Functional near infrared spectroscopy (fNIRS) offers a cheap and reliable tool to investigate prefrontal brain activation in the healthy and diseased human brain. As such, fNIRS bears great potential as a diagnostic tool for clinical practice. Research indicates that fNIRS, together with a relatively simple task to activate the prefrontal cortex, the so-called verbal fluency task (VFT), elucidates prefrontal dysfunction in major depressive disorder (MDD). This finding can potentially serve as an imaging marker for disease pathology, even when depressive symptoms are absent. Indeed, recent research also suggests prefrontal dysfunction in fully remitted MDD (rMDD). Prefrontal haemodynamic responses may therefore serve as a trait marker for MDD vulnerability. This study aims to investigate the haemodynamic response in rMDD, healthy participants with increased MDD risk (HCr; having a 1st-degree relative with MDD), and low-risk healthy participants (HCnr; having no 1st-degree relatives with MDD) using fNIRS. The investigators hypothesize lower prefrontal reactivity in HCr compared to HCnr, and lowest prefrontal reactivity in rMDD compared to HCnr. This study has the potential to elucidate the neuronal underpinnings of depression vulnerability in the absence of symptoms that are sometimes considered a confounding factor when it comes to studying the biological encoding of depression.
Healthy participants with a high risk of MDD (HCr), healthy participants with a low risk of MDD (HCnr) and rMDD participants will be included in this study. Prefrontal haemodynamic response will be measured in all participants during the verbal fluency test (VFT) using 52 channels fNIRS. The VFT involves two neural conditions, one positive condition, and one negative condition. Both the neuroimage change and the behavioral outcomes of VFT will be compared within-group and among groups. The correlation between the neuroimage change and the behavioral outcomes will be analyzed as well.
Study Type
OBSERVATIONAL
Enrollment
90
measurement using functional near-infrared spectroscopy
The Hong Kong Polytechnic University
Hong Kong, Hong Kong
Oxygenated hemoglobin (HbO) change during VFT
The HbO change during VFT measuring by fNIRS
Time frame: Up to 6 months
Deoxygenated hemoglobin (HbR) change during VFT
The HbR change during VFT measuring by fNIRS
Time frame: Up to 6 months
The VFT outcome
The number of correct words during VFT
Time frame: Up to 6 months
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