训练有素的犬只对鼻端浸入的心脏反应。
Cardiac responses to snout immersion in trained dogs.
作者信息
Goodman B A, Stone H L, Young S
出版信息
J Physiol. 1974 Oct;242(2):405-14. doi: 10.1113/jphysiol.1974.sp010714.
Abstract
- Four dogs were trained to immerse their snout voluntarily for durations up to 30 sec. Indwelling instrumentation was implanted to measure blood flow velocity in the circumflex branch of the left coronary artery, to sample blood from the left atrium and coronary sinus for the determination of P(O2), P(CO2), pH, oxygen saturation and haemoglobin concentration, and to pace the heart. An index of myocardial oxygen consumption was calculated by multiplying the mean flow velocity by the arteriovenous difference in oxygen content.2. Mean coronary flow velocity decreased significantly during simulated diving by 26 +/- 27% (+/- S.D.). The range of decrease in seventeen out of twenty experiments was from -5 to -81%. Heart rate decreased by 48 +/- 7% and this bradycardia was abolished by I.V. atropine.3. Coronary sinus oxygen saturation increased significantly with snout immersion (three dogs) and arteriovenous difference decreased from 67 +/- 10 to 47 +/- 5%. The index of myocardial oxygen consumption decreased by 42 +/- 19%. This decrease was attenuated slightly by beta-blockade but was abolished by cardiac pacing in three out of four experiments.4. The present study indicates that the heart consumes oxygen at a considerably reduced rate during simulated diving and therefore plays a direct role in the overall conservation of oxygen. This response appears to result primarily from a negative chronotropic effect induced by increased vagal tone.
摘要
训练了四只狗,使其能自主将口鼻浸入水中长达30秒。植入体内的仪器用于测量左冠状动脉回旋支的血流速度,从左心房和冠状窦采集血液以测定血氧分压(P(O2))、二氧化碳分压(P(CO2))、pH值、血氧饱和度和血红蛋白浓度,并用于心脏起搏。心肌耗氧量指数通过将平均血流速度乘以动静脉血氧含量差来计算。
在模拟潜水期间,冠状动脉平均血流速度显著降低,降幅为26±27%(±标准差)。在20次实验中的17次,血流速度降低范围为-5%至-81%。心率降低了48±7%,静脉注射阿托品可消除这种心动过缓。
随着口鼻浸入水中,冠状窦血氧饱和度显著增加(三只狗),动静脉血氧含量差从67±10降至47±5%。心肌耗氧量指数降低了42±19%。β受体阻滞剂可使这种降低稍有减弱,但在四分之三的实验中,心脏起搏可消除这种降低。
本研究表明,在模拟潜水期间,心脏以显著降低的速率消耗氧气,因此在整体氧气保存中起直接作用。这种反应似乎主要是由迷走神经张力增加引起的负性变时作用导致的。
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