Transcutaneous Spinal Cord Stimulation for Chronic Low Back Pain

Summary

As a leading cause of disability worldwide, chronic low back pain (cLBP) represents a significant medical and socioeconomic problem with estimated health care spending of $87 billion/annually. The efficacy of dorsal column electrical stimulation to inhibit pain was first described over 50 years ago. Since then, several large clinical trials have investigated the therapeutic potential of electrical spinal cord stimulation (SCS) and found that over 70% of patients with intractable pain had over 50% pain relief after 1 year of treatment. Thus, SCS is a promising therapeutic intervention that has superior patient outcomes when compared to traditional modalities for the treatment of cLBP. To date, SCS for treatment of cLBP has been delivered via epidural electrodes, requiring neurosurgical implantation. Although, the implantable stimulators have a low rate of adverse events, secondary complications associated with surgical intervention still occur.Transcutaneous spinal cord stimulation (tSCS) is a rapidly developing non invasive neuromodulation technique in the field of spinal cord injury. Its application potentiates lumbosacral spinal cord excitability enabling motor functions, (e.g. independent standing, postural control) in patients with chronic complete motor paralysis. Given that epidural and transcutaneous SCS activate similar neuronal networks, tSCS for cLBP treatment may be advantageous due to its non-invasive nature which may also allow for a mass market production and rapid patient availability if tSCS is proven efficacious. In this pilot study we will establish the feasibility of tSCS to acutely improve patient reported outcomes (pain scores) and several objective measures, including sit-to-stand biomechanics, neurophysiological and neuroimaging outcomes.

Conditions

• Chronic Low-back Pain

Interventions

DEVICE

tSpinalStim

Patients will undergo 12-21 sessions of spinal cord stimulation therapy (30 minutes per session, 3 times a week). Up to five round stimulating electrodes will be placed on the skin midline between spinous processes in cervical, thoracic and/or lumbar region, as cathodes and rectangular pads will be placed symmetrically on the skin over the iliac crests as anodes. The stimulator generates pain-free biphasic rectangular waveform with 1 ms width pulses filled with 5-10 kHz (kilohertz) carrier frequency. A range of stimulation intensities from 0-250 mA (milliamps) may be used. We expect that the stimulation intensities needed for therapeutic effect may differ based on individual's body mass index and/or the amount of subcutaneous fat present at the stimulation site.

Sponsors & Collaborators

• National Science Foundation Center for Disruptive Musculoskeletal Innovations

  collaborator UNKNOWN

• University of California, San Francisco

  lead OTHER

Principal Investigators

• Anastasia Keller, PhD · University of California, San Francisco

• Jeannie Bailey, PhD · University of California, San Francisco

Study Design

Allocation

NA

Purpose

TREATMENT

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

21 Years

Max Age

85 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2022-08-01

Primary Completion

2026-12-31

Completion

2026-12-31

FDA Device

Yes

Countries

• United States

Study Locations