Mohammad Ghassemi

Works (4)

Updated: April 5th, 2024 11:56

2022 journal article

Noninvasively recorded high-gamma signals improve synchrony of force feedback in a novel neurorehabilitation brain-machine interface for brain injury

JOURNAL OF NEURAL ENGINEERING, 19(3).

By: R. Flint ^*, Y. Li ^*, P. Wang ^*, M. Vaidya ^*, A. Barry ^*, M. Ghassemiⁿ, G. Tomic^*, N. Brkic^* ...

author keywords: brain-machine interface; brain injury; neurorehabilitation; grasp force; haptic feedback; noninvasive; high-gamma

MeSH headings : Brain Injuries; Brain-Computer Interfaces; Electroencephalography / methods; Feedback; Humans; Neurological Rehabilitation / methods

topics (OpenAlex): EEG and Brain-Computer Interfaces; Neuroscience and Neural Engineering; Muscle activation and electromyography studies

TL;DR: These proof-of-concept results show that high-γ nrBMIs can be used by individuals with impaired ability to control force (without immediately resorting to invasive signals like electrocorticography). (via Semantic Scholar)

10.1088/1741-2552/ac7004

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PubMed

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UN Sustainable Development Goal Categories

3. Good Health and Well-being (Web of Science)

Source: Web Of Science

Added: June 13, 2022

2020 journal article

Utilizing multi-user virtual reality to bring clinical therapy into stroke survivors' homes

JOURNAL OF HAND THERAPY, 33(2), 246–253.

By: K. Thielbar ^*, N. Spencer ⁿ, D. Tsoupikova ^*, M. Ghassemiⁿ & D. Kamperⁿ

author keywords: Therapy; Stroke; Home-based training; Virtual reality

topics (OpenAlex): Stroke Rehabilitation and Recovery; Botulinum Toxin and Related Neurological Disorders; Acute Ischemic Stroke Management

TL;DR: Multiuser virtual reality offers a relatively inexpensive means of extending clinical therapy into home and enabling family and friends to support rehabilitation efforts, even when physically remote from each other. (via Semantic Scholar)

10.1016/j.jht.2020.01.006

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UN Sustainable Development Goal Categories

3. Good Health and Well-being (Web of Science)

Source: Web Of Science

Added: July 13, 2020

2019 journal article

Development of an EMG-Controlled Serious Game for Rehabilitation

IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, 27(2), 283–292.

By: M. Ghassemiⁿ, K. Triandafilou^*, A. Barry ^*, M. Stoykov ^*, E. Roth ^*, F. Mussa-Ivaldi, D. Kamperⁿ, R. Ranganathan ^*

author keywords: EMG; rehabilitation; serious game

MeSH headings : Adult; Biomechanical Phenomena; Calibration; Electromyography / methods; Female; Functional Laterality; Games, Experimental; Hand / physiopathology; Healthy Volunteers; Humans; Male; Muscle, Skeletal / physiopathology; Psychomotor Performance; Recovery of Function; Stroke Rehabilitation / instrumentation; Young Adult

topics (OpenAlex): Motor Control and Adaptation; Stroke Rehabilitation and Recovery; Muscle activation and electromyography studies

TL;DR: A novel platform for playing a serious game through electromyographic control is developed and holds promise for rehabilitation of control of muscle activation patterns. (via Semantic Scholar)

10.1109/TNSRE.2019.2894102

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PubMed

UN Sustainable Development Goal Categories

3. Good Health and Well-being (Web of Science)

Source: Web Of Science

Added: March 4, 2019

2019 journal article

Hemicraniectomy in Traumatic Brain Injury: A Noninvasive Platform to Investigate High Gamma Activity for Brain Machine Interfaces

IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, 27(7), 1467–1472.

By: M. Vaidya ^*, R. Flint ^*, P. Wang ^*, A. Barry ^*, Y. Li ^*, M. Ghassemiⁿ, G. Tomic^*, J. Yao ^* ...

author keywords: Brain-machine interface; brain-computer interface; EEG; traumatic brain injury; high gamma

MeSH headings : Adult; Artifacts; Brain Injuries, Traumatic / surgery; Brain-Computer Interfaces; Decompressive Craniectomy / methods; Electroencephalography; Female; Fingers / innervation; Gamma Rhythm; Humans; Magnetoencephalography; Male; Muscle Contraction; Prosthesis Design; Psychomotor Performance

topics (OpenAlex): EEG and Brain-Computer Interfaces; Neuroscience and Neural Engineering; Neural dynamics and brain function

TL;DR: Results indicate that people with hemicraniectomies can provide a useful resource for developing BMI therapies for the treatment of brain injury, and describe a new BMI paradigm to investigate the use of higher frequency signals in brain-injured subjects without incurring significant risk. (via Semantic Scholar)

10.1109/TNSRE.2019.2912298

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PubMed

Source: Web Of Science

Added: July 29, 2019

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