Khan, Ahmad Saadullah

Progressive Rehabilitation in Stroke Patients Using EMG Controlled Exoskeleton / Ahmad Saadullah Khan - 58p. Soft Copy 30cm

The nervous system's interaction with other body parts and the environment to achieve desired
and coordinated actions is known as motor control. It is a reflex and decision-based system
that systematically regulates movement functions. If the contact is weakened or interrupted, a
variety of neurological problems such as apraxia, tremors, and neurological and neuromuscular
strokes may result. To improve hand function in stroke patients, new medical technology such as
wearable gadgets and rehabilitative therapies are being developed. Because three-dimensional
(3D) printing allows for the creation of low-cost, individualized devices, interest in applying this
technology in rehabilitation equipment is developing in line with scientific discoveries. A novel
electromyography (EMG)-controlled 3D-printed hand orthosis is demonstrated in this study.
Force transfer is a major worry for these gadgets that are worn on the user's hand. The orthosis is
designed to help stroke survivors recover their grip ability. As a result, active and passive
devices can be utilized to perform a range of rehabilitation activities to regain or strengthen lost
or compromised control while also improving strength, mobility, and motor conditions. Active
devices are controlled devices used in rehabilitation to improve muscle function and restore
appropriate biomechanics by providing stability, maintaining posture, and maintaining joint
alignment. This device allows the wrist and fingers to move in specific directions depending on
their degree of flexibility, allowing patients to do daily tasks more easily. Finger extension and
flexion (hand opening and closing) and wrist extension are among the motions performed by
stroke patients.


MS Biomedical Engineering (BME)

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