呼出气一氧化氮
医学
差分吸收光谱
肺癌
鉴别诊断
肺
胃肠病学
一氧化氮
内科学
放射科
病理
吸收(声学)
材料科学
肺功能
复合材料
作者
Chaoyang Li,Xiaoning Chen,Wei Li,Xuan Zhou,Huiyuan Gong
标识
DOI:10.1002/jbio.202400481
摘要
ABSTRACT In this study, a non‐invasive device based on ultraviolet differential absorption spectroscopy (UV‐DOAS) technology for detecting fractional exhaled nitric oxide (FeNO)was developed and clinically validated in patients with various lung diseases. The diagnostic potential of FeNO was explored by analysing subgroups of patients with lung cancer, nodules, and other disease. The results showed that FeNO concentrations were significantly higher in patients with malignant tumours than in healthy controls ( p < 0.01). The diagnostic efficacy of FeNO in different lung diseases was confirmed by ROC analysis: the AUC values were 0.925 for malignant tumours, 0.925 for suspected malignant/benign tumours, 0.792 for benign lesions, and 0.938 for infectious/inflammatory diseases. The significant postoperative FeNO level decrease supports the diagnostic use of FeNO in different stages of the disease. Compared with conventional electrochemical, chemiluminescent and fluorescent probe methods, the UV‐DOAS technique has significant advantages regarding sensitivity and portability, suggesting its potential for clinical application.
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