Effects of Magnetic Stimulation of the Dorsal Spinal Cord on Gait in Patients With Parkinson´s Disease and Deep Brain Stimulation

Summary

Gait disorders are symptoms that significantly compromise the quality of life and functionality of patients with Parkinson's disease (PD). When they are not responsive to drug dopaminergic therapy and deep brain stimulation (DBS), the management of these symptoms is a challenge in clinical practice. Although deep brain stimulation is useful in the motor symptoms of Parkinson's disease, gait symptoms remains a challenge in patients undergoing this therapy. This is because, in addition to adjustments in the DBS programming not adding evident benefit in some patients with gait disorders, motor symptoms tend to progress over the years. In this context, spinal cord invasive electrical stimulation was proposed as a potential and effective therapy in a group of patients with PD who presented with gait impairment. More recently, the application of transcutaneous magnetic stimulation of the spinal cord has emerged as a possible therapeutic option, as it could stimulate neural elements in a non-invasive way. The general objective will be to study the effect of transcutaneous magnetic stimulation of the spinal cord on gait in PD patients with deep brain stimulation refractory to dopaminergic therapy. The method of the present study will be a randomized, double-blind, placebo-controlled, parallel, phase II clinical trial that will evaluate the efficacy of transcutaneous magnetic stimulation of the spinal cord in patients with PD and deep brain stimulation who present gait disorders refractory to dopaminergic therapy. The primary outcome will be the change in gait speed between pre-stimulation and post-stimulation conditions between the two groups (active and placebo) assessed using the Timed Up and Go Test (TUG). Secondary outcomes will be the effects of stimulation on other gait measures (speed, step length, stride length, cadence, step width, sway time, support time and the presence of blocks), other motor symptoms (Unified Parkinson's Disease Rating Scale), cognitive alterations, quality of life and side effects. Statistical analysis will be performed using ANOVA for repeated measures and 38 patients will be included. The expected results are supported by transcutaneous magnetic stimulation of the spinal cord, which may improve gait disorders in participants with PD and DBS.

Conditions

• Parkinson Disease

Interventions

DEVICE

Magnetic transcutaneous spinal cord stimulation

In the active group, non-invasive spinal cord stimulation will be applied by placing a circular magnetic coil (Magventure®️ MagPro®️ R20) on the skin, in the upper thoracic region (thoracic level T2-T3). The intensity of stimulation will represent 100% of the motor threshold, which is determined by abdominal muscle contractions, found from single pulses, gradually applied every 10 seconds until the onset of contractions. The intermittent theta burst stimulation protocol will consist of 20 stimulation trains, with an interval of 8 seconds between trains, each train will have 20 bursts, and each burst will have 3 pulses at 50 Hertz repeated at 5 Hertz. In total 1200 pulses will be applied for 3 minutes and 58 seconds.

DEVICE

Transcutaneous electrical nerve stimulation

To create a sensation of muscle contraction and impression of active stimulation, both the placebo and active groups will be subjected to the sensory effect of transcutaneous electrical neurostimulation (TENS). The surface electrodes of TENS (model Neurodyn®️, Ibramed®️) will be placed in parallel at the height of the thoracic level T2-T3, with the following parameters: 80Hertz, 150ms, approximately at 60 miliampère. In the placebo group, a coil will be allocated in the thoracic region T2-T3, however this coil will not be connected to the stimulation device, and another active coil will be positioned about 15cm behind, away from its field of view, to provide the idea from the sound stimulus that it is being stimulated.

Sponsors & Collaborators

• University of Sao Paulo General Hospital

  lead OTHER

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

TRIPLE

Model

PARALLEL

Eligibility

Min Age

21 Years

Max Age

80 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2020-11-27

Primary Completion

2025-05-01

Completion

2025-07-01

Countries

• Brazil

Study Locations