慢性间歇性低氧会改变大鼠对急性低氧的通气和代谢反应。

Chronic intermittent hypoxia alters ventilatory and metabolic responses to acute hypoxia in rats.

作者信息

Morgan Barbara J, Adrian Russell, Wang Zun-Yi, Bates Melissa L, Dopp John M

机构信息

John Rankin Laboratory of Pulmonary Medicine, School of Medicine and Public Health, University of Wisconsin, Madison, Wisconsin; Department of Orthopedics and Rehabilitation, School of Medicine and Public Health, University of Wisconsin, Madison, Wisconsin;

Department of Surgical Sciences, School of Veterinary Medicine, University of Wisconsin, Madison, Wisconsin;

出版信息

J Appl Physiol (1985). 2016 May 15;120(10):1186-95. doi: 10.1152/japplphysiol.00015.2016. Epub 2016 Feb 25.

DOI:10.1152/japplphysiol.00015.2016

PMID:26917692

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4867317/

Abstract

We determined the effects of chronic exposure to intermittent hypoxia (CIH) on chemoreflex control of ventilation in conscious animals. Adult male Sprague-Dawley rats were exposed to CIH [nadir oxygen saturation (SpO2), 75%; 15 events/h; 10 h/day] or normoxia (NORM) for 21 days. We assessed the following responses to acute, graded hypoxia before and after exposures: ventilation (V̇e, via barometric plethysmography), V̇o2 and V̇co2 (analysis of expired air), heart rate (HR), and SpO2 (pulse oximetry via neck collar). We quantified hypoxia-induced chemoreceptor sensitivity by calculating the stimulus-response relationship between SpO2 and the ventilatory equivalent for V̇co2 (linear regression). An additional aim was to determine whether CIH causes proliferation of carotid body glomus cells (using bromodeoxyuridine). CIH exposure increased the slope of the V̇e/V̇co2/SpO2 relationship and caused hyperventilation in normoxia. Bromodeoxyuridine staining was comparable in CIH and NORM. Thus our CIH paradigm augmented hypoxic chemosensitivity without causing glomus cell proliferation.

摘要

我们确定了慢性间歇性低氧（CIH）暴露对清醒动物通气化学反射控制的影响。成年雄性Sprague-Dawley大鼠暴露于CIH [最低氧饱和度（SpO2），75%；每小时15次事件；每天10小时] 或常氧（NORM）环境21天。我们评估了暴露前后对急性、分级低氧的以下反应：通气量（V̇e，通过气压体积描记法）、V̇o2和V̇co2（呼出气分析）、心率（HR）以及SpO2（通过颈圈进行脉搏血氧测定）。我们通过计算SpO2与V̇co2通气当量之间的刺激 - 反应关系（线性回归）来量化低氧诱导的化学感受器敏感性。另一个目的是确定CIH是否会导致颈动脉体球细胞增殖（使用溴脱氧尿苷）。CIH暴露增加了V̇e/V̇co2/SpO2关系的斜率，并在常氧状态下引起通气过度。CIH组和NORM组的溴脱氧尿苷染色相当。因此，我们的CIH模式增强了低氧化学敏感性，而不会导致球细胞增殖。

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