Sham-Controlled RCT on 10kHz High-Frequency Spinal Cord Stimulation for Chronic Neuropathic Low Back Pain (Modulate-LBP)

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.

Recruitment Status

TERMINATED

Clinical Phase

NA

Total Enrollment

41 participants

Study Classification

INTERVENTIONAL

Study Start Date

2018-08-14

Study Completion Date

2022-10-20

Brief Summary

Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.

Multicentre, randomised, double-blinded, sham-controlled trial with parallel economic evaluation. Patients will be allocated 1:1 to activated 10kHz SCS plus usual care (intervention) or sham 10kHz SCS plus usual care (control) and followed up to 6 months.

Related Clinical Trials

Explore similar clinical trials based on study characteristics and research focus.

Mobile Neurofeedback for Low Back Pain

NCT05669027

Chronic Low Back Pain

RECRUITING NA

Pain Detecting and Analgesic Stimulating Device on Low Back Pain

NCT02256410

Chronic Low Back Pain

COMPLETED NA

Multidisciplinary Digital Therapeutics of Chronic Lower Back Pain Versus Usual Care

NCT05940025

Chronic Low-back Pain

COMPLETED NA

Exercise, PNE and Cognitive Training in Individuals With Chronic Low Back Pain

NCT05777343

Chronic Low-back Pain

RECRUITING NA

Implementation of the ACP Guideline for Low Back Pain (IMPACt-LBP)

NCT05626049

Pain, Back

ACTIVE_NOT_RECRUITING NA

Detailed Description

Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.

The prevalence of chronic low back pain in the population is estimated to range between at 12% and 28% (1-4). Within this group an estimated 12-15% of adults suffer from chronic neuropathic lower back pain (CNLBP), have relatively greater pain severity, and account for more of the costs of this condition (5,6). This subgroup of people with CNLBP are the focus of the proposed trial.

The National Institute for Health and Care Excellence (NICE) recommends SCS for refractory neuropathic pain (TA159) (7). It is routinely used for people with predominant, neuropathic, radicular pain typically resulting from, or persisting after, spinal surgery (so-called failed back surgery syndrome (FBSS) (8-10). SCS has been shown to be cost effective for this indication (11).

Conventional SCS consists of the insertion of a medical wire (lead) introduced into the epidural space through a needle puncture. The lead is then positioned to target the pain by passing current into the lead from an external power source to generate a pins and needles sensation (paraesthesias) over the painful area. Analgesia occurs when the paraesthesia overlaps and therefore masks the painful area. Once pain reduction is demonstrated, the battery is implanted under the skin of the abdomen, flank or buttock. SCS is most commonly used in the treatment of leg pain of FBSS. However, due to lack of existing evidence and the difficulty of obtaining paraesthesia over the low back, SCS has traditionally not been recommended for treating patients with back pain without previous back surgery (10, 12).

High frequency 10kHz-SCS is a recent major advance in SCS technology. The current is delivered at 10kHz frequency as opposed to the 40 to 60Hz generated by the conventional SCS (13). The key advantages of a higher frequency current are:

10kHz-SCS has been shown to be superior (14) to conventional SCS in targeting residual low back pain following back surgery. Moreover, it does not generate any stimulation related sensations or paraesthesia so is preferred by patients as they are saved from needing to experience these distracting and occasional shocking sensations of conventional SCS. Therefore, 10kHz-SCS allows to smoothly conduct sham controlled or double blind studies in the field of SCS without the need for device modifications.

The lead applicant conducted an uncontrolled, multicentre, single arm study with 83 people with significant low back pain with or without leg pain, implanted with a 10kHz-SCS. At 24 months, the mean reported VAS score for back pain was 3.3 (SD 0.3), compared with 8.4 (SD 0.1) at baseline (pre-implant) and 2.7 (SD 0.3) at 6 months with 60% of subjects reporting \>50% back pain relief. Similar improvements were observed in leg pain, disability, sleep and marked reductions in medication intake (15).

In a more recent multicentre RCT, 10kHz-SCS therapy demonstrated superiority to conventional low-frequency SCS in the treatment of post-surgical neuropathic pain. A total of 198 subjects with both back and leg pain were randomised in a 1:1 ratio to a 10 KHz-SCS or conventional SCS. 10kHz-SCS decreased back pain intensity by 67% compared to 44% in the conventional SCS arm (16). This decrease was sustained at 24 months (17).

The above mentioned studies focused on neuropathic back pain in the context of patients with previous spinal surgery. However, a small subset of patients without prior spine surgery that received 10kHz-SCS therapy in both these studies have shown good pain relief and functional improvements in both studies comparable to those with FBSS (14,16).

The investigators hypothesised that patients with CNLBP with no prior spine surgery would benefit from 10kHz-SCS. To evaluate this hypothesis, the investigators initially designed and conducted an open label uncontrolled pilot study in 21 patients with CNLBP and no prior spine surgery. 10kHz-SCS therapy significantly reduced back pain intensity by an average of 5.59 (SD 1.80) (-72.6% vs baseline) at 12 months in medically refractory low back pain patients with no past history of spine surgery. 90% of the implanted patients were classified as responders (i.e. VAS back pain reduction \>50%) at 12 months. The investigators also observed a significant increase in physical function scores and health-related quality of life at one year post 10kHz-SCS implant. Mean pain intensity was reduced by 73% and disability measured by the Oswestry Disability Index was reduced by 48%. Opioid medication intake decreased by 64% and mean EQ-5D quality of life scores improved from 0.16 to 0.47. More importantly 75% of patients were able to return to employment(18). This improvement was sustained at 3 years follow up (19).

Following these promising results, the investigators now intend to undertake a fully powered RCT to confirm our hypothesis that 10kHz-SCS is beneficial for CNLBP patients with no prior back surgery.

To date 10kHz-SCS has not been formally tested against a sham control condition in order to isolate the therapeutic effects from those induced by placebo. It is very possible that some of the benefit reported may be due to a placebo effect (enhanced by a surgical procedure) or reporting bias in either the patient or assessor. The investigators have therefore specifically designed this fully powered double blind randomised sham controlled trial of 10kHz-SCS to address this major methodological limitation of previous studies.

Conditions

See the medical conditions and disease areas that this research is targeting or investigating.

Chronic Low Back Pain Neuropathic Pain Refractory Pain

Study Design

Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.

Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

Multicentre, randomised, double-blinded, sham-controlled trial with parallel economic evaluation. Patients will be allocated 1:1 to activated 10kHz SCS plus usual care (intervention) or sham 10kHz SCS plus usual care (control) and followed up to 6 months.

Primary Study Purpose

TREATMENT

Blinding Strategy

QUADRUPLE

Participants Caregivers Investigators Outcome Assessors

Double-blind. Implanter is blinded, research staff are blinded, subject is blinded. One unblinded research personnel at each recruiting site programming the patients at device activation.

Study Groups

Review each arm or cohort in the study, along with the interventions and objectives associated with them.

Active Lead (AL)

One octad lead placed where contacts 4 and 5 span the T9-T10 disc space.

Group Type ACTIVE_COMPARATOR

Nevro Senza System (HF10 Therapy)

Intervention Type DEVICE

Nevro 10kHz High Frequency Spinal Cord Stimulation

Sham Lead (SL)

One octad lead implanted subcutaneously behind the IPG and will serve to dissipate the current from the battery

Group Type SHAM_COMPARATOR

Nevro Senza System (HF10 Therapy)

Intervention Type DEVICE

Nevro 10kHz High Frequency Spinal Cord Stimulation

Interventions

Learn about the drugs, procedures, or behavioral strategies being tested and how they are applied within this trial.

Nevro Senza System (HF10 Therapy)

Nevro 10kHz High Frequency Spinal Cord Stimulation

Intervention Type DEVICE

Other Intervention Names

Discover alternative or legacy names that may be used to describe the listed interventions across different sources.

Neuromodulation High-frequency stimulation Nevro HF-10 HF10 SCS 10kHz SCS

Eligibility Criteria

Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.

Inclusion Criteria

1. Adults over the age of 18
2. Onset of low back pain \> 12 months
3. Low back pain intensity \> 60 out of 100mm on pain visual analogue scale (VAS)
5. Degenerative disc disease confirmed by imaging or internal disc disruption as confirmed by discography
6. On stable pain medications, as determined by the Investigator, for at least 28 days prior to enrolling in this study and not change medication dosage without consulting Investigator
7. Legally able to provide informed consent
8. Able to comply with study-related requirements, procedures and visits

Exclusion Criteria

1. Had previous spinal surgery
2. Chronic widespread pain
3. Subject has an active implanted device, whether turned on or off (e.g. pacemaker, intrathecal pump, deep brain stimulator etc.)
4. A current diagnosis of a progressive neurological disease such as multiple sclerosis, chronic inflammatory demyelinating polyneuropathy, rapidly progressive arachnoiditis, rapidly progressive diabetic peripheral neuropathy, brain or spinal cord tumour, or severe/critical central or foraminal spinal stenosis
5. Mechanical spine instability detected by a clinician (validation by flexion/extension films of lumbar spine within the past 6 months showing 4 mm or more translational movement or excessive angular movement manifested by \>5 degrees segmental angular movement) e.g. any forms of spondylolisthesis
6. A medical condition or pain in other area(s), not intended to be treated with SCS, that could interfere with study procedures, accurate pain reporting, and/or confound evaluation of study endpoints, as determined by the Investigator
7. Bleeding diathesis such as coagulopathy or thrombocytopenia
8. Immunocompromised and at an increased risk for infection
9. Systemic infection or local infection that would contraindicate SCS placement
10. Metastatic malignant disease or active local malignant disease
11. Pregnant (if female and sexually active, subject must be using a reliable form of contraception, be surgically sterile or be at least 2 years post-menopausal)
12. Active alcohol, marijuana, recreational or prescription drug abuse or dependence or unwilling to stop/reduce excessive inappropriate medication.
13. Evidence of an active disruptive psychological or psychiatric disorder or other known condition significant enough to impact perception of pain, compliance of intervention and/or ability to evaluate treatment outcome as determined by the Investigator
14. Concomitant participation in another clinical trial (surgery, device or drug)

Minimum Eligible Age

18 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No