FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4301397744> ?p ?o ?g. }

• W4301397744 abstract "Stroke patients often suffer from hand dysfunction or loss of tactile perception, which in turn interferes with hand rehabilitation. Tactile-enhanced multi-sensory feedback rehabilitation is an approach worth considering, but its effectiveness has not been well studied. By using functional near-infrared spectroscopy (fNIRS) to analyze the causal activity patterns in the sensorimotor cortex, the present study aims to investigate the cortical hemodynamic effects of hand rehabilitation training when tactile stimulation is applied, and to provide a basis for rehabilitation program development.A vibrotactile enhanced pneumatically actuated hand rehabilitation device was tested on the less-preferred hand of 14 healthy right-handed subjects. The training tasks consisted of move hand and observe video (MO), move hand and vibration stimulation (MV), move hand, observe video, and vibration stimulation (MOV), and a contrast resting task. Region of interest (ROI), a laterality index (LI), and causal brain network analysis methods were used to explore the brain's cortical blood flow response to a multi-sensory feedback rehabilitation task from multiple perspectives.(1) A more pronounced contralateral activation in the right-brain region occurred under the MOV stimulation. Rehabilitation tasks containing vibrotactile enhancement (MV and MOV) had significantly more oxyhemoglobin than the MO task at 5 s after the task starts, indicating faster contralateral activation in sensorimotor brain regions. (2) Five significant lateralized channel connections were generated under the MV and MOV tasks (p < 0.05), one significant lateralized channel connection was generated by the MO task, and the Rest were not, showing that MV and MOV caused stronger lateralization activation. (3) We investigated all thresholds of granger causality (GC) resulting in consistent relative numbers of effect connections. MV elicited stronger causal interactions between the left and right cerebral hemispheres, and at the GC threshold of 0.4, there were 13 causal network connection pairs for MV, 7 for MO, and 9 for MOV.Vibrotactile cutaneous stimulation as a tactile enhancement can produce a stronger stimulation of the brain's sensorimotor brain areas, promoting the establishment of neural pathways, and causing a richer effect between the left and right cerebral hemispheres. The combination of kinesthetic, vibrotactile, and visual stimulation can achieve a more prominent training efficiency from the perspective of functional cerebral hemodynamics." @default.
• W4301397744 created "2022-10-05" @default.
• W4301397744 creator A5005768052 @default.
• W4301397744 creator A5017712844 @default.
• W4301397744 creator A5061788165 @default.
• W4301397744 creator A5064808707 @default.
• W4301397744 creator A5077199212 @default.
• W4301397744 date "2022-10-04" @default.
• W4301397744 modified "2023-09-30" @default.
• W4301397744 title "Vibrotactile enhancement in hand rehabilitation has a reinforcing effect on sensorimotor brain activities" @default.
• W4301397744 cites W1567683916 @default.
• W4301397744 cites W1976550741 @default.
• W4301397744 cites W1986501146 @default.
• W4301397744 cites W1994341528 @default.
• W4301397744 cites W1994493337 @default.
• W4301397744 cites W2005517233 @default.
• W4301397744 cites W2008878870 @default.
• W4301397744 cites W2015513563 @default.
• W4301397744 cites W2018305040 @default.
• W4301397744 cites W2030986025 @default.
• W4301397744 cites W2045561515 @default.
• W4301397744 cites W2076357536 @default.
• W4301397744 cites W2082730925 @default.
• W4301397744 cites W2083824794 @default.
• W4301397744 cites W2100474868 @default.
• W4301397744 cites W2138038313 @default.
• W4301397744 cites W2138378368 @default.
• W4301397744 cites W2140280613 @default.
• W4301397744 cites W2145204832 @default.
• W4301397744 cites W2146927122 @default.
• W4301397744 cites W2163695988 @default.
• W4301397744 cites W2164870294 @default.
• W4301397744 cites W2168963208 @default.
• W4301397744 cites W2169918686 @default.
• W4301397744 cites W2241382951 @default.
• W4301397744 cites W2289383230 @default.
• W4301397744 cites W2340257515 @default.
• W4301397744 cites W2531504191 @default.
• W4301397744 cites W2554522197 @default.
• W4301397744 cites W2555315489 @default.
• W4301397744 cites W2604989255 @default.
• W4301397744 cites W2611720782 @default.
• W4301397744 cites W2740360313 @default.
• W4301397744 cites W2765375047 @default.
• W4301397744 cites W2766588862 @default.
• W4301397744 cites W2795581154 @default.
• W4301397744 cites W2795987056 @default.
• W4301397744 cites W2801085339 @default.
• W4301397744 cites W2803306216 @default.
• W4301397744 cites W2805052092 @default.
• W4301397744 cites W2807695615 @default.
• W4301397744 cites W2809871420 @default.
• W4301397744 cites W2900611623 @default.
• W4301397744 cites W2902698098 @default.
• W4301397744 cites W2909619163 @default.
• W4301397744 cites W2912286304 @default.
• W4301397744 cites W2917038114 @default.
• W4301397744 cites W2937507639 @default.
• W4301397744 cites W2951151772 @default.
• W4301397744 cites W2978528131 @default.
• W4301397744 cites W3026198216 @default.
• W4301397744 cites W3033981398 @default.
• W4301397744 cites W3041989432 @default.
• W4301397744 cites W3044918098 @default.
• W4301397744 cites W3048294305 @default.
• W4301397744 cites W3089379989 @default.
• W4301397744 cites W3093756230 @default.
• W4301397744 cites W3137191188 @default.
• W4301397744 cites W3161203808 @default.
• W4301397744 cites W3165304737 @default.
• W4301397744 cites W4200298997 @default.
• W4301397744 cites W4213165593 @default.
• W4301397744 cites W4220894794 @default.
• W4301397744 cites W4235692897 @default.
• W4301397744 cites W4248979582 @default.
• W4301397744 doi "https://doi.org/10.3389/fnins.2022.935827" @default.
• W4301397744 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36267238" @default.
• W4301397744 hasPublicationYear "2022" @default.
• W4301397744 type Work @default.
• W4301397744 citedByCount "2" @default.
• W4301397744 countsByYear W43013977442023 @default.
• W4301397744 crossrefType "journal-article" @default.
• W4301397744 hasAuthorship W4301397744A5005768052 @default.
• W4301397744 hasAuthorship W4301397744A5017712844 @default.
• W4301397744 hasAuthorship W4301397744A5061788165 @default.
• W4301397744 hasAuthorship W4301397744A5064808707 @default.
• W4301397744 hasAuthorship W4301397744A5077199212 @default.
• W4301397744 hasBestOaLocation W43013977441 @default.
• W4301397744 hasConcept C130796691 @default.
• W4301397744 hasConcept C15744967 @default.
• W4301397744 hasConcept C162324750 @default.
• W4301397744 hasConcept C169760540 @default.
• W4301397744 hasConcept C169900460 @default.
• W4301397744 hasConcept C187736073 @default.
• W4301397744 hasConcept C24998067 @default.
• W4301397744 hasConcept C25457674 @default.
• W4301397744 hasConcept C26760741 @default.
• W4301397744 hasConcept C2777766275 @default.
• W4301397744 hasConcept C2778818304 @default.
• W4301397744 hasConcept C2780451532 @default.

• next