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SHORT COMMUNICATION
Year : 2022  |  Volume : 12  |  Issue : 4  |  Page : 339-346

A scoring framework and apparatus for epilepsy seizure detection using a wearable belt


1 Department of Biomedical Engineering, Faculty of Engineering, The Hashemite University, Zarqa, Jordan
2 Department of Mechatronics Engineering, Faculty of Engineering, The Hashemite University, Zarqa, Jordan

Correspondence Address:
Salah Eldeen Mofleh Falah Alzghoul
Department of Biomedical Engineering, Faculty of Engineering, The Hashemite University, Zarqa
Jordan
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/jmss.jmss_138_21

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To develop a wearable device that can detect epilepsy seizures. In particular, due to their prevalence, attention is focused on detecting the generalized tonic-clonic seizure (GTCS) type. When a seizure is detected, an alert phone call is initiated and an alarm SMS sent to the nearest health-care provider (and/or a predesignated family member), including the patient's location as global positioning system (GPS) coordinates. A wearable belt is developed including an Arduino processor that constantly acquires data from four different sensing modalities and monitors the acquired signal patterns for abnormalities. The sensors are a heart rate sensor, electromyography sensor, blood oxygen level (oxygen saturation) sensor, and an accelerometer to detect sudden falls. Higher-than-normal threshold levels are established for each sensor's signal. If two or more signal measurements exceed the corresponding threshold value for a predetermined time interval, then the seizure alarm is triggered. Clinical trials were not pursued in this study as this is the initial phase of system development (phase 0). Instead, the instrumented belt seizure detection prototype was tested on nine healthy individuals mimicking, to some degree, seizure symptoms. A total of eighteen trials took place of which half had <2 sensor thresholds exceeded and no alarm, whereas the other half resulted in activating the alarm when two or more sensor thresholds were exceeded for at least the predetermined time interval corresponding to each of the higher-than-normal sensor readings. For each trial that triggered the alarm when a seizure was detected, the on-board GPS and global system for mobile communication (GSM) units successfully initiated an alert phone call to a predesignated number in addition to sending an SMS message, including GPS location coordinates. Continuous real-time monitoring of signals from the four different sensors allows the developed wearable belt to detect GTCS while reducing false alarms. The proposed device produces an important alarm that may save a patient's life.


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