Abstract
Background: There is an increasing interest in employing electronic nose technology in the diagnosis and monitoring of lung diseases. Interstitial lung diseases (ILD) are challenging in regard to setting an accurate diagnosis in a timely manner. Thus, there is a high unmet need in non-invasive diagnostic tests. This single-center explorative study aimed to evaluate the usefulness of electronic nose (Aeonose®) in the diagnosis of ILDs. Methods: Exhaled volatile organic compound (VOC) signatures were obtained by Aeonose® in 174 ILD patients, 23 patients with chronic obstructive pulmonary disease (COPD), and 33 healthy controls (HC). Results: By dichotomous comparison of VOC’s between ILD, COPD, and HC, a discriminating algorithm was established. In addition, direct analyses between the ILD subgroups, e.g., cryptogenic organizing pneumonia (COP, n = 28), idiopathic pulmonary fibrosis (IPF, n = 51), and connective tissue disease-associated ILD (CTD-ILD, n = 25) were performed. Area under the Curve (AUC) and Matthews’s correlation coefficient (MCC) were used to interpret the data. In direct comparison of the different ILD subgroups to HC, the algorithms developed on the basis of the Aeonose® signatures allowed safe separation between IPF vs. HC (AUC of 0.95, MCC of 0.73), COP vs. HC (AUC 0.89, MCC 0.67), and CTD-ILD vs. HC (AUC 0.90, MCC 0.69). Additionally, to a case-control study design, the breath patterns of ILD subgroups were compared to each other. Following this approach, the sensitivity and specificity showed a relevant drop, which results in a poorer performance of the algorithm to separate the different ILD subgroups (IPF vs. COP with MCC 0.49, IPF vs. CTD-ILD with MCC 0.55, and COP vs. CT-ILD with MCC 0.40). Conclusions: The Aeonose® showed some potential in separating ILD subgroups from HC. Unfortunately, when applying the algorithm to distinguish ILD subgroups from each other, the device showed low specificity. We suggest that artificial intelligence or principle compound analysis-based studies of a much broader data set of patients with ILDs may be much better suited to train these devices.
Highlights
Interstitial lung diseases (ILD) comprise about 200 heterogeneous entities with lung fibrosis as a common trait [1]
We examined if ILD–specific volatile organic compound (VOC) patterns can be clearly recognized by the Aeonose® anCdOdPisvtsin. gCuOisPhDed from HC28avssw. 2e3ll as pulmona0r.7y5comorbidities 0s.u7c1h as chronic obstructive pulmonary disease (COPD).0A.7f7ter comple0t.4in6g CthTeDt-rIaLiDninvgs.pChOasPeD, we evalu25atvesd. i2f3Aeonose® is a0b.8le8 to reliably dete0c.7t 1differences in0.t8h5e VOC pa0tt.e6r1n of IIPPFF, CvsO
We examined if ILD–specific VOC patterns can be clearly recognized by the Aeonose® and distinguished from healthy controls (HC) as well as pulmonary comorbidities such as COPD
Summary
Interstitial lung diseases (ILD) comprise about 200 heterogeneous entities with lung fibrosis as a common trait [1]. There is a high unmet need in non-invasive diagnostic tests This single-center explorative study aimed to evaluate the usefulness of electronic nose (Aeonose®) in the diagnosis of ILDs. Methods: Exhaled volatile organic compound (VOC) signatures were obtained by Aeonose® in 174 ILD patients, 23 patients with chronic obstructive pulmonary disease (COPD), and 33 healthy controls (HC). To a case-control study design, the breath patterns of ILD subgroups were compared to each other. Following this approach, the sensitivity and specificity showed a relevant drop, which results in a poorer performance of the algorithm to separate the different ILD subgroups (IPF vs COP with MCC 0.49, IPF vs CTD-ILD with MCC 0.55, and COP vs CT-ILD with MCC 0.40). We suggest that artificial intelligence or principle compound analysis-based studies of a much broader data set of patients with ILDs may be much better suited to train these devices
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