Post-Stroke Rehabilitation of Distal Upper Limb with New Perspective Technologies: Virtual Reality and Repetitive Transcranial Magnetic Stimulation-A Mini Review.
Onika BanduniMegha SainiNeha SinghDebasish NathS Senthil KumaranNand KumarM V Padma SrivastavaAmit MehndirattaPublished in: Journal of clinical medicine (2023)
Upper extremity motor impairment is the most common sequelae in patients with stroke. Moreover, its continual nature limits the optimal functioning of patients in the activities of daily living. Because of the intrinsic limitations in the conventional form of rehabilitation, the rehabilitation applications have been expanded to technology-driven solutions, such as Virtual Reality and Repetitive Transcranial Magnetic Stimulation (rTMS). The motor relearning processes are influenced by variables, such as task specificity, motivation, and feedback provision, and a VR environment in the form of interactive games could provide novel and motivating customized training solutions for better post-stroke upper limb motor improvement. rTMS being a precise non-invasive brain stimulation method with good control of stimulation parameters, has the potential to facilitate neuroplasticity and hence a good recovery. Although several studies have discussed these forms of approaches and their underlying mechanisms, only a few of them have specifically summarized the synergistic applications of these paradigms. To bridge the gaps, this mini review presents recent research and focuses precisely on the applications of VR and rTMS in distal upper limb rehabilitation. It is anticipated that this article will provide a better representation of the role of VR and rTMS in distal joint upper limb rehabilitation in patients with stroke.
Keyphrases
- upper limb
- transcranial magnetic stimulation
- virtual reality
- high frequency
- minimally invasive
- end stage renal disease
- atrial fibrillation
- chronic kidney disease
- prognostic factors
- newly diagnosed
- patient reported outcomes
- cerebral ischemia
- risk assessment
- cancer therapy
- white matter
- blood brain barrier
- peritoneal dialysis
- structural basis