Marcus C L, Gozal D, Arens R, Basinski D J, Omlin K J, Keens T G, Ward S L
Division of Neonatology and Pediatric Pulmonology, Childrens Hospital Los Angeles, University of Southern California School of Medicine 90027.
Am J Respir Crit Care Med. 1994 Mar;149(3 Pt 1):715-21. doi: 10.1164/ajrccm.149.3.8118641.
The pathophysiology of the obstructive sleep apnea syndrome (OSAS) is not fully understood. In children, airway obstruction secondary to tonsilloadenoidal hypertrophy is the leading cause of OSAS. However, not all children with tonsilloadenoidal hypertrophy develop OSAS. Thus, other factors, including abnormalities in ventilatory control, may contribute to the etiology of OSAS. To test this, we performed polysomnography and hypercapnic and hypoxic ventilatory response testing in 20 children and adolescents with OSAS (mean age, 8 +/- 3 [SD] yr) and 19 control subjects. Only two children with OSAS were obese. Children with OSAS had an apnea index of 16 +/- 20, peak PETCO2 of 54 +/- 5 mm Hg, and SaO2 nadir of 84 +/- 13% during polysomnography. Ventilatory responses were performed by rebreathing techniques. The slope of the hypercapnic ventilatory responses, corrected for body surface area, was 1.74 +/- 0.79 L/min/m2/mm Hg PETCO2 in children with OSAS and 1.45 +/- 0.58 L/min/m2/mmHg PETCO2 in control subjects (NS). Hypoxic ventilatory responses, corrected for body surface area, were -0.94 +/- 0.49 L/min/m2/% SaO2 in children with OSAS and -0.95 +/- 0.45 L/min/m2/% SaO2 in control subjects (NS); however, the sample size was small. There was a weak inverse correlation between the slope of the hypercapnic ventilatory response and the duration of hypoventilation during polysomnography (r = -0.44, p < 0.05). We conclude that children with OSAS have normal ventilatory responses to hypercapnia, and they may have normal ventilatory responses to hypoxia. We speculate that abnormal central ventilatory drive plays little if any role in the pathogenesis of pediatric OSAS.(ABSTRACT TRUNCATED AT 250 WORDS)
阻塞性睡眠呼吸暂停综合征(OSAS)的病理生理学尚未完全明了。在儿童中,扁桃体腺样体肥大继发的气道阻塞是OSAS的主要病因。然而,并非所有扁桃体腺样体肥大的儿童都会发展为OSAS。因此,其他因素,包括通气控制异常,可能也与OSAS的病因有关。为了验证这一点,我们对20名患有OSAS的儿童和青少年(平均年龄8±3[标准差]岁)以及19名对照受试者进行了多导睡眠图检查、高碳酸血症和低氧通气反应测试。只有两名患有OSAS的儿童肥胖。在多导睡眠图检查期间,患有OSAS的儿童呼吸暂停指数为16±20,呼气末二氧化碳分压峰值为54±5mmHg,血氧饱和度最低点为84±13%。通气反应通过重复呼吸技术进行。校正体表面积后,患有OSAS的儿童高碳酸血症通气反应斜率为1.74±0.79L/min/m²/mmHg呼气末二氧化碳分压,对照受试者为l.45±0.58L/min/m²/mmHg呼气末二氧化碳分压(无显著差异)。校正体表面积后,患有OSAS的儿童低氧通气反应为-0.94±0.49L/min/m²/%血氧饱和度,对照受试者为-0.95±0.45L/min/m²/%血氧饱和度(无显著差异);然而,样本量较小。多导睡眠图检查期间,高碳酸血症通气反应斜率与通气不足持续时间之间存在微弱的负相关(r=-0.44,p<0.05)。我们得出结论,患有OSAS的儿童对高碳酸血症有正常的通气反应,对低氧可能也有正常的通气反应。我们推测,异常的中枢通气驱动在小儿OSAS的发病机制中即便有作用也很小。(摘要截选至250词)
