Useless! You haven't identified the EXACT signals between neurons that tell one neuron to drop their use and take on a neighboring neuron's use! That could then make neuroplasticity repeatable on demand. Until that occurs ALL OF THIS SUPPOSED NEUROPLASTICITY RESEARCH IS COMPLETELY FUCKING USELESS!
But absolutely adorable word salad!
Send me personal hate mail on this: oc1dean@gmail.com. I'll print your complete statement with your name(If you can't stand by your name don't bother replying anonymously) and my response in my blog. Or are you afraid to engage with my stroke-addled mind? No excuses are allowed! You're medically trained; it should be simple to precisely state EXACTLY WHY you aren't working on 100% recovery protocols with NO EXCUSES! I've never received any communications from any stroke association. You'd think they would want to talk to their fiercest critic, but no, they are hiding under a rock someplace, probably don't even know I exist! Swearing at me is allowed, I'll return the favor. Don't even attempt to use the excuse that brain research is hard.
Neuroplasticity Mechanism of Stroke Rehabilitation Training System Based on Virtual Reality: A Review
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Department of Biomedical Engineering, Chongqing University, Chongqing 400044, China
2
Department of Biomedical Engineering, The Key Laboratory of Biorheological Science and Technology, Ministry of Education, Bioengineering College, Chongqing University, Chongqing 400044, China
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Author to whom correspondence should be addressed.
This article belongs to the Section Biomedical Sensors
Highlights
What are the main findings?
- Virtual reality (VR) technology shows significant application potential in upper-limb function recovery, lower-limb gait balance rehabilitation, and cognitive rehabilitation for stroke patients, and these approaches can induce cerebral functional reorganization via task-oriented training and adaptive feedback mechanisms.
- Multimodal neuroimaging techniques, namely electroencephalography (EEG), functional magnetic resonance imaging (fMRI), and functional near-infrared spectroscopy (fNIRS), can non-invasively quantify neuroplasticity changes induced by VR intervention.
What are the implications of the main findings?
- The VR-based stroke rehabilitation training system is associated with the mechanism of neuroplasticity, which provides important theoretical support for the development of personalized and accurate clinical rehabilitation programs.
Abstract
The paper systematically reviews the application status of virtual reality technology in the rehabilitation of upper-limb movement, lower-limb gait balance, and cognitive function of stroke patients. Based on electroencephalography (EEG), functional magnetic resonance imaging (fMRI), and functional near-infrared spectroscopy (fNIRS), the correlation mechanism of virtual reality promoting brain functional reorganization and neural remodeling is analyzed from the perspective of task-oriented training, reinforcement learning, and neural regulation. The virtual reality rehabilitation scheme can accurately match the actual needs of clinical rehabilitation, and exploring the internal mechanism of its intervention in the dynamic process of rehabilitation is helpful to promote the deep integration of virtual reality technology and rehabilitation medicine. This study integrates high temporal resolution EEG activity data, magnetic resonance imaging spatial positioning information, cerebral hemodynamic data, and virtual reality system behavior data, realizing the systematic quantitative output of rehabilitation effect in the “human-computer” interactive closed loop. Finally, the future development direction is projected from the aspects of system optimization, standard setting, and multi-technology integration to provide a reference for promoting the clinical application and development of virtual reality technology in stroke rehabilitation.
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