机构地区:[1]广州医学院第一附属医院广州呼吸疾病研究所呼吸疾病同家重点实验室,510120 [2]广州医学院第三附属医院呼吸内科
出 处:《中华生物医学工程杂志》2008年第5期358-363,共6页Chinese Journal of Biomedical Engineering
摘 要:目的构建强迫振荡测量系统,在无创正压通气(NPPV)条件下检测人呼吸系统阻抗(Rrs)和电抗(Xrs),用于评估肺阻力(RL)和弹性阻力(EL)。方法基于现有的强迫振荡技术,构建包括振荡发生器和信号分析软件在内的新强迫振荡测量系统,采用呼吸系统一阶线性力学模型(R—I—E模型)验证新系统测量的准确性和可靠性。8例健康正常人为研究对象,分别经鼻罩给予不同水平的双水平气道正压(BiPAP)和持续气道正压(CPAP)通气,探讨在不同通气模式和压力水平下利用Rrs无创评价RL的可行性。结果(1)振荡压力和振荡流量的相干函数系数值r^2=0.98,强迫振荡测量可靠。5Hz强迫振荡测定的模型阻抗与模型的粘性阻力接近,两者平均相差(1.26±0.44)cmH2O·s·L^-1,一致性范围在(0.36~2.14)cm H2O·s·L^-1。(2)8例在不同通气模式及压力条件下测定的Rrs值大小接近,与RL平均相差(0.16±1.58)cmH2O·s·L^-1。RL的预计方程式为RL=1.40+0.77Rrs,[决定系数(r^2)=0.43,P〈0.01]。(3)强迫振荡弹性阻力EFOT(EFOT=-2пfXrs)显著大于实际值EL,(P〈0.01)。两者存在低水平的相关(r=0.40,P〈0.01)。结论新强迫振荡系统测量准确、可靠。Rrs近似地反映了RL的大小,RL预测值可用于优化NPPV的压力支持水平,使呼吸机提供的压力支持能有效地克服肺阻力。Objective To construct a new forced oscillatory measuring system to detect resistance (Rrs) and reactance (Xrs) of patients'respiratory system for evaluation of lung resistance( RL) and elastance ( EL ) during noninvasive positive pressure ventilation (NPPV). Methods A new forced oscillatory measuring system including an oscillatory generator and a signal analysis procedure based on established forced oscillatory technique (FOT) and algorithm was constructed for measurement of oscillatory Rrs and Xrs. A resistanee-inertanee-elastance (R-I-E) model mimicing normal respiratory system was adopt to test measuring accuracy arid reliability of the FOT measuring system. In addition, 8 healthy volunteers were enrolled and subjected to a bi-level positive airway pressure(BiPAP) and continuous positive airway pressure (CPAP) ventilator through a nasal mask respectively. 5 Hz forced oscillation was imposed and the feasibility was approached using Rrs at different NPPV modes and pressure levels for each subject to evaluate RL noninvasively. Results ( 1 ) The coherence function r2 of oscillatory pressure and flow was 0.98 which confirmed the reliability of FOT measuring system. The mean values of 5 Hz forced oscillatory resistance of the R-I-E model was close to its true viscous resistance value, with a mean difference of ( 1.26 ± 0.44) cm H2O· s. L^ -1 , the limits of agreement was (0.36-2.14) cmH2O· s· L^-1. (2)ThemeanvalueofRrs (8 cases) measured by FOT at different NPPV pressure level was proximal, the mean difference between Rrs and RL was (0.16 ±1.58) cm H2O· s· L^-1. The linear regression equation of RL from Rrs was RL =1.40 + 0.77Rrs( r^2 = 0. 43, P 〈 0.01 ). ( 3 ) The mean value of elastance measured by FOT ( EFOT = - 2пfXrs) was significantly higher than EL ( P 〈 0. 01 ) , the degree of correlation between them was low( r = 0. 40, P 〈 0. 01 ). Conclusion The newly constructed FOT measuring system is of accuracy and re
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