Transcranial Magnetic and Transcutaneous Spinal Cord Electrical Stimulation a Stroke-Patients Walking Correction: Blinded Clinical Randomised Study

Abstract

INTRODUCTION. The impairment of motor system function due to stroke often leads to patients’ dependence on external assistance. The technique of rhythmic transcranial magnetic stimulation (rTMS) is now widely used in the restoration of impaired central nervous system (CNS) function. In recent years, there has been information about the use of transcutaneous electrical spinal cord stimulation (TSCS) in the correction of motor functions in CNS disorders of various genesis.
 AIM. To evaluate the possibilities of combined use of transcranial magnetic and transcutaneous electrical stimulation of the spinal cord in the correction of locomotor functions in patients after ischemic stroke.
 MATERIALS AND METHODS. The conducted blind clinical randomized study involved patients who had an ischemic stroke. Study participants were randomly divided into control (n = 12) and experimental (n = 9) groups. Patients in the control group received standardized neurorehabilitation techniques. The participants of the experimental group were offered standardized neurorehabilitation techniques combined with rTMS and TSCS. High-frequency rTMS was performed in the projection of the sensory-motor cortex on the side of the lesion, in the area of innervation of the lower limb. During TSCS, a stimulating electrode was placed between Th11–Th12, indifferent electrodes were placed in the region of the iliac crests, and the lumbar enlargement of the spinal cord was stimulated. The dynamics of neurological deficit was assessed using the rehabilitation routing scale, the Rivermead mobility index, the Berg balance scale, and a six-point scale for assessing muscle strength. The excitability of the neural networks of the spinal cord was determined using TSCS at the T11–T12 level, with electromyographic recording of the evoked motor responses of the muscles of the lower extremities.
 RESULTS AND DISCUSSION. The combined use of rTMS and TSCS in the rehabilitation of patients in the acute period after ischemic stroke leads to an increase in the excitability of neuronal networks of the lumbar thickening of the spinal cord, a decrease in the activation thresholds of the RF, BF, TA and GM muscles of the affected limb (by 7.7 ma, 18.3 ma, 24.8 ma and 14.2 ma, respectively). Inclusion of rTMS and TSCS in the rehabilitation course leads to a significant improvement in the rehabilitation routing scale (by 2 points), Rivermead mobility index (by 5.8 points), statokinetic control functions (balance-Berg by 12 points) and an increase in lower limb muscle strength (flexors by 5.1 points, extensors by 6.2 points).
 CONCLUSION. The use of rTMS and TSCS can be used as an additional effect within the framework of rehabilitation measures in the acute period after ischemic stroke.