成年豚鼠离体脑干中化学敏感结构的定位
Localization of chemosensitive structures in the isolated brainstem of adult guinea-pig.
作者信息
Morin-Surun M P, Boudinot E, Schäfer T, Denavit-Saubié M
机构信息
Institut Alfred Fessard, Biologie Fonctionnelle du Neurone, CNRS, Gif sur Yvette, France.
出版信息
J Physiol. 1995 May 15;485 ( Pt 1)(Pt 1):203-12. doi: 10.1113/jphysiol.1995.sp020724.
Abstract
- Central respiratory chemosensitivity has been intensively examined but some questions remain unsolved; namely, what is the nature of the stimulus (fixed acid and/or CO2) and where is the site of brainstem chemosensitivity (near the ventral medullary surface or structures deeper within the brainstem)? To examine these questions, we used the in vitro isolated brainstem of adult guinea-pig perfused independently through the basilar artery and the bath. 2. Respiratory motor output was recorded with a suction electrode from cranial hypoglossal (XII) roots. Changes in pH and CO2 in the Krebs perfusate were made by changing either the bicarbonate concentration or the PCO2 saturating the Krebs solution. 3. Changes in basilar artery perfusate consisting of (i) an acidifying increase in PCO2 (hypercapnic acidic Krebs solution), (ii) an increase in PCO2 with no change in pH (hypercapnic Krebs solution), or (iii) a decrease in pH with no change in PCO2 (acidic Krebs solution) evoked increases in respiratory frequency and a concomitant decrease in inspiratory burst amplitude. 4. Bath superfusion with hypercapnic acidic Krebs solution increased the inspiratory burst amplitude with no effect on respiratory burst frequency. 5. Bath superfusion with hypercapnic non-acidic Krebs solution increased the inspiratory burst amplitude and decreased the respiratory frequency, while normocapnic acidic Krebs solution increased the respiratory frequency with no change in burst amplitude. 6. These results show that respiratory responses to changes in CO2 and pH depend upon the sites of action. While a CO2 increase or a pH decrease affected the respiratory frequency in the deep brainstem structures (perfused through the basilar artery), CO2 respiratory chemosensitivity at the ventral surface could be differentiated from the hydrogen ion chemosensitivity. This suggests that different mechanisms mediated respiratory responses when deep versus superficial brainstem structures were stimulated.
摘要
- 中枢呼吸化学敏感性已得到深入研究,但仍有一些问题未得到解决;也就是说,刺激的本质是什么(固定酸和/或二氧化碳),脑干化学敏感部位在哪里(延髓腹侧面附近还是脑干更深部的结构)?为了研究这些问题,我们使用了成年豚鼠的体外分离脑干,通过基底动脉和浴槽进行独立灌注。2. 用吸电极从颅舌下神经(XII)根部记录呼吸运动输出。通过改变碳酸氢盐浓度或使克雷布斯溶液达到饱和的二氧化碳分压来改变克雷布斯灌注液中的pH值和二氧化碳含量。3. 基底动脉灌注液的变化包括:(i)二氧化碳分压酸化增加(高碳酸性酸性克雷布斯溶液),(ii)二氧化碳分压增加而pH值不变(高碳酸性克雷布斯溶液),或(iii)pH值降低而二氧化碳分压不变(酸性克雷布斯溶液),这些变化引起呼吸频率增加,同时吸气爆发幅度减小。4. 用高碳酸性酸性克雷布斯溶液进行浴槽灌流可增加吸气爆发幅度,而对呼吸爆发频率无影响。5. 用高碳酸性非酸性克雷布斯溶液进行浴槽灌流可增加吸气爆发幅度并降低呼吸频率,而正常碳酸性酸性克雷布斯溶液可增加呼吸频率,爆发幅度不变。6. 这些结果表明,对二氧化碳和pH值变化的呼吸反应取决于作用部位。虽然二氧化碳增加或pH值降低会影响脑干深部结构(通过基底动脉灌注)的呼吸频率,但腹侧面的二氧化碳呼吸化学敏感性可与氢离子化学敏感性区分开来。这表明,当刺激脑干深部与浅部结构时,介导呼吸反应的机制不同。
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