Abstract
Non-intrusive, easy-to-use and pragmatic collection of biological processes is warranted to evaluate potential biomarkers of psychiatric symptoms. Prior work with relatively modest sample sizes suggests that under highly-controlled sampling conditions, volatile organic compounds extracted from the human breath (exhalome), often measured by an electronic nose (“e-nose”), may be related to physical and mental health. The present study utilized a streamlined data collection approach and attempted to replicate and extend prior e-nose links to mental health in a standard research setting within large transdiagnostic community dataset (N = 1207; 746 females; 18–61 years) who completed a screening visit at the Laureate Institute for Brain Research between 07/2016 and 05/2018. Factor analysis was used to obtain latent exhalome variables, and machine learning approaches were employed using these latent variables to predict three types of symptoms independent of each other (depression, anxiety, and substance use disorder) within separate training and a test sets. After adjusting for age, gender, body mass index, and smoking status, the best fitting algorithm produced by the training set accounted for nearly 0% of the test set’s variance. In each case the standard error included the zero line, indicating that models were not predictive of clinical symptoms. Although some sample variance was predicted, findings did not generalize to out-of-sample data. Based on these findings, we conclude that the exhalome, as measured by the e-nose within a less-controlled environment than previously reported, is not able to provide clinically useful assessments of current depression, anxiety or substance use severity.
Highlights
Volatomics, the study of volatile metabolites [1] and emanations from the human body, especially human breath known as exhalome, is an area of active investigation [2]
The current investigation employed multiple machine learning approaches on a sizable community sample of 1,207 individuals to further previous research linking e-nose exhalome to assessment of psychiatric symptom severity in less-controlled research settings
Our results showed that machine learning algorithms using cross-validation were able to achieve accuracy and account for variance above the null hypothesis in the training sample, the models did not generalize to an independent test sample, which is evidence for overfitting
Summary
Volatomics, the study of volatile metabolites [1] (such as ethanol and amino acids) and emanations from the human body, especially human breath known as exhalome, is an area of active investigation [2]. The human exhalome contains more than 1,800 volatile organic compounds (VOCs) [3], which researchers hope can elucidate the inner workings and status of bodily functions. This hope for exhalome as a measure of physical and mental health status is well-grounded as a growing literature links various types of psychopathology with altered central and peripheral markers of bodily processing within the bidirectional brain–body context [4,5,6,7]. Upper respiratory tract infections such as influenza are linked to stress [10] that could be associated with dysfunctional changes in exhaled breath composition. More research is warranted to investigate the utility of exhalome for indexing clinical symptoms and potentially, differentiating between particular psychiatric disorders
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