Restorative Neuromodulation for Lower Extremity Functions

Summary

The overall objective of the proposed study is to restore lower-extremity functions of paraplegic individuals. Paralysis following Stroke or spinal cord injury (SCI) result harsh sufferings including lifelong dependence on wheelchairs and thus often life threatening conditions such as pressure sore resulted from the immobility. Recently, electrical stimulation targeting the lumbosacral spinal cord has shown activation of spinal circuits that control standing and walking functions; while body-weight supported locomotor training has shown overall health improvement of the paraplegic patients through activity dependent rehabilitation. In the current project we aim to combine the trans-spinal electrical stimulation and locomotor training in an efficient, cost-effective and simplified manner for functional rehabilitation. In this proposed study, Stroke and SCI paraplegics will be regularly trained to stand and walk on a body-weight support system with the aid of lower-limb orthoses and trans-spinal electrical stimulation. In progressive weeks the orthotic support of the lower-limb would be slowly lifted off and only the stimulation therapy will be delivered during the locomotor training. Repetitive training with this combination therapy, the spinal pathways would likely reorganize and would promote long-term rehabilitation of the lower-extremity. After successful demonstration of this in our laboratory settings, we aim to transform this technology for community use.

Conditions

• Spinal Cord Injuries
• Stroke
• Paralysis

Interventions

DEVICE

trans-spinal Electrical Stimulation (tsES)

The trans-spinal pulsed-current stimulation utilizes non-invasive russian stimulation using a research grade stimulator and direct-current stimulation utilizes non-invasive constant stimulation using a medical grade stimulator. Both pulsed- and direct-current stimulation will be achieved with cutaneous cathode electrodes attached to the dorsal aspect of the back overlying at and bellow thoracic vertebrae and anode electrodes placed over the iliac crests or lower abdomen. Spinal motor evoked potentials will be induced by trans-spinal pulsed-current stimulation (parameters, 1 Hz with a 1 millisecond pulse width and monophasic waveform) to determine recruitment profiles of proximal and distal motor pools with increasing stimulation intensity ranging from 10-200 milliampere. Stimulation parameters for the therapeutic stimulation will be ranged from 5-50 Hz and 20-200 milliampere. For direct-current stimulation, the stimulation current will be kept constant at 2-2.5 milliampere.

Sponsors & Collaborators

• University of California, Los Angeles

  collaborator OTHER

• Hospital Authority, Hong Kong

  collaborator OTHER_GOV

• The Hong Kong Polytechnic University

  lead OTHER

Principal Investigators

• Monzurul Alam, PhD · Research Assistant Professor

Study Design

Allocation

NA

Purpose

TREATMENT

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

19 Years

Max Age

55 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2019-04-01

Primary Completion

2021-06-30

Completion

2021-11-30

Countries

• Hong Kong

Study Locations