Georgopoulos D, Mitrouska I, Bshouty Z, Webster K, Patakas D, Younes M
Respiratory and Critical Care Section, General Hospital G. Papanicolaou, Aristotle University of Thessaloniki, Greece.
Am J Respir Crit Care Med. 1997 Jul;156(1):146-54. doi: 10.1164/ajrccm.156.1.9606055.
The respiratory response to CO2 during pressure-support ventilation (PSV) was studied in 16 conscious normal humans. The subjects breathed through a mouthpiece connected to a ventilator in PSV mode, with pressure set to the highest comfortable level for each subject (10.1 +/- 0.6 cm H2O, mean +/- SE). Compared with breathing spontaneously through the ventilator (CPAP mode with zero positive end-expiratory pressure), with PSV, tidal volume (VT) increased significantly (1.16 +/- 0.1 versus 0.85 +/- 0.04 L), whereas breathing frequency (f) remained stable (16.0 +/- 0.9 versus 15.6 +/- 1.1 breaths/min). As a result, the subjects hyperventilated, decreasing significantly end-tidal PCO2 (PETCO2, 23.5 +/- 1.2 versus 35.5 +/- 1.1 mm Hg). Fraction of inspired CO2 (FICO2) was then increased in steps, and changes in respiratory motor output were quantitated from changes in f, VT, ventilation (VI), peak inspiratory flow (Vpeak), and muscle pressure (Pmus). Pmus was calculated by the equation of motion, based on respiratory system mechanics, which were measured previously by airway occlusion at end-inspiration, VT, VI, and Pmus increased significantly with increasing PETCO2, and the response was detectable even below eupneic levels; f remained relatively stable over a wide range of PETCO2 (23 to 45 mm Hg) and increase significantly only when PETCO2 approached 50 mm Hg. These results indicate that in conscious normal humans during PSV, CO2 responsiveness extends well into hypocapnia and is expressed principally as an increase in intensity of respiratory motor output with little change in respiratory rate.
对16名清醒的正常受试者进行了压力支持通气(PSV)期间对二氧化碳的呼吸反应研究。受试者通过连接到处于PSV模式的呼吸机的咬嘴进行呼吸,压力设置为每个受试者的最高舒适水平(10.1±0.6 cmH₂O,平均值±标准误)。与通过呼吸机自主呼吸(呼气末正压为零的持续气道正压通气模式)相比,在PSV时,潮气量(VT)显著增加(1.16±0.1对0.85±0.04 L),而呼吸频率(f)保持稳定(16.0±0.9对15.6±1.1次/分钟)。结果,受试者出现通气过度,呼气末二氧化碳分压(PETCO₂)显著降低(23.5±1.2对35.5±1.1 mmHg)。然后逐步增加吸入二氧化碳分数(FICO₂),并根据f、VT、通气量(VI)、吸气峰流速(Vpeak)和肌肉压力(Pmus)的变化对呼吸运动输出的变化进行定量。Pmus根据运动方程,基于呼吸系统力学计算得出,此前通过吸气末气道阻塞测量呼吸系统力学,随着PETCO₂升高,VT、VI和Pmus显著增加,甚至在低于平静呼吸水平时也可检测到这种反应;在较宽的PETCO₂范围(23至45 mmHg)内,f保持相对稳定,仅在PETCO₂接近50 mmHg时才显著增加。这些结果表明,在清醒的正常受试者进行PSV期间,二氧化碳反应性在低碳酸血症范围内也很明显,主要表现为呼吸运动输出强度增加,呼吸频率变化很小。
