机器人辅助训练联合神经松动术对脑卒中患者上肢功能的疗效观察

doi:10.3969/j.issn.1006-5725.2025.02.011

Abstract

Abstract:

Objective To explore the effects of robot assisted training （RAT） combined with neural mobilization （NM） training on the recovery of upper limb functions in stroke patients. Methods A total of 110 stroke patients who met the inclusion criteria were selected as the subjects and randomly divided into a control group （n = 28）， RAT group （n = 27）， NM group （n = 28）， and combination group （n = 27）. All patients underwent routine upper limb occupational therapy. Additionally， the patients in the RAT group were treated with upper limb rehabilitation robots， those in the NM group underwent neural mobilization for treatment， those in the combination group were managed with robot-assisted training for upper limb rehabilitation and neural mobilization. Before treatment and 4 weeks after treatment， the modified Ashworth scale （MAS）， Fugl-Meyer assessment upper extremity （FMA-UE）， functional test for the hemiplegic upper extremity Hong Kong version （FTHUE-HK）， and modified Barthel index （MBI） were used to assess the effects. The surface electromyographic signals of the biceps and triceps at the maximum isometric voluntary contraction （MIVC） position during elbow flexion and extension were measured， the integrated electromyographic values （iEMG） were recorded and the synergistic contraction rate （CR） was calculated. Results There was no statistically significant difference （P > 0.05） between the four groups in the general information and pre-treatment assessments of MAS， FMA-UE， FTHUE-HK， MBI， iEMG， and CR.After 4 weeks， significant improvements were observed in all indicators compared to the pre-treatment assessments （P < 0.05）， with the exception of the triceps brachii CR， biceps brachii CR， and elbow extension MIVC biceps brachii iEMG in the control group.Among the group comparisons， all indicators showed statistically significant differences in mean or distribution （P < 0.05）， except for MAS and triceps brachii CR. The RAT group， NM group， and combination group all demonstrated significant improvements compared to the control group （P < 0.05）. Notably， the combination group exhibited a greater degree of improvement than the RAT and NM groups. Conclusion RATcombined with NM can reduce upper limb muscle tone in stroke patients. This approacheffectively promotes the establishment of normal movement patterns， improve upper limb motor function， and enhance activities of daily living. This combination is effective and worthy of further clinical promotion and application.

Key words: upper limb robot, neural mobilization, upper extremity function, stroke

CLC Number:

R493

Yonglin HU,Yongping HUA,Ying MA,Anmin LU,Yuhua XIAO,Xinjian SONG,Su. LIU. Therapeutic effects of robot⁃assisted training combined with neural mobilization on upper limb functions in stroke patients[J]. The Journal of Practical Medicine, 2025, 41(2): 225-231.

Figures/Tables 3

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References 30

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组别	例数	性别		年龄（x ± s）/岁	病变性质		病程（x ± s）/d	瘫痪侧别
组别	例数	男	女	年龄（x ± s）/岁	脑梗死	脑出血	病程（x ± s）/d	左	右
对照组	26	16（61.54）	10（38.46）	62.65 ± 8.11	18（69.23）	8（30.77）	45.50 ± 6.46	14（53.85）	12（46.15）
RAT组	25	17（68.00）	8（32.00）	59.12 ± 9.46	17（68.00）	8（32.00）	47.08 ± 7.53	15（60.00）	10（40.00）
NM组	26	15（57.69）	11（42.31）	60.92 ± 10.21	17（65.38）	9（34.62）	46.81 ± 7.01	15（57.69）	11（42.31）
联合组	24	15（62.50）	9（37.50）	57.67 ± 8.38	15（62.50）	9（37.50）	46.58 ± 7.40	15（62.50）	9（37.50）
χ ² /F值		0.588		1.425	0.297		0.245	0.420
P值		0.899		0.240	0.961		0.865	0.936

变量	对照组（n = 26）	RAT组（n = 25）	NM组（n = 26）	联合组（n = 24）	F/H值	P值
MAS
治疗前	2.50（2.00，3.00）	3.00（2.00，3.00）	3.00（2.00，3.00）	2.50（2.00，3.00）	0.157	0.984
治疗后	2.00（2.00，3.00）	2.00（2.00，3.00）	2.00（2.00，3.00）	2.00（1.00，2.00）	6.630	0.085
FMA-UE（x ± s）
治疗前	22.85 ± 11.92	23.88 ± 9.03	24.58 ± 10.69	21.67 ± 10.12	0.362	0.780
治疗后	29.81 ± 8.87	36.60 ± 9.16^?	36.15 ± 8.58^?#	42.04 ± 9.43^?△▲	7.738	< 0.001
FTHUE-HK
治疗前	3.00（2.00，3.00）	3.00（2.00，3.00）	3.00（2.00，3.00）	3.00（2.00，3.00）	0.772	0.856
治疗后	3.00（2.00，3.00）	4.00（3.00，4.00）^?	4.00（3.00，4.00）^?#	4.50（4.00，5.00）^?△▲	32.650	< 0.001
MBI（x ± s）
治疗前	44.54 ± 11.92	40.28 ± 11.86	43.54 ± 13.81	43.71 ± 13.05	0.551	0.649
治疗后	53.54 ± 13.87	60.36 ± 11.07^?	60.35 ± 11.44^?#	68.83 ± 9.16^?△▲	7.305	< 0.001

变量	对照组（n = 26）	RAT组（n = 25）	NM组（n = 26）	联合组（n = 24）	F值	P值
肘屈曲肱二头肌iEMG
治疗前	121.75 ± 19.74	115.59 ± 12.83	117.90 ± 17.43	108.44 ± 7.09	1.656	0.190
治疗后	207.33 ± 39.99	275.57 ± 50.87^?	265.01 ± 39.53^?#	348.41 ± 46.34^?△▲	20.393	< 0.001
肘屈曲肱三头肌iEMG
治疗前	15.34 ± 5.06	23.05 ± 10.03	24.55 ± 13.86	22.74 ± 9.04	2.047	0.121
治疗后	26.37 ± 4.39	36.53 ± 9.55^?	36.80 ± 8.74^?#	48.05 ± 4.07^?△▲	18.541	< 0.001
肘伸展肱二头肌iEMG
治疗前	77.10 ± 16.17	79.83 ± 9.79	72.36 ± 6.51	84.15 ± 11.48	2.205	0.101
治疗后	64.94 ± 8.88	53.95 ± 6.81^?	52.32 ± 8.27^?#	37.73 ± 11.44^?△▲	18.491	< 0.001
肘伸展肱三头肌iEMG
治疗前	99.95 ± 15.62	114.87 ± 31.01	117.69 ± 12.76	110.53 ± 22.20	1.563	0.212
治疗后	121.43 ± 11.80	148.52 ± 6.66^?	148.20 ± 22.04^?#	168.19 ± 20.93^?△▲	15.974	< 0.001
肱二头肌CR/%
治疗前	42.64 ± 8.30	41.22 ± 6.71	39.51 ± 6.16	44.39 ± 3.89	1.238	0.307
治疗后	40.11 ± 3.08	26.68 ± 2.56^?	26.42 ± 4.91^?#	18.22 ± 4.09^?△▲	69.264	< 0.001
肱三头肌CR/%
治疗前	11.75 ± 5.49	16.14 ± 5.80	16.99 ± 9.29	17.19 ± 6.57	1.622	0.198
治疗后	11.74 ± 3.20	13.08 ± 3.28	12.45 ± 2.54	12.96 ± 1.56	0.596	0.621

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Therapeutic effects of robot⁃assisted training combined with neural mobilization on upper limb functions in stroke patients

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