D. Caretti, W. Scott, A. Johnson, K. Coyne, F. Koh
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引用次数: 41
摘要
本研究评估了在固定工作量下运动并佩戴改良的全面罩呼吸器的个体的表现,其呼气阻力分别为0.27、0.47、1.81、4.43和12.27 cmH20 x s x L(-1)。在五种不同的情况下,15名志愿者在跑步机上以固定的速度和等级锻炼到自愿终点,选择在无阻碍的情况下达到85%的最大有氧能力。在每次测试结束时记录运动表现时间。结果显示,工作时间呈线性下降(R2 = 0.79;P <0.001),阻力增加,没有阈值低于呼气阻力对生产性能没有影响。平均耗氧量和分钟通气量也随着呼气阻力的增加而线性下降,表明呼气阻力的增加导致相当程度的通气不足。从呼吸器设计的角度来看,本研究的结果表明,唯一实际的呼气阻力水平限制是最终用户可以接受的性能降低。
Work performance when breathing through different respirator exhalation resistances.
This study evaluated performance of individuals exercising at a fixed workload and wearing full-facepiece respirators modified to provide expiratory resistances of 0.27, 0.47, 1.81, 4.43, and 12.27 cmH20 x s x L(-1). On five separate occasions, 15 volunteers exercised to voluntary endpoint on a treadmill at fixed speeds and grades chosen to elicit 85% of maximal aerobic capacity for an unencumbered condition. Exercise performance time was recorded at the cessation of each test. Results showed that performance time decreased linearly (R2 = 0.79; p<0.001) with increased resistances, and no threshold value below which expiratory resistance has no impact on performance was found. Average oxygen consumption rates and minute ventilation also decreased linearly with increased expiratory resistances, indicating that increases in expiratory resistance result in a considerable level of hypoventilation. From the perspective of respirator design, the results of this study suggest that the only practical expiratory resistance level limitation is the reduction in performance that will be acceptable to the end users.
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