空气湿度与山羊体温调节中颈动脉网的功能
Air humidity and carotid rete function in thermoregulation of the goat.
作者信息
Jessen C, Pongratz H
出版信息
J Physiol. 1979 Jul;292:469-79. doi: 10.1113/jphysiol.1979.sp012865.
Abstract
- The effects of air humidity on respiratory rate have been studied in conscious goats exposed to an air temperature of + 33 degrees C. Before the experiments the animals had been chronically implanted with hypothalamic thermodes and intravascular heat exchangers to manipulate hypothalamic and general body core temperatures.2. Raising air humidity from 37 to 96% at constant air temperature resulted in a rise of respiratory rate, an immediate increase in hypothalamic temperature and a delayed smaller increase in general body core temperature.3. The rise of respiratory rate was smaller when general body core temperature was clamped at its control level and was absent when hypothalamic and general body core temperatures were clamped at their control levels during the humid air phase.4. It is concluded that the effect of high air humidity on respiratory rate in goats is predominantly the result of a rise in hypothalamic temperature acting on local thermosensitive structures. The carotid rete heat exchanger is thought to provide the thermal link between the evaporating surfaces of the upper respiratory tract and the hypothalamus.5. This function of the carotid rete heat exchanger is restricted to heat stressed animals. In animals subject to central cooling no local effects on hypothalamic temperature could be observed when the temperature of the inspired air was altered from + 33 to - 17 degrees C.
摘要
在暴露于33摄氏度气温的清醒山羊身上,研究了空气湿度对呼吸频率的影响。在实验前,这些动物已被长期植入下丘脑温度传感器和血管内热交换器,以控制下丘脑和全身核心温度。
在恒定气温下将空气湿度从37%提高到96%,导致呼吸频率上升、下丘脑温度立即升高,全身核心温度延迟出现较小幅度的升高。
当全身核心温度维持在对照水平时,呼吸频率的上升幅度较小;在潮湿空气阶段,当下丘脑和全身核心温度都维持在对照水平时,呼吸频率则没有上升。
得出的结论是,高空气湿度对山羊呼吸频率的影响主要是下丘脑温度升高作用于局部热敏结构的结果。颈动脉网热交换器被认为是上呼吸道蒸发表面与下丘脑之间的热连接。
颈动脉网热交换器的这一功能仅限于热应激动物。在进行中枢冷却的动物中,当吸入空气的温度从33摄氏度变为零下17摄氏度时,未观察到对下丘脑温度有局部影响。
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