Abstract
A stress group should be subdivided into eustress (low-stress) and distress (high-stress) groups to better evaluate personal cognitive abilities and mental/physical health. However, it is challenging because of the inconsistent pattern in brain activation. We aimed to ascertain the necessity of subdividing the stress groups. The stress group was screened by salivary alpha-amylase (sAA) and then, the brain’s hemodynamic reactions were measured by functional near-infrared spectroscopy (fNIRS) based on the near-infrared biosensor. We compared the two stress subgroups categorized by sAA using a newly designed emotional stimulus-response paradigm with an international affective picture system (IAPS) to enhance hemodynamic signals induced by the target effect. We calculated the laterality index for stress (LIS) from the measured signals to identify the dominantly activated cortex in both the subgroups. Both the stress groups exhibited brain activity in the right frontal cortex. Specifically, the eustress group exhibited the largest brain activity, whereas the distress group exhibited recessive brain activity, regardless of positive or negative stimuli. LIS values were larger in the order of the eustress, control, and distress groups; this indicates that the stress group can be divided into eustress and distress groups. We built a foundation for subdividing stress groups into eustress and distress groups using fNIRS.
Highlights
Stress is rapidly becoming one of the most common mental disorders in modern society
We discovered that the stress group was still affected by negative stimulation by showing larger laterality index for stress (LIS) values in Session 2 than in Session 1
This study discovered that the LIS values calculated from the hemodynamic oscillations of functional near-infrared spectroscopy (fNIRS) signals were useful for subdividing the stress group into the eustress and distress groups, which was consistent with the salivary alpha-amylase (sAA) test results
Summary
Stress is rapidly becoming one of the most common mental disorders in modern society. Brain neurologists focusing on mental stress follow stress protocols to obtain distinct brain images. A stimuliresponse task is a representative stress protocol in which one responds to warning stimuli (WS) followed by target stimuli (TS) using emotional international affective picture system (IAPS) images [4]. The process of finding positive or negative images of TS increases people’s attention and elicits momentary mental stress responses. Some studies have often reported high amplitudes of positive or negative hemodynamic signals in stressed people using target images [5,6]. This phenomenon is known as the target effect [5]
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