产前尼古丁暴露对新生大鼠低氧和高碳酸血症通气反应发育的影响。
Influence of prenatal nicotine exposure on development of the ventilatory response to hypoxia and hypercapnia in neonatal rats.
机构信息
Department of Physiology, University of Arizona, Tucson, AZ 85721-0093, USA.
出版信息
J Appl Physiol (1985). 2010 Jul;109(1):149-58. doi: 10.1152/japplphysiol.01036.2009. Epub 2010 Apr 29.
In a recent study (Huang YH et al. Respir Physiol Neurobiol 143: 1-8, 2004), we showed that prenatal nicotine exposure (PNE) increased the frequency of spontaneous apneic events on the first 2 days of life in unanesthetized neonatal rats. Here we test the hypothesis that PNE blunts chemoreceptor reflexes. Ventilatory responses to three levels each of hypoxia (inspired O(2) fraction: 16, 12, and 10%) and hypercapnia (3, 6, and 9% inspired CO(2) fraction, all in 50% O(2), balance N(2)), and one level each of combined hypoxia-hypercapnia (H/H; 12% inspired O(2) fraction/5% inspired CO(2) fraction) and hyperoxia (50% O(2), 50% N(2)) were recorded with head-out plethysmography in neonatal rats exposed to either nicotine (N = 12) or physiological saline (N = 12) in the prenatal period. Recordings were made on postnatal day 1 (P1), P3, P6, P9, P12, and P18, in each animal. The change in ventilation in response to hypoxia was blunted in PNE animals on P1 and P3, but there were no other treatment effects. Hyperoxia significantly depressed ventilation in both groups from P3-P18, but there were no significant treatment effects. The ventilatory response to 3, 6, and 9% inspired CO(2) was significantly blunted in PNE animals at all ages studied, due exclusively to a blunted tidal volume response. PNE also blunted the ventilatory response to H/H at all ages, due primarily to blunting of the tidal volume response. PNE had no significant effect on body mass or metabolic rate, except that PNE animals had a slightly higher mass on P18 and a lower metabolic rate on P1. As shown by others, PNE has small and inconsistent effects on hypoxic ventilatory responses, but here we show that responses to hypercapnia and H/H are consistently blunted by PNE due to a diminished tidal volume response. The combination of reduced hypoxic and hypercapnic sensitivity over the first 3 days of life may define an especially vulnerable developmental period.
在最近的一项研究(Huang YH 等人,呼吸生理神经生物学 143:1-8,2004)中,我们发现产前尼古丁暴露(PNE)增加了未麻醉新生大鼠生命头两天自发性呼吸暂停事件的频率。在这里,我们测试了 PNE 减弱化学感受器反射的假设。在每个动物中,使用头外测压法记录了三种水平的缺氧(吸入 O2 分数:16、12 和 10%)和三种水平的高碳酸血症(3、6 和 9%吸入 CO2 分数,均在 50% O2 中,平衡 N2)以及一种水平的缺氧-高碳酸血症联合(H/H;12%吸入 O2 分数/5%吸入 CO2 分数)和高氧(50% O2、50% N2)的通气反应。PNE 组(N=12)和生理盐水(N=12)在产前暴露于尼古丁或生理盐水的新生大鼠中进行了记录。在每个动物中,分别在出生后第 1 天(P1)、第 3 天(P3)、第 6 天(P6)、第 9 天(P9)、第 12 天(P12)和第 18 天(P18)进行了记录。在 PNE 动物中,第 1 天和第 3 天对缺氧的通气反应减弱,但没有其他治疗效果。高氧在 P3-P18 期间显著抑制两组的通气,但无明显治疗作用。在所有研究的年龄中,PNE 动物对 3、6 和 9%吸入 CO2 的通气反应明显减弱,这仅归因于潮气量反应减弱。PNE 还使 H/H 的通气反应在所有年龄都减弱,主要是由于潮气量反应减弱。PNE 对体重或代谢率没有显著影响,除了 PNE 动物在 P18 时体重略高和 P1 时代谢率略低。如其他人所示,PNE 对低氧通气反应的影响很小且不一致,但在这里我们表明,由于潮气量反应减弱,PNE 使高碳酸血症和 H/H 的反应始终减弱。在生命头 3 天内,缺氧和高碳酸血症敏感性降低的组合可能定义了一个特别脆弱的发育阶段。
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