新生羔羊颈动脉化学感受器去神经前后缺氧的影响。
The effects of hypoxia in the new-born lamb before and after denervation of the carotid chemoreceptors.
作者信息
Purves M J
出版信息
J Physiol. 1966 Jul;185(1):60-77. doi: 10.1113/jphysiol.1966.sp007972.
Abstract
- Twenty-seven unanaesthetized new-born lambs, 6 hr-10 days old, responded to two levels of inspired oxygen, 125 and 110 mm Hg (alveolar CO(2) being controlled) with a sustained increase in minute ventilation (V), a small increase in heart rate and a less consistent rise in systemic blood pressure.2. An increase in V was observed when arterial oxygen tension (P(a), (O2)) had fallen by 6-15 mm Hg. There appeared to be no fixed threshold of P(a), (O2) at which ventilation started to increase.3. The increase in ventilation caused by these levels of hypoxia was significantly and directly related to the age of the lamb and to its control alveolar CO(2).4. More severe hypoxia caused a progressive increase in V until P(a), (O2) was about 25 mm Hg when respiration failed. This increase at P(a), (O2) > 25 mm Hg was markedly potentiated when alveolar P(CO2) (P(A), (CO2)) was increased and abolished after bilateral denervation of the carotid chemoreceptors.5. Significant (> 10%) left-to-right shunts were found in ten out of twelve lambs lightly anaesthetized with pentobarbitone sodium, breathing air. Hypoxia diminished the left-to-right pressure gradient largely by its pressor effect on the pulmonary circulation. When inspired O(2) tension (P(I), (O2)) was 70 mm Hg, all seven lambs studied showed a reversal of the pressure gradient and evidence of right-to-left shunts (11-42%) across the ductus arteriosus.6. The implications of these findings have been discussed with reference to previous studies of the new-born response to hypoxia and it is concluded that the peripheral chemoreceptors are fully active at birth and in the new-born period.
摘要
27只未麻醉的新生羔羊,年龄在6小时至10天之间,在两种吸入氧水平(125和110毫米汞柱,同时控制肺泡二氧化碳)下,分钟通气量(V)持续增加,心率略有增加,全身血压升高不太一致。
当动脉血氧分压(P(a),(O2))下降6 - 15毫米汞柱时,观察到V增加。似乎没有一个固定的P(a),(O2)阈值,在该阈值时通气开始增加。
这些低氧水平引起的通气增加与羔羊的年龄及其控制的肺泡二氧化碳显著且直接相关。
更严重的低氧导致V逐渐增加,直到P(a),(O2)约为25毫米汞柱时呼吸衰竭。当肺泡P(CO2)(P(A),(CO2))增加时,在P(a),(O2)>25毫米汞柱时的这种增加明显增强,并且在双侧颈动脉化学感受器去神经后消失。
在12只用戊巴比妥钠轻度麻醉、呼吸空气的羔羊中,有10只发现有显著(>10%)的左向右分流。低氧主要通过其对肺循环的升压作用减小了左向右压力梯度。当吸入氧张力(P(I),(O2))为70毫米汞柱时,所研究的7只羔羊均显示压力梯度逆转,并有证据表明动脉导管存在右向左分流(11 - 42%)。
已参照先前关于新生儿对低氧反应的研究讨论了这些发现的意义,并得出结论:外周化学感受器在出生时和新生儿期完全活跃。
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