within or between animals, thus temperature changes in this region play, at most, a minimal physiological role in the control of drinking in the pig. Warming the skin to 40 degrees C produced a slight increase in water intake, as also did cooling of the skin. 5. Drinking induced by an osmotic stimulus was proportional to the concentration of NaCl ranging from 5 to 30%. 6. Withdrawal of 500 ml. blood did not produce a statistically significant increase in water intake compared with controls.
摘要
- 已在幼猪身上测量了产热、渗透或低血容量刺激对饮水的影响。通过植入的热电极诱导下丘脑和脊髓的温度变化,同时通过外套循环水来诱导皮肤和阴囊温度的外周变化。通过静脉注射氯化钠施加渗透刺激,并通过抽血诱导低血容量。2. 在21 - 24摄氏度的环境温度下,使下丘脑升温10分钟会使饮水量增加约40%,而使下丘脑冷却类似时间则会使其减少约70%。3. 在21 - 24摄氏度的环境温度下,使阴囊升温会导致猪比对照组喝更多的水,而在32摄氏度的较高环境温度下,这种影响更大。4. 加热或冷却脊髓产生的效果在动物体内或动物之间都不一致,因此该区域的温度变化在猪的饮水控制中至多起最小的生理作用。将皮肤加热到40摄氏度会使饮水量略有增加,皮肤冷却时也是如此。5. 由渗透刺激诱导的饮水与5%至30%的氯化钠浓度成正比。6. 与对照组相比,抽取500毫升血液并未使饮水量产生统计学上的显著增加。
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