De Sajal, Banerjee Nalok, Kushwah Gagan Deep Singh, Dharwey Dharmendra
Department of Pulmonary Medicine, National Institute for Research in Environmental Health, Bhopal, Madhya Pradesh, India.
Lung India. 2020 Jan-Feb;37(1):30-36. doi: 10.4103/lungindia.lungindia_260_19.
Forced oscillation technique (FOT) is a technique to measure the mechanical properties of the lung. The present study was aimed to develop regression equations of within- and whole-breath respiratory impedance (Zrs) of healthy Indian adults.
Total 323 adults were sequentially screened. Smokers, individuals with respiratory symptoms or diseases, and unable to perform acceptable FOT were excluded. Within- and whole-breath resistance (Rrs) and reactance (Xrs) were measured at 5, 11, and 19 Hz by Resmon Pro Full device. The regression equations of within- and whole-breath Rrs and Xrs were generated separately for men and women by multiple linear regression models.
The FOT data of 253 individuals (122 men) aged 18-81 years were included in the analysis. The magnitudes of whole-breath Rrs at 5 Hz (4.53 ± 1.05 cmHO/L/s in women vs. 3.26 ± 1.05 cmHO/L/s in men; P = 0.000) and whole-breath Xrs at 5 Hz (-1.23 ± 0.66 cmHO/L/s in women vs. -1.00 ± 0.54 cmHO/L/s in men; P = 0.003) of women were significantly of higher magnitude as compared to men. The standing height was the best determinant of Zrs, followed by body weight; the effect of age was negligible and was observed in men only. The magnitudes of both Rrs and Xrs decrease with an increase in standing height of both men and women.
The present study provides regression equations of within- and whole-breath respiratory impedance of Indian adults.
强迫振荡技术(FOT)是一种测量肺机械特性的技术。本研究旨在建立健康印度成年人的潮气呼吸和全呼吸呼吸阻抗(Zrs)的回归方程。
对323名成年人进行了连续筛查。吸烟者、有呼吸道症状或疾病的个体以及无法进行可接受的FOT检测的个体被排除。使用Resmon Pro Full设备在5、11和19赫兹下测量潮气呼吸和全呼吸阻力(Rrs)及电抗(Xrs)。通过多元线性回归模型分别为男性和女性生成潮气呼吸和全呼吸Rrs及Xrs的回归方程。
分析纳入了253名年龄在18至81岁之间的个体(122名男性)的FOT数据。女性在5赫兹时的全呼吸Rrs幅度(4.53±1.05厘米水柱/升/秒,男性为3.26±1.05厘米水柱/升/秒;P = 0.000)以及女性在5赫兹时的全呼吸Xrs幅度(-1.23±0.66厘米水柱/升/秒,男性为-1.00±0.54厘米水柱/升/秒;P = 0.003)均显著高于男性。身高是Zrs的最佳决定因素,其次是体重;年龄的影响可忽略不计,且仅在男性中观察到。男性和女性的Rrs和Xrs幅度均随身高增加而降低。
本研究提供了印度成年人潮气呼吸和全呼吸呼吸阻抗的回归方程。