In BMC infectious diseases ; h5-index 58.0
BACKGROUND : Diagnostics for pulmonary tuberculosis (PTB) are usually inaccurate, expensive, or complicated. The breathomics-based method may be an attractive option for fast and noninvasive PTB detection.
METHOD : Exhaled breath samples were collected from 518 PTB patients and 887 controls and tested on the real-time high-pressure photon ionization time-of-flight mass spectrometer. Machine learning algorithms were employed for breathomics analysis and PTB detection mode, whose performance was evaluated in 430 blinded clinical patients.
RESULTS : The breathomics-based PTB detection model achieved an accuracy of 92.6%, a sensitivity of 91.7%, a specificity of 93.0%, and an AUC of 0.975 in the blinded test set (n = 430). Age, sex, and anti-tuberculosis treatment does not significantly impact PTB detection performance. In distinguishing PTB from other pulmonary diseases (n = 182), the VOC modes also achieve good performance with an accuracy of 91.2%, a sensitivity of 91.7%, a specificity of 88.0%, and an AUC of 0.961.
CONCLUSIONS : The simple and noninvasive breathomics-based PTB detection method was demonstrated with high sensitivity and specificity, potentially valuable for clinical PTB screening and diagnosis.
Fu Liang, Wang Lei, Wang Haibo, Yang Min, Yang Qianting, Lin Yi, Guan Shanyi, Deng Yongcong, Liu Lei, Li Qingyun, He Mengqi, Zhang Peize, Chen Haibin, Deng Guofang
2023-Mar-10
Breathomics, Machine learning, Pulmonary tuberculosis, Volatile organic compounds