持续缺氧时颈动脉体敏感性增高。

Biological signals Pub Date : 1995-09-01 DOI:10.1159/000109455

G E Bisgard

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引用次数: 23

摘要

在稳态长时间缺氧时，通气不是恒定的。这提出了关于颈动脉体(CB)在持续缺氧中的作用的问题。在清醒的山羊中进行的研究表明，使用体外CB电路分离全身(CNS)和CB血气提供了证据，证明与CB隔离的长时间缺氧会导致CB对缺氧的敏感性随时间增加。这些发现在麻醉山羊的传入脑电波放电记录中得到证实。在猫身上的研究与在山羊身上的研究是一致的。由此得出结论，长时间的低氧刺激增加了脑脊膜对低氧的敏感性，至少在一定程度上导致了长时间缺氧(如高原适应)时通气动力的增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Increase in carotid body sensitivity during sustained hypoxia.

Ventilation is not constant during steady-state prolonged hypoxia. This raises questions as to the role of the carotid body (CB) in sustained hypoxia. Studies in awake goats using an extracorporeal CB circuit to allow separation of systemic (CNS) and CB blood gases provided evidence that prolonged hypoxia isolated to the CB causes time-dependent increased CB sensitivity to hypoxia. These findings were confirmed in recordings of afferent CB discharge in anesthetized goats. Studies in cats have been compatible with those in goats. It is concluded that prolonged hypoxic stimulation of the CB increases its sensitivity to hypoxia and is at least partly responsible for increased ventilatory drive during prolonged hypoxia such as during altitude acclimatization.

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Biological signals

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