Department of Biomedical Sciences, University of Missouri, Columbia, Missouri; and.
Department of Physiology, Medical College of Wisconsin, Milwaukee, Wisconsin.
J Appl Physiol (1985). 2017 Oct 1;123(4):825-834. doi: 10.1152/japplphysiol.00439.2017. Epub 2017 Aug 3.
Sudden infant death syndrome (SIDS), occurring during sleep periods, is highly associated with abnormalities within serotonin (5-HT) neurons, including reduced 5-HT. There is evidence that future SIDS cases experience more apnea and have abnormal arousal from sleep. In rodents, a loss of 5-HT neurons is associated with apnea in early life and, in adulthood, delayed arousal. As the activity of 5-HT neurons changes with vigilance state, we hypothesized that the degree of apnea and delayed arousal displayed by rat pups specifically lacking central 5-HT varies with state. Two-week-old tryptophan hydroxylase 2-deficient () and wild-type (WT) rat pups were placed in plethysmographic chambers supplied with room air. At the onset of active (AS) or quiet (QS) sleep, separate groups of rats were exposed to hypercapnia (5% CO) or mild hypoxia (~17% O) or maintained in room air. Upon arousal, rats received room air. Apnea indexes and latencies to spontaneous arousal from AS and QS were determined for pups exposed only to room air. Arousal latencies were also calculated for and WT pups exposed to hypoxia or hypercapnia. Compared with WT, pups hypoventilated in all states but were profoundly more apneic solely in AS. pups had delayed arousal in response to increasing CO, and AS selectively delayed the arousal of pups, irrespective of the gas they breathed. Thus infants who are deficient in CNS 5-HT may be at increased risk for SIDS in AS because of increased apnea and delayed arousal compared with QS. Sudden infant death syndrome (SIDS) occurs during sleep and is associated with central serotonin (5-HT) deficiency. We report that rat pups deficient in central 5-HT () are profoundly more apneic in active sleep (AS) but not quiet sleep (QS). Unlike control pups, the arousal of pups in air, CO, and hypoxia was delayed in AS compared with QS. Thus for infants deficient in central 5-HT, the risk of SIDS may be higher in AS than in QS.
婴儿猝死综合征(SIDS)发生在睡眠期间,与 5-羟色胺(5-HT)神经元的异常密切相关,包括 5-HT 减少。有证据表明,未来的 SIDS 病例经历更多的呼吸暂停,并且从睡眠中异常觉醒。在啮齿动物中,5-HT 神经元的丧失与生命早期的呼吸暂停有关,而在成年期则与觉醒延迟有关。由于 5-HT 神经元的活动随警觉状态而变化,我们假设特定缺乏中枢 5-HT 的大鼠幼仔显示的呼吸暂停和延迟觉醒程度随状态而变化。将两周大的色氨酸羟化酶 2 缺陷型()和野生型(WT)大鼠幼仔放入充满空气的 plethysmographic 室中。在活跃(AS)或安静(QS)睡眠开始时,将不同组的大鼠暴露于高碳酸血症(5%CO)或轻度低氧血症(~17%O)或在空气中维持。在觉醒时,大鼠接受空气。仅暴露于空气的大鼠确定了呼吸暂停指数和从 AS 和 QS 自发觉醒的潜伏期。还计算了暴露于缺氧或高碳酸血症的和 WT 幼仔的觉醒潜伏期。与 WT 相比,在所有状态下,幼仔通气不足,但仅在 AS 时呼吸暂停更为严重。在 CO 增加时,幼仔的觉醒延迟,并且 AS 选择性地延迟了 幼仔的觉醒,而与它们呼吸的气体无关。因此,与 QS 相比,中枢神经系统 5-HT 缺乏的婴儿可能因呼吸暂停增加和觉醒延迟而增加 SIDS 的风险。婴儿猝死综合征(SIDS)发生在睡眠期间,与中枢 5-羟色胺(5-HT)缺乏有关。我们报告说,中枢 5-HT 缺乏型大鼠幼仔()在活跃睡眠(AS)中呼吸暂停更为严重,但在安静睡眠(QS)中则不然。与对照幼仔不同,与 QS 相比,在空气、CO 和低氧血症中,幼仔的觉醒在 AS 中延迟。因此,对于中枢 5-HT 缺乏的婴儿,与 QS 相比,AS 中 SIDS 的风险可能更高。
