兔肺中的一种热表面现象:热转化为功的可能基础。
A thermal surface phenomenon in the rabbit lung: possible basis for the conversion of heat into work.
作者信息
Hills B A
机构信息
Department of Physiology, University of New England, Armidale, New South Wales, Australia.
出版信息
J Physiol. 1988 Aug;402:463-71. doi: 10.1113/jphysiol.1988.sp017215.
Abstract
- Surfactant and fluid expressed from rabbit lungs has been used to form films on a simple Maxwell frame having a ratio of area-to-thermal capacity comparable to that existing in vivo. 2. When the area was increased by 2:1, the temperature fell by 5.6 degrees C and returned to 37 degrees C upon contraction as recorded by an infra-red thermometer with no thermal capacity. 3. The experiment was repeated upon thin lung sections when the temperature fall was 2.4 degrees C and was again reversed upon contraction. 4. When surfactant was removed from the surface of those sections, the temperature changed in the opposite direction, indicating that surfactant was responsible for the changes described above. 5. This surface energy phenomenon is discussed in relation to the common assumption that the lung operates under isothermal conditions when it may explain some of the discrepancies between studies of lung mechanics over different time scales. 6. Since the results are compatible with the inversion of hysteresis loops for surface tension versus the area of surfactant monolayers cycled to steady state in previous studies, it is speculated that heat, e.g. waste metabolic heat, might be the energy source for this surface 'engine' if, indeed, it is contributing to the work available for breathing.
摘要
- 从兔肺中提取的表面活性剂和液体已被用于在一个简单的麦克斯韦框架上形成薄膜,该框架的面积与热容量之比与体内存在的情况相当。2. 当面积增加2倍时,温度下降了5.6摄氏度,在收缩时,如无热容量的红外温度计所记录的,温度又恢复到37摄氏度。3. 在薄肺切片上重复该实验,温度下降了2.4摄氏度,收缩时温度再次反转。4. 当从这些切片表面去除表面活性剂时,温度向相反方向变化,表明表面活性剂是上述变化的原因。5. 针对肺在等温条件下运作这一常见假设讨论了这种表面能现象,这种现象可能解释了不同时间尺度下肺力学研究之间的一些差异。6. 由于这些结果与先前研究中表面张力与循环至稳态的表面活性剂单分子层面积的滞后环反转情况相符,因此推测,如果这种表面“引擎”确实有助于呼吸可用的功,那么热量,例如代谢废热,可能是其能量来源。
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