1 University of Southern California, Los Angeles, CA, USA.
2 Northwestern University, Chicago IL, USA.
Neurorehabil Neural Repair. 2017 Sep;31(9):814-826. doi: 10.1177/1545968317721974. Epub 2017 Aug 8.
Although global movement abnormalities in the lower extremity poststroke have been studied, the expression of specific motor impairments such as weakness and abnormal muscle and joint torque coupling patterns have received less attention. We characterized changes in strength, muscle coactivation and associated joint torque couples in the paretic and nonparetic extremity of 15 participants with chronic poststroke hemiparesis (age 59.6 ± 15.2 years) compared with 8 age-matched controls. Participants performed isometric maximum torques in hip abduction, adduction, flexion and extension, knee flexion and extension, ankle dorsi- and plantarflexion and submaximal torques in hip extension and ankle plantarflexion. Surface electromyograms (EMGs) of 10 lower extremity muscles were measured. Relative weakness (paretic extremity compared with the nonparetic extremity) was measured in poststroke participants. Differences in EMGs and joint torques associated with maximum voluntary torques were tested using linear mixed effects models. Results indicate significant poststroke torque weakness in all degrees of freedom except hip extension and adduction, adductor coactivation during extensor tasks, in addition to synergistic muscle coactivation patterns. This was more pronounced in the paretic extremity compared with the nonparetic extremity and with controls. Results also indicated significant interjoint torque couples during maximum and submaximal hip extension in both extremities of poststroke participants and in controls only during maximal hip extension. Additionally, significant interjoint torque couples were identified only in the paretic extremity during ankle plantarflexion. A better understanding of these motor impairments is expected to lead to more effective interventions for poststroke gait and posture.
尽管已经研究了下肢脑卒中后的整体运动异常,但对特定运动障碍的表达,如无力和异常的肌肉和关节转矩耦合模式,关注较少。我们描述了 15 名慢性脑卒中偏瘫患者(年龄 59.6±15.2 岁)和 8 名年龄匹配的对照组患者患侧和非患侧下肢的力量、肌肉协同收缩和相关关节转矩耦合的变化。参与者进行了髋关节外展、内收、前屈和后伸、膝关节屈曲和伸展、踝关节背屈和跖屈的等长最大转矩以及髋关节伸展和踝关节跖屈的次最大转矩。测量了 10 个下肢肌肉的表面肌电图(EMG)。在脑卒中患者中测量了相对无力(患侧与非患侧相比)。使用线性混合效应模型测试与最大自主转矩相关的 EMG 和关节转矩的差异。结果表明,除髋关节伸展和内收、伸肌任务中的内收协同收缩外,所有自由度的脑卒中后转矩都明显减弱,此外还有协同肌肉协同收缩模式。与非患侧和对照组相比,患侧更为明显。结果还表明,在脑卒中患者的双侧和对照组的最大和次最大髋关节伸展期间存在显著的关节间转矩耦合,而仅在最大髋关节伸展期间存在显著的关节间转矩耦合。此外,仅在脑卒中患者的患侧踝关节跖屈期间确定了显著的关节间转矩耦合。预计对这些运动障碍的更好理解将导致更有效的脑卒中步态和姿势干预措施。
