A Review of Mental Stress and EEG Band Power

Abstract

EYAD TALAL ATTAR

Theinnovation of electroencephalography (EEG) more than acentury ago supports the technique to assess brain structure and function in clinical health and research applications. EEG signals were identified on their frequency ranges as delta (from 0.5 to 4 Hz), theta (from 4 to 7 Hz), alpha (from 8 to 12 Hz), beta (from 16 to 31 Hz), and gamma (from 36 to 90 Hz). Stress is a sense of emotional tension caused by several life events. For example, worrying about something, being under pressure, and facing significant challenges are causes of stress.The human body is affected by stress in various ways.It promotes inflammation, which affects cardiac health. The autonomic nervous system is activated during mental stress. Posttraumatic stress disorder and Alzheimer's diseasearecommon brain stress disorders. Several methods have been used previously to identify stress,for instance,magnetic resonance imaging,single-photon emission computed tomography and EEG. EEG identifiesthe electrical activity in the human brain by applyingsmall electrodes positioned on the scalp of the brain. It is a usefulnon-invasive method andcollects feedback from stress hormones. In addition, it can serve as a reliable tool for measuring stress.Furthermore, evaluating human stress in real-time is complicated and challenging. This review demonstrates the power of frequency bands for mental stress and the behaviors of frequency bands based on medical and research experience

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