基于AnyBody脑卒中患者手部抓握训练的肌肉力学特性分析
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河南省科技攻关计划(182102410046),河南省高等学校重点科研项目计划(19A416002)


Analysis on Muscle Mechanical Properties of Stroke Patients’ Hand Grasping Training Based on AnyBody
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    摘要:

    目的 建立手部抓握的骨骼肌生物力学模型并进行逆向动力学仿真,得到不同受力时手部抓握过程各参与肌肉的最大肌肉力。方法 选择1名志愿者对其手部进行CT扫描,将得到的手部CT数据导入Mimics软件进行三维重建,获得各节骨模型,通过Geomagic Studio重新调整模型坐标后导入AnyBody软件,建立手部骨骼运动学模型。添加参与各手指屈曲的相关肌肉,建立手部骨骼肌模型。使用该模型进行手部抓握的逆向动力学仿真。结果 分别在各远节指骨上施加5~30 N不同外力后,得到各肌肉在整个运动过程中的最大肌肉力。随着力的增加,各肌肉最大肌肉力也呈线性趋势增大,如拇长屈肌的最大肌肉力从18.49 N增加到110.93 N;且在外力5 N时,手指抓握过程中拇短屈肌、拇长屈肌、拇收肌、小指短屈肌的最大肌肉力分别为7.70、18.49、9.49、8.39 N,指浅屈肌、指深屈肌在各手指运动过程的肌肉力远大于其他肌肉,对手部抓握起主要作用。结论 参与手部抓握各肌肉在不同阻力时的最大肌肉力,以及主要肌肉的肌肉力与关节角度的关系,可为评价脑卒中患者手部康复效果提供指导及参考,也可为康复设备制造提供一定的理论依据。

    Abstract:

    Objective To establish the biomechanical model of skeletal muscle during hand grasping for reverse dynamics simulation, so as to obtain the maximum muscle force of each muscle involved in the process of hand grasping under different forces. Methods CT scanning was performed on a volunteer’s hand, and CT data of his hand were imported into Mimics software for 3D reconstruction, so as to obtain the bone models of each segment. After adjusting the model coordinates by Geomagic Studio, the model was imported in AnyBody software for establishing the kinematics model of the hand skeleton. The related muscles involved in the flexion of each finger were added, to establish the skeletal muscle model of the hand. The model was then used to simulate the reverse dynamics of hand grasping. ResultsThe maximum muscle force of each muscle in the whole process of finger movement was obtained after the 5-30 N external force was applied to each distal phalanx. With the increase of force, the maximum muscle force of each muscle showed a linear trend. For example, the maximum muscle force of flexor pollicis longus increased from 18.49 N to 110.93 N; when the external force was 5 N, the maximum muscle force of flexor pollicis brevis, flexor pollicis longus, adductor pollicis and flexor digiti minimi brevis during hand grasping was 7.70, 18.49, 9.49, 8.39 N, respectively. The muscle force of superficial and deep flexors was greater than that of other muscles in the process of finger movement, which played a major role in grasping the hand. Conclusions The maximum muscle force of the muscles involved in hand grasping under different resistance, and the relationship between muscle force of main muscles and joint angles, can provide guidance and references for the evaluation of hand rehabilitation effect of stroke patients, as well as certain theoretical basis for the manufacture of rehabilitation equipment.

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赵梦文,胡志刚,王新征,付东辽.基于AnyBody脑卒中患者手部抓握训练的肌肉力学特性分析[J].医用生物力学,2021,36(5):698-704

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  • 收稿日期:2020-09-21
  • 最后修改日期:2020-11-13
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  • 在线发布日期: 2021-10-22
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