微循环变化对脑组织氧合的影响。
Effect of microcirculation changes on brain tissue oxygenation.
作者信息
Bicher H I, Bruley D, Knisely M H, Reneau D D
出版信息
J Physiol. 1971 Sep;217(3):689-707. doi: 10.1113/jphysiol.1971.sp009594.
Abstract
- A new, 2 mu tip, oxygen micro-electrode and a constantly circulated Beckman oxygen gas analyser were used to measure tissue and blood P(O) (2) in anaesthetized, curarized cats under positive pressure breathing. As a parameter for the ability of the circulation to oxygenate tissue, the ;reoxygenation time' (defined as the time required to reach the previous P(O) (2) level after a short period of anoxic anoxia) was determined on blood and cerebral cortex.2. First, it was found that haemorrhage (from 15-25 c.c./kg) alone or haemorrhage combined with sludging of the blood (by the I.V. administration of high molecular weight Dextran, 1 g/kg) markedly diminished P(O) (2) levels in blood and tissue.3. Further, the reoxygenation time was significantly affected by these procedures. Sludging markedly prolonged the reoxygenation time, an effect counteracted by the use of an anti-adhesive drug breaking up the red cell aggregates.4. Bleeding prolonged the reoxygenation time up to four times that found in the same animals previous to the bleeding.
摘要
使用一种新型的双尖端氧微电极和一台持续循环的贝克曼氧气分析仪,在正压呼吸条件下,对麻醉、箭毒化的猫的组织和血液中的P(O)₂进行测量。作为循环系统对组织进行氧合能力的一个参数,“再氧合时间”(定义为短时间缺氧性缺氧后达到先前P(O)₂水平所需的时间)在血液和大脑皮层上进行了测定。
首先,发现单独出血(15 - 25毫升/千克)或出血与血液淤滞(通过静脉注射1克/千克的高分子量右旋糖酐)相结合,会显著降低血液和组织中的P(O)₂水平。
此外,这些操作对再氧合时间有显著影响。血液淤滞显著延长了再氧合时间,而使用一种分解红细胞聚集体的抗黏附药物可抵消这种影响。
出血使再氧合时间延长至出血前同一动物的四倍。
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本文引用的文献
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Sludged Blood.血液淤滞
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