机械通气时的机械动力

Kenneth Nugent, G. Berdine
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引用次数: 0

摘要

机械通气可为急性呼吸衰竭患者提供救命支持。 然而,维持气体交换所需的压力和容量可能会导致呼吸机诱发的肺损伤。目前的机械通气方法需要同时关注潮气量和气道压力,尤其是高原压力和驱动压力。呼吸机提供能量以克服气道阻力并使肺泡结构膨胀。单位时间内输送给呼吸系统的能量等于机械功率。机械功率的计算提供了一个综合数字,它综合了压力、容量和呼吸频率。在动物模型中,机械功率的增加与组织损伤有关。在病人身上,如果进行多变量分析,机械功率可以预测结果,如重症监护室死亡率。通气初始阶段机械功率的增加与较差的预后有关。机械通气功率计算可用于无创通气患者,机械通气功率测量可用于比较呼吸机模式。计算机械功率需要测量滞后环的面积。此外,还开发了简化公式来提供这种计算方法。但是,大多数呼吸机都无法提供这些信息。因此,临床医生需要进行计算。总之,机械功率的计算可根据气道阻力、肺弹性、呼吸频率和潮气量等综合因素估算出机械通气所需的能量。 关键词:机械通气、机械功率、呼吸机诱发肺损伤、能量、功
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanical power during mechanical ventilation
Mechanical ventilation provides lifesaving support for patients with acute respiratory failure.  However, the pressures and volumes required to maintain gas exchange can cause ventilator-induced lung injury. The current approach to mechanical ventilation involves attention to both tidal volume and airway pressures, in particular plateau pressures and driving pressures. The ventilator provides energy to overcome airway resistance and to inflate alveolar structures. This energy delivered to the respiratory system per unit time equals mechanical power. Calculation of mechanical power provides a composite number that integrates pressures, volumes, and respiratory rates. Increased levels of mechanical power have been associated with tissue injury in animal models. In patients, mechanical power can predict outcomes, such as ICU mortality, when used in multivariable analyses. Increases in mechanical power during the initial phase of ventilation have been associated with worse outcomes. Mechanical power calculations can be used in patients on noninvasive ventilation, and measurements of mechanical power have been used to compare ventilator modes. Calculation of mechanical power requires measurement of the area in a hysteresis loop. Alternatively, simplified formulas have been developed to provide this calculation. However, this information is not available on most ventilators. Therefore, clinicians will need to make this calculation. In summary, calculation of mechanical power provides an estimate of the energy requirements for mechanical ventilation based on a composite of factors, including airway resistance, lung elastance, respiratory rate, and tidal volume.   Key words: mechanical ventilation, mechanical power, ventilator-induced lung injury, energy, work  
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