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外周动脉化学感受器对缺氧化学敏感性的发育成熟——特邀文章

Developmental maturation of chemosensitivity to hypoxia of peripheral arterial chemoreceptors--invited article.

作者信息

Gauda Estelle B, Carroll John L, Donnelly David F

机构信息

Department of Pediatrics, Division of Neonatology, Johns Hopkins Medical Institutions, Baltimore, MD 21287, USA.

出版信息

Adv Exp Med Biol. 2009;648:243-55. doi: 10.1007/978-90-481-2259-2_28.

Abstract

Peripheral arterial chemoreceptors, particularly the carotid body chemoreceptors, are the primary sites for the detection of hypoxia and reflexly increase ventilatory drive and behavioral arousal during hypoxic or asphyxial events. Newborn infants are at risk for hypoxic and asphyxial events during sleep, yet, the strength of the chemoreceptor responses is low or absent at birth and then progressively increases with early postnatal development. This review summarizes the available data showing that even though the "oxygen sensor" in the glomus cells has not been unequivocally identified, it is clear that development affects many of the other properties of the chemoreceptor unit (glomus cell, afferent nerve fibers and neurotransmitter profile at the synapse) that are necessary and essential for the propagation of the "sensing" response, and exposure to hypoxia, hyperoxia and nicotine can modify normal development of each of the components leading to altered peripheral chemoreceptor responses.

摘要

外周动脉化学感受器,尤其是颈动脉体化学感受器,是检测缺氧的主要部位,在缺氧或窒息事件期间可反射性增加通气驱动力和行为觉醒。新生儿在睡眠期间有发生缺氧和窒息事件的风险,然而,化学感受器反应的强度在出生时较低或不存在,然后随着出生后早期发育逐渐增强。这篇综述总结了现有数据,表明尽管球细胞中的“氧传感器”尚未明确确定,但很明显,发育会影响化学感受器单元的许多其他特性(球细胞、传入神经纤维和突触处的神经递质谱),这些特性对于“传感”反应的传播是必要且至关重要的,并且暴露于缺氧、高氧和尼古丁会改变每个组件的正常发育,导致外周化学感受器反应改变。

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