Abstract
While various volatile organic compounds (VOCs) are known to show neurotoxic effects, the detailed mechanisms of the action of VOCs on the autonomic nervous system are not fully understood, partially because objective and quantitative measures to indicate neural abnormalities are still under development. Nevertheless, heart rate variability (HRV) has been recently proposed as an indicative measure of the autonomic effects. In this study, we used HRV as an indicative measure of the autonomic effrects to relate their values to the personal concentrations of VOCs measured by a real-time VOC monitor. The measurements were conducted for 24 hours on seven healthy subjects under usual daily life conditions. The results showed HF powers were significantly decreased for six subjects when the changes of total volatile organic compound (TVOC) concentrations were large, indicating a suppression of parasympathetic nervous activity induced by the exposure to VOCs. The present study indicated these real-time monitoring was useful to characterize the trends of VOC exposures and their effects on autonomic nervous system.
Highlights
Volatile organic compounds (VOCs) are of great concern because of their potential wide-ranging health impacts [1]
The present study aims to report a methodology to evaluate health impacts caused by personal exposures to volatile organic compounds (VOCs) by using the abovementioned VOC and ECG monitors
The peaks observed at 8:40 and 21:05 were suspected to be of outdoor origin because the subject was outdoors according to the time-activity log
Summary
Volatile organic compounds (VOCs) are of great concern because of their potential wide-ranging health impacts [1]. The detailed mechanisms of these effects have not been clarified yet To elucidate these mechanisms, simultaneous measurements of both VOC exposures and health impacts are essential. Several time-resolved methods including proton transfer reaction mass spectrometry (PTR-MS) and selected ion flow tube-mass spectrometry (SIFT-MS) have been developed [10,11,12,13]. These methods cannot be used for personal exposure measurements because of the size of the instruments
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