脑瘫儿童对平衡扰动的肌肉反应增强,可以用对质心运动的敏感性增加来解释。
Increased muscle responses to balance perturbations in children with cerebral palsy can be explained by increased sensitivity to center of mass movement.
机构信息
Department of Movement Sciences, KU Leuven, Belgium.
Wallace H. Coulter Department of Biomedical Engineering, Emory University and Georgia Tech, Atlanta, GA, United States.
出版信息
Gait Posture. 2024 Jan;107:121-129. doi: 10.1016/j.gaitpost.2023.03.014. Epub 2023 Mar 23.
BACKGROUND
Balance impairments are common in children with cerebral palsy (CP). Muscle activity during perturbed standing is higher in children with CP than in typically developing (TD) children, but we know surprisingly little about how sensorimotor processes for balance control are altered in CP. Sensorimotor processing refers to how the nervous system translates incoming sensory information about body motion into motor commands to activate muscles. In healthy adults, muscle activity in response to backward support-surface translations during standing can be reconstructed by center of mass (CoM) feedback, i.e., by a linear combination of delayed (due to neural transmission times) CoM displacement, velocity, and acceleration. The level of muscle activity in relation to changes in CoM kinematics, i.e., the feedback gains, provides a metric of the sensitivity of the muscle response to CoM perturbations.
RESEARCH QUESTION
Can CoM feedback explain reactive muscle activity in children with CP, yet with higher feedback gains than in TD children?
METHODS
We perturbed standing balance by backward support-surface translations of different magnitudes in 20 children with CP and 20 age-matched TD children and investigated CoM feedback pathways underlying reactive muscle activity in the triceps surae and tibialis anterior.
RESULTS
Reactive muscle activity could be reconstructed by delayed feedback of CoM kinematics and hence similar sensorimotor pathways might underlie balance control in children with CP and TD children. However, sensitivities of both agonistic and antagonistic muscle activity to CoM displacement and velocity were higher in children with CP than in TD children. The increased sensitivity of balance correcting responses to CoM movement might explain the stiffer kinematic response, i.e., smaller CoM movement, observed in children with CP.
SIGNIFICANCE
The sensorimotor model used here provided unique insights into how CP affects neural processing underlying balance control. Sensorimotor sensitivities might be a useful metric to diagnose balance impairments.
背景
平衡障碍在脑瘫(CP)儿童中很常见。与正常发育(TD)儿童相比,CP 儿童在受扰站立时肌肉活动更高,但我们对 CP 平衡控制的感觉运动过程如何改变知之甚少。感觉运动处理是指神经系统如何将关于身体运动的传入感觉信息转换为激活肌肉的运动指令。在健康成年人中,站立时对向后支撑面平移的肌肉活动可以通过质心(CoM)反馈来重建,即通过延迟(由于神经传输时间)CoM 位移、速度和加速度的线性组合。肌肉活动与 CoM 运动学变化的关系,即反馈增益,提供了肌肉对 CoM 扰动反应敏感性的度量。
研究问题
CoM 反馈是否可以解释 CP 儿童的反应性肌肉活动,但与 TD 儿童相比,反馈增益更高?
方法
我们通过向后平移不同幅度的支撑面来扰动 CP 儿童和 20 名年龄匹配的 TD 儿童的站立平衡,并研究了三头肌和胫骨前肌反应性肌肉活动的 CoM 反馈途径。
结果
反应性肌肉活动可以通过 CoM 运动学的延迟反馈来重建,因此 CP 儿童和 TD 儿童的平衡控制可能具有相似的感觉运动途径。然而,CP 儿童的拮抗肌和拮抗肌的肌肉活动对 CoM 位移和速度的敏感性都高于 TD 儿童。平衡校正反应对 CoM 运动的敏感性增加可能解释了 CP 儿童观察到的更僵硬的运动学反应,即 CoM 运动较小。
意义
这里使用的感觉运动模型提供了对 CP 如何影响平衡控制的神经处理的独特见解。感觉运动敏感性可能是诊断平衡障碍的有用指标。
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