Your doctor and hospital are so incompetent they can't even get music therapy going. This is way beyond their abilities!
You can easily prove me wrong, so provide the EXACT MUSIC REHAB PROTOCOL your hospital is using and proven results from that.
Efficacy of robot-assisted training on rehabilitation of upper limb function in patients with stroke: A systematic review and meta-analysis
Archives of Physical Medicine and Rehabilitation. Volume 104(9), Pgs. 1498-1513.
NARIC Accession Number: J92766. What's this?
Author(s): Yang, Xinwei, Shi, Xiubo, Xue, Xiali, Deng, Zhongyi.
Publication Year: 2023.
Abstract: This review evaluated the effect of robot-assisted training (RAT) on upper-limb function recovery in patients with stroke, providing the evidence-based medical basis for the clinical application of RAT. Online electronic databases were searched up to June 2022, for randomized controlled trials (RCTs) examining the effect of RAT on upper-extremity functional recovery in patients with stroke. Fourteen RCTs involving 1,275 patients were included for review. Compared with the control group, RAT significantly improved upper-limb motor function and daily living ability. The Cochrane Collaboration Tool for Assessing the Risk of Bias was used to assess study quality and risk of bias. The overall differences were statistically significant, Fugl-Meyer Assessment for the Upper Extremity (FMA-UE; standard mean difference=0.69), modified Barthel Index (standard mean difference=0.95), whereas the differences in modified Ashworth Scale, Functional Independence Measure, and Wolf Motor Function Test scores were not statistically significant. Compared with the control group, the differences between FMA-UE and modified Barthel Index at 4 and 12 weeks of RAT, there were statistically significant, the differences of FMA-UE and modified Ashworth Scale in patients with stroke in the acute and chronic phases were statistically significant. This study showed that RAT can significantly enhance the upper-limb motor function and activities of daily life in patients with stroke undergoing upper-limb rehabilitation.
Descriptor Terms: LIMBS, LITERATURE REVIEWS, MOTOR SKILLS, REHABILITATION TECHNOLOGY, ROBOTICS, STROKE, THERAPEUTIC TRAINING.
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Citation: Yang, Xinwei, Shi, Xiubo, Xue, Xiali, Deng, Zhongyi. (2023.) Efficacy of robot-assisted training on rehabilitation of upper limb function in patients with stroke: A systematic review and meta-analysis. Archives of Physical Medicine and Rehabilitation., 104(9), Pgs. 1498-1513. Retrieved 11/30/2023, from REHABDATA database.
NARIC Accession Number: J92766. What's this?
Author(s): Yang, Xinwei, Shi, Xiubo, Xue, Xiali, Deng, Zhongyi.
Publication Year: 2023.
Abstract: This review evaluated the effect of robot-assisted training (RAT) on upper-limb function recovery in patients with stroke, providing the evidence-based medical basis for the clinical application of RAT. Online electronic databases were searched up to June 2022, for randomized controlled trials (RCTs) examining the effect of RAT on upper-extremity functional recovery in patients with stroke. Fourteen RCTs involving 1,275 patients were included for review. Compared with the control group, RAT significantly improved upper-limb motor function and daily living ability. The Cochrane Collaboration Tool for Assessing the Risk of Bias was used to assess study quality and risk of bias. The overall differences were statistically significant, Fugl-Meyer Assessment for the Upper Extremity (FMA-UE; standard mean difference=0.69), modified Barthel Index (standard mean difference=0.95), whereas the differences in modified Ashworth Scale, Functional Independence Measure, and Wolf Motor Function Test scores were not statistically significant. Compared with the control group, the differences between FMA-UE and modified Barthel Index at 4 and 12 weeks of RAT, there were statistically significant, the differences of FMA-UE and modified Ashworth Scale in patients with stroke in the acute and chronic phases were statistically significant. This study showed that RAT can significantly enhance the upper-limb motor function and activities of daily life in patients with stroke undergoing upper-limb rehabilitation.
Descriptor Terms: LIMBS, LITERATURE REVIEWS, MOTOR SKILLS, REHABILITATION TECHNOLOGY, ROBOTICS, STROKE, THERAPEUTIC TRAINING.
Can this document be ordered through NARIC's document delivery service*?: Request Information.
Citation: Yang, Xinwei, Shi, Xiubo, Xue, Xiali, Deng, Zhongyi. (2023.) Efficacy of robot-assisted training on rehabilitation of upper limb function in patients with stroke: A systematic review and meta-analysis. Archives of Physical Medicine and Rehabilitation., 104(9), Pgs. 1498-1513. Retrieved 11/30/2023, from REHABDATA database.