Impaired performance of rapid grip in people with Parkinson's disease and motor segmentation

Hum Mov Sci. 2024 Jun:95:103201. doi: 10.1016/j.humov.2024.103201. Epub 2024 Mar 19.

Abstract

Bradykinesia, or slow movement, is a defining symptom of Parkinson's disease (PD), but the underlying neuromechanical deficits that lead to this slowness remain unclear. People with PD often have impaired rates of motor output accompanied by disruptions in neuromuscular excitation, causing abnormal, segmented, force-time curves. Previous investigations using single-joint models indicate that agonist electromyogram (EMG) silent periods cause motor segmentation. It is unknown whether motor segmentation is evident in more anatomically complex and ecologically important tasks, such as handgrip tasks. Aim 1 was to determine how handgrip rates of force change compare between people with PD and healthy young and older adults. Aim 2 was to determine whether motor segmentation is present in handgrip force and EMG measures in people with PD. Subjects performed rapid isometric handgrip pulses to 20-60% of their maximal voluntary contraction force while EMG was collected from the grip flexors and extensors. Dependent variables included the time to 90% peak force, the peak rate of force development, the duration above 90% of peak force, the number of segments in the force-time curve, the number of EMG bursts, time to relaxation from 90% of peak force, and the peak rate of force relaxation. People with PD had longer durations and lower rates of force change than young and older adults. Six of 22 people with PD had motor segmentation. People with PD had more EMG bursts compared to healthy adults and the number of EMG bursts covaried with the number of segments. Thus, control of rapid movement in Parkinson's disease can be studied using isometric handgrip. People with PD have impaired rate control compared to healthy adults and motor segmentation can be studied in handgrip.

Keywords: Bradykinesia; Motor segmentation; Parkinson's disease; Rate of force development; Rate of force relaxation.

MeSH terms

  • Adult
  • Aged
  • Electromyography*
  • Female
  • Hand Strength* / physiology
  • Humans
  • Hypokinesia / physiopathology
  • Isometric Contraction* / physiology
  • Male
  • Middle Aged
  • Muscle, Skeletal / physiopathology
  • Parkinson Disease* / physiopathology
  • Young Adult