OBJECTIVE: Quantify the effects of increased amplitude and rate of muscle stretch on parkinsonian rigidity. METHODS: Eighteen subjects with Parkinson's disease participated in this study. Subjects' tested hand was passively displaced through 60° and 90° ranges of wrist flexion and extension at velocities of 50°/s and 280°/s in both treated and untreated conditions. Joint angular position, resistance torque, and surface electromyography (EMG) of the wrist flexors and extensors were recorded. Rigidity was quantified by normalized work scores and normalized angular impulses for flexion and extension, separately. Reflex responses of stretched and shortened muscles were quantified by mean EMG and EMG ratio. A series of ANOVAs was performed to determine the effect of amplitude, velocity and medication on selected variables. RESULTS: Both work scores and angular impulses revealed that the larger displacement amplitude and the higher velocity were associated with significantly greater rigidity, increased EMG ratio and mean EMG of stretched muscles. Dopaminergic medication was not associated with a reduction in rigidity. CONCLUSIONS: Parkinsonian rigidity is modulated by the amplitude and rate of muscle stretch. SIGNIFICANCE: These findings shed light on the biomechanical underpinnings and physiological characteristics of rigidity and may inform clinical rigidity assessment in Parkinson's disease.
OBJECTIVE: Quantify the effects of increased amplitude and rate of muscle stretch on parkinsonian rigidity. METHODS: Eighteen subjects with Parkinson's disease participated in this study. Subjects' tested hand was passively displaced through 60° and 90° ranges of wrist flexion and extension at velocities of 50°/s and 280°/s in both treated and untreated conditions. Joint angular position, resistance torque, and surface electromyography (EMG) of the wrist flexors and extensors were recorded. Rigidity was quantified by normalized work scores and normalized angular impulses for flexion and extension, separately. Reflex responses of stretched and shortened muscles were quantified by mean EMG and EMG ratio. A series of ANOVAs was performed to determine the effect of amplitude, velocity and medication on selected variables. RESULTS: Both work scores and angular impulses revealed that the larger displacement amplitude and the higher velocity were associated with significantly greater rigidity, increased EMG ratio and mean EMG of stretched muscles. Dopaminergic medication was not associated with a reduction in rigidity. CONCLUSIONS:Parkinsonian rigidity is modulated by the amplitude and rate of muscle stretch. SIGNIFICANCE: These findings shed light on the biomechanical underpinnings and physiological characteristics of rigidity and may inform clinical rigidity assessment in Parkinson's disease.
Authors: Simon Little; Raed A Joundi; Huiling Tan; Alek Pogosyan; Beth Forrow; Carole Joint; Alexander L Green; Tipu Z Aziz; Peter Brown Journal: Exp Brain Res Date: 2012-05-13 Impact factor: 1.972
Authors: Josien C van den Noort; Rens Verhagen; Kees J van Dijk; Peter H Veltink; Michelle C P M Vos; Rob M A de Bie; Lo J Bour; Ciska T Heida Journal: Ann Biomed Eng Date: 2017-07-19 Impact factor: 3.934