Abstract
Spasticity of the ankle reduces quality of life by impeding walking and other activities of daily living. Robot-driven continuous passive movement (CPM) is a strategy for lower limb spasticity management but effects on spasticity, walking ability and spinal cord excitability (SCE) are unknown. The objectives of this experiment were to evaluate (1) acute changes in SCE induced by 30 min of CPM at the ankle joint, in individuals without neurological impairment and those with lower limb spasticity; and, (2) the effects of 6 weeks of CPM training on SCE, spasticity and walking ability in those with lower limb spasticity. SCE was assessed using soleus Hoffmann (H-) reflexes, collected prior to and immediately after CPM for acute assessments, whereas a multiple baseline repeated measures design assessed changes following 18 CPM sessions. Spasticity and walking ability were assessed using the Modified Ashworth Scale, the 10 m Walk test, and the Timed Up and Go test. Twenty-one neurologically intact and nine participants with spasticity (various neurological conditions) were recruited. In the neurologically intact group, CPM caused bi-directional modulation of H-reflexes creating ‘facilitation’ and ‘suppression’ groups. In contrast, amongst participants with spasticity, acute CPM facilitated H-reflexes. After CPM training, H-reflex excitability on both the more-affected and less-affected sides was reduced; on the more affected side H@Thres, H@50 and H@100 all significantly decreased following CPM training by 96.5 ± 7.7%, 90.9 ± 9.2%, and 62.9 ± 21.1%, respectively. After training there were modest improvements in walking and clinical measures of spasticity for some participants. We conclude that CPM of the ankle can significantly alter SCE. The use of CPM in those with spasticity can provide a temporary period of improved walking, but efficacy of treatment remains unknown.
Highlights
Spasticity is a common consequence of neurological conditions including cerebral palsy (CP), multiple sclerosis (MS), spinal cord injury (SCI), or acquired brain injuries such as stroke
Muscle tone on the more affected (MA) and less affected (LA) sides was evaluated during the following movements: ankle dorsiflexion and plantar flexion, knee flexion and extension, hip flexion, extension, adduction, and abduction
Tone was measured by a licensed physiatrist using the Modified Ashworth Scale with a graded rating of spasticity scored from 0 to 4 (Bohannon and Smith 1987)
Summary
Spasticity is a common consequence of neurological conditions including cerebral palsy (CP), multiple sclerosis (MS), spinal cord injury (SCI), or acquired brain injuries such as stroke. Other types of passive movements, such as passive muscle stretching, are commonly prescribed rehabilitation techniques for individuals with severe spasticity (Alonso and Mancall 1991; Bovend’Eerdt et al 2008), which is often provided by a physical therapist. This is a laborintensive process (Chang and Kim 2013) and due to accessibility and cost restraints, a patient may receive infrequent care (Bovend’Eerdt et al 2008)
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