A prospective, single-arm, open-label study to evaluate the effectiveness of intraosseous radio frequency (RF) ablation of the basivertebral nerve (BVN) for the treatment of vertebrogenic-related chronic low back pain (CLBP) in typical spine practice settings using permissive criteria for study inclusion.
Methods
Consecutive patients with CLBP of at least 6 months duration and with Modic Type 1 or 2 vertebral endplate changes between L3 and S1 were treated with RF ablation of the BVN in up to four vertebral bodies. The primary endpoint was patient-reported change in Oswestry Disability Index (ODI) from baseline to 3 months post-procedure. Secondary outcome measures included change in visual analog scale (VAS), SF-36, EQ-5D-5L, and responder rates.
Results
Median age was 45 years; baseline ODI was 48.5; VAS was 6.36. Seventy-five percent (75%) of the study patients reported LBP symptoms for ≥ 5 years; 25% were actively using opioids; and 61% were previously treated with injections. Mean change in ODI at 3 months posttreatment was − 30.07 +14.52 points (p < 0.0001); mean change in VAS was − 3.50 + 2.33 (p < 0.0001). Ninety-three percent (93%) of patients achieved a ≥ 10-point improvement in ODI, and 75% reported ≥ 20-point improvement.
Conclusions
Minimally invasive RF ablation of the BVN demonstrated a significant improvement in pain and function in this population of real-world patients with chronic vertebrogenic-related LBP.
Graphical abstract
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Introduction
Chronic LBP affects more than 30 million U.S. adults [1, 2]. While nonoperative management is often successful, recurrence is common and long-term disability has been reported in up to 17% [3]. Rates of traditional surgical intervention, i.e., fusion, and reported outcomes are highly heterogeneous [4].
Recently, studies have demonstrated that vertebrogenic pain from degenerated or damaged vertebral endplates is an important source of CLBP. The endplates are susceptible to damage due to their conflicting roles of providing nutritional support for the poorly vascularized disk and structural support for the spine. Factors implicated in symptomatic endplate failure include mechanical loading, local endplate morphology, and genetic predisposition [5, 6]. Endplate damage can lead to cellular communication between the immunologically privileged disk nucleus and vertebral bone marrow, triggering an inflammation—a process that can lead to Modic changes visible on MRI [7, 8].
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The specific mechanisms for vertebrogenic pain have been detailed in immunohistochemical studies demonstrating endplate nociceptors with efferents to the basivertebral nerve (BVN), a branch of the sinuvertebral nerve located posteriorly in the vertebral body [6, 8, 9]. Chronic inflammation leads to endplate nociceptor proliferation. In the presence of chemical sensitization and mechanical stimulation, pain signals, perceived as LBP, are transmitted to the central nervous system by the BVN [6].
An improved understanding of this pathway generated interest in RF ablation of the BVN as a treatment for vertebrogenic CLBP. To date, clinical findings have been promising. An initial pilot study led to a multi-center, randomized sham-controlled trial [10]. First reported in 2018, the RCT demonstrated the efficacy of intraosseous RF ablation of the BVN to treat CLBP in patients with Modic type 1 or 2 changes of the vertebral endplates [11]. Sustained clinical improvement at 2-year follow-up has recently been reported [12].
Yet, novel spine care treatment modalities have been introduced with initially very promising results with later studies reporting poorer outcomes or greater complication rates than originally anticipated. Common reasons for this disappointing change lie in different patient populations, less rigid selection criteria, and the overall differences in treatment effectiveness (measures how well a treatment works in the practice of medicine) versus efficacy (measures how well treatment works in clinical trials or laboratory studies) [13, 14]. We sought to perform a prospective clinical effectiveness trial emulating a typical spine practice setting and employing more permissive criteria for study inclusion such as patients who have had prior discectomy and utilizers of extended-release narcotics.
Methods
Trial design
The RF ablation in CLBP study is a prospective, open-label, single-arm case series of 28 patients treated at two investigative sites in the USA from to June 2018 to January 2019. The study is registered on ClinicalTrials.gov as NCT03266107 and was sponsored by Relievant Medsystems, Inc. (Minneapolis, MN). The study was HIPAA compliant and conducted under Institutional Board Review approval, and participant informed consent was obtained. Enrolled patients were assigned a unique participant ID number, and all submitted patient information was de-identified. Data submitted by the study sites were source-verified to the medical record and patient-completed questionnaires by study monitors.
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Participants
Eligibility was confirmed by an independent medical monitor based on each patient’s medical, clinical, and radiographic presentation. The primary inclusion criteria included skeletally mature patients with Type 1 or Type 2 Modic changes on an MRI at one or more vertebral bodies from L3 through S1 and ≥ 6 months of conservative care for CLBP. Primary exclusion criteria included symptomatic spinal stenosis, disk protrusion > 5 mm, spondylolisthesis > 2 mm at any level, or radiculopathy. Table 1 is a complete listing of inclusion/exclusion criteria for this study. Upon confirmation of eligibility, baseline measurements were collected and entered by the study site research personnel into the online clinical database (iMedNet, Mednet Solutions, Minneapolis, MN).
Table 1
Listing of the inclusion and exclusion criteria for the study
Inclusion criteria
Exclusion criteria
Skeletally mature patients with chronic (≥ 6 months) isolated lumbar back pain, who had not responded to at least 6 months of nonoperative management
MRI evidence of Modic at levels other than L3-S1
Type 1 or Type 2 Modic changes at one or more vertebral body for levels L3-S1
Radicular pain (defined as nerve pain following a dermatomal distribution and that correlates with nerve compression in imaging)
Minimum ODI of 30 points (100-point scale)
Previous lumbar spine surgery (discectomy/laminectomy allowed if > 6 months prior to baseline and radicular pain resolved)
Minimum VAS of 4 cm (10 cm scale)
Symptomatic spinal stenosis (defined as the presence of neurogenic claudication and confirmed by imaging)
Ability to provide informed consent, read, and complete questionnaires
Metabolic bone disease, spine fragility fracture history, or trauma/compression fracture, or spinal cancer
Spine infection, active systemic infection, bleeding diathesis
Radiographic evidence of other pain etiology
Disk extrusion or protrusion > 5 mm
Spondylolisthesis > 2 mm at any level
Spondylolysis at any level
Facet arthrosis/effusion correlated with facet-mediated LBP
Beck Depression Inventory > 24 or 3 or > Waddell’s signs
Compensated injury or litigation
Currently taking extended-release narcotics with addiction behaviors
BMI > 40
Bedbound or neurological condition that prevents early mobility or any medical condition that impairs follow-up
Contraindication to MRI, allergies to components of the device, or active implantable devices, pregnant or lactating
Study interventions
Patients in the study were treated with intraosseous RF ablation of the BVN using a unilateral transpedicular delivery system (Intracept® System, Relievant Medsystems, Minneapolis, MN). The procedure was performed under image guidance, with the patient under moderate conscious sedation or general anesthesia, and in an outpatient setting. Targeted location for electrode placement was approximately 30–50% across vertebral body width from the posterior wall, and in the same horizontal plane as the BVN on sagittal imaging as shown in Fig. 1. After confirmation of placement, thermal ablation was delivered for 15 min at 85 °C to create an approximately 1-cm spherical lesion within each vertebral body as shown in Fig. 2. Detailed information about the surgical technique was described previously in the literature [11]. All patients continued nonsurgical therapies as per the investigator’s medical judgment and patient symptoms.
Fig. 1
Depicts the targeted location for the electrode placement at approximately 30–50% across vertebral body width from the posterior wall and in the same horizontal plane as the BVN on sagittal imaging
Fig. 2
RF ablation lesion MR image
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Outcome measures
The primary endpoint of the study was collected at 3 months posttreatment. Secondary endpoints of clinical outcomes over time are collected at 6, 9, and 12 months. All endpoints were patient self-reported using validated questionnaires. The primary endpoint was a measurement of impact of low back pain on patient function using the Oswestry Disability Index (ODI) questionnaire [15]. Secondary endpoints included measurement of low back pain using a visual analog scale (VAS) [16] with a range of 0 cm (no pain) to 10 cm (worst pain imaginable) and quality of life measurements using the SF-36 [17] and EQ-5D-5L [18, 19] questionnaires.
To confirm targeting success, a 6 weeks post-RF ablation MR image (T1, T2, and STIR time constants) was performed and reviewed by an independent neuroradiologist to assess the degree of overlap of the RF ablation lesion with the terminus of the BVN for each treated vertebral body.
Device or device procedure-related spinal or neurological adverse events (AEs) were collected in this study. All reported AEs were adjudicated by an independent clinical event committee for relatedness to device therapy and procedure.
Statistical analysis
With a block sample of 28 patients, this study was 80% powered at an alpha of 0.05 to a detected 15-point change in ODI from baseline. To evaluate for procedural effectiveness, the patient-reported measures noted above were compared from baseline to 3 months posttreatment. Results were summarized using descriptive statistics. Tests of the changes between the baseline and posttreatment values were performed with Stata v15 (Stata Corp., College Station, TX) using a Student’s two-tailed t test without imputation for missing values.
Study revisions
Upon receiving Food and Drug Administration 510(k) clearance, the protocol was revised to allow treatment of up to four vertebrae and treatment of nonconsecutive levels from L3 to S1. Inclusion of patients at least 6 months from laminectomy or discectomy, with moderate symptomatic spinal stenosis, and taking extended-release opioids, was also allowed. All subjects met the inclusion/exclusion criteria of the final protocol for the analysis. An evaluation of the impact of protocol revisions to the primary endpoint detected no significant differences, and no adjustment for difference was required.
Results
Patient demographics and baseline characteristics
A total of 28 consecutive patients were treated. Median age for this study population was 45 years; baseline ODI was 48.5; VAS was 6.36. The percentage of patients with LBP symptoms ≥ 5 years was 75%. Modic Type 1 was present in 14/28 (50%) of the patients; Type 2 in 42.9%, and both Type 1 and 2 in 7.1% of study patients. Disk protrusion was documented in 24 of the 28 study patients (85.7%), and 7.1% had a diagnosis of spondylolithesis.
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Over 61% of patients had previously undergone at least one trial of physical therapy or a formal exercise program; 64% had received chiropractic care; 61% had undergone spinal injections; and 25% were actively using opioids at enrollment. Prior discectomy had been performed in 14.3% of patients. Table 2 provides patient demographics and baseline characteristics.
Table 2
Demographics and baseline characteristics of the study population included in the 3-month interim analysis
RF ablation (N = 28)
Mean age (years), SD mean (range)
45.21 + 8.89
Male, n (%)
14 (50.0%)
Mean BMI (kg/m2), SD
27.55 + 4.38
Current tobacco use—n (%)
5 (17.86%)
Ethnicity—n (%)
Hispanic/Latino
2 (7.14%)
Not Hispanic/Latino
26 (92.86%)
Married, n (%)
23 (82.1%)
College degree or higher, n (%)
15 (53.6%)
Working before procedure, n (%)
24 (85.7%)
Not working due to back pain, n (%)
0 (0.0%)
Mean BDIa, SD
5.39 + 3.76
Duration of low back symptoms, n (%)
≥ 6 months to < 1 year
0 (0%)
≥ 1 year to < 2 years
3 (10.7%)
≥ 2 years to < 3 years
4 (14.3%)
≥ 3 years to < 5 years
0 (0%)
≥ 5 years
21 (75.0%)
Treatment history n (%)
Opioid use at baseline
8 (28.57%)
Injections
17 (60.71%)
Prior lower back surgeries
4 (14.29%)
Disk protrusion (1 or more levels), n %
24 (85.7%)
Grade 1 spondylolithesis, n (%)
2 (7.1%)
Type of Modic by subject n (%)
Type 1
14 (50.0%)
Type 2
12 (42.9%)
Mixed (Type 1 & Type 2)
2 (7.1%)
Baseline mean ODI, SD
48.50 + 10.42
Baseline mean VAS
6.36 + 1.02
Baseline mean SF-36
50.16 + 12.89
Baseline mean EQ-5D-5Lb
0.606 + 0.010
aBDI beck depression inventory
bEQ-5D-5L EuroQual Group 5 Dimension 5-Level Quality of Life
Treatment results
Treatment was attempted in 29 patients, and RF ablation was performed in 28 patients. One patient’s procedure was aborted due to an inability to access the vertebral target area because of unusually hard bone. Two of the RF-treated patients with Modic at L5-S1 received RF ablation at L5 only, due to an inability to access S1. These patients are included as intent-to-treat in the analysis. See Fig. 3 for patient enrollment and follow-up status.
Fig. 3
Consort flow diagram of patients
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Of the 28 patients treated with RF ablation, 23 (82%) had two vertebrae treated, four patients had three vertebrae treated, and one patient had four vertebrae ablated. The most commonly treated segment was L5-S1 (71%). Targeting was adjudicated as successful in 62/62 (100%) of RF ablation-treated bodies and in 62/64 (97%) of vertebral bodies attempted. No RF ablation patients received a spinal injection posttreatment and prior to the 3-month primary endpoint. Four of the eight patients (50%) using opioids at baseline had discontinued use at 3 months posttreatment. The remaining four patients continued opioid use at the same dosage as baseline (Fig. 4).
Fig. 4
Primary endpoint reduction in ODI from baseline to 3 months posttreatment
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Primary endpoint: ODI
The primary endpoint of the study was collected at 3 months posttreatment. Mean change in ODI at 3 months posttreatment was − 30.07 +14.52 points (p < 0.0001) as shown in Fig. 5. Table 3 provides details of the primary endpoint measurements. Using a 10-point improvement threshold for success, 26/28 (92.9%) of patients in the RF ablation arm reached clinical success as shown in Fig. 5. An ODI improvement of ≥ 20 points was reported by 21/28 (75.0%) of RF ablation patients.
Fig. 5
Responder rates ODI and VAS
Table 3
The primary outcome measure for this study is the mean change in ODI from baseline to 3 months posttreatment (patient as their own control)
RF ablation (N = 28)
t test (p value)
Baseline ODI score (Mean + SD, median, range)
48.50 + 10.42
45, [32,72]
3-Month ODI score (Mean + SD, median, range)
18.42 + 14.58
17, [0,52]
Mean change in ODI score from baseline to 3 months posttreatment
30.07 +14.52
(p < 0.0001)
P value from a two-sided t test
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Secondary endpoints
VAS and other secondary outcomes are displayed in Table 4. The mean change in VAS was − 3.50 + 2.33 (p < 0.0001). A VAS decrease of 2.0 cm was reported in 21/28 (75.0%) of patients (Fig. 6).
Table 4
Secondary outcomes at the study’s 3-month primary endpoint timepoint
%(n/N) or Mean ± SD
t test (p value)
ODI responder rates
Subjects with ≥ 10-point ODI decrease
92.86% (26/28)
Subjects with ≥ 15-point ODI decrease
89.29% (25/28)
Subjects with ≥ 20-point ODI decrease
75.00% (21/28)
VAS
Baseline VAS Score (Mean + SD)
6.36 + 1.02
3-Month VAS Score (Mean + SD)
2.86 + 2.25
Mean VAS score change from baseline to 3 months posttreatment
3.50 + 2.33
(p < 0.0001)
VAS responder rates
% of subjects with ≥ 1.5 Pt VAS decrease
75.00% (21/28)
% of subjects with ≥ 2.0 Pt VAS decrease
75.00% (21/28)
SF-36 physical component summary
Baseline
31.62 + 6.69
3 Months
47.41 + 9.50
Mean change
15.78 + 9.13
(p < 0.0001)
SF-36 mental component summary
Baseline
51.01 + 11.47
3 Months
55.24 + 9.64
Mean change
4.23 + 8.84
(p < 0.0001)
EQ-5D-5La
Baseline EQ-5D-5L score
0.606 + 0.010
3-Month EQ-5D-5L score
0.805 + 0.114
Mean change in EQ-5D-5L
0.198 + 0.129
(p < 0.0001)
aEQ-5D-5L EuroQual Group 5 Dimension 5-Level Quality of Life
Fig. 6
Reduction in VAS from baseline to 3 months posttreatment
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The mean improvement from baseline in overall SF-36 was 26.06 + 15.15 with sub-part results of 15.78 + 9.13 (physical) and 4.23 + 8.84 (mental). Both subparts were statistically significant improvements. Similarly, mean improvement from baseline in EQ-5D-5L was significant with an increase of 0.198 + 0.129 (p < 0.0001).
Nineteen (68%) of patients in this prospective study had 6-month outcomes data for ODI and VAS at the time of reporting these data. These patients continue to report statistically significant improvements from baseline with a mean ODI at 6 months of 13.05 + 11.99 and a mean change in ODI of 36.63 + 15.31 (p < 0.0001). Mean VAS score in these 19 patients at 6 months is 1.42 + 1.77 which is a mean reduction from baseline of 4.95 + 2.12 (p < 0.0001). Similarly, responder rates remain high with 19/19 (100%) of these patients reporting a > 10-point reduction in ODI and 16/19 (84.2%) reporting a > 20-point reduction in ODI.
Patient satisfaction
In the 28 RF ablation-treated patients, 21 (75%) rated their condition as improved, 5 (18%) reported no change, and 2 (7%) indicated worsened condition. Twenty-two patients (78.6%) indicated the treatment was a success and were satisfied with the results of surgery, and 24(85.7%) of the treated patients responded they would have the surgery again for the same condition.
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Work status
Eighty-six percent (86%) of subjects were working (79% full-time and 21% part-time) at baseline. Six patients (21%) reported missing work, and 7(25%) patients reported spending > ½ day in bed due to LBP in the 2 weeks prior to baseline. At 3 months posttreatment, patients reported improvements in work function of 71% and 83%, respectively, with only one (1) patient reporting missed work in the prior 2 weeks and two (2) patients spending > ½ day in bed due to LBP.
Adverse events
Adverse events (AEs) that were musculoskeletal, neurological, device-, or procedure-related were collected in this study. Of the 5 AEs reported in 28 RF ablation-treated patients, none were serious or device-related. Three AEs were adjudicated by the clinical event committee as related to the device procedure. One was an aborted procedure due to inability to access, and two were leg pain events with potential pedicle tract issues noted by the clinical event committee in their review of the 6-week MRI. Both were categorized as mild, requiring no interventions beyond oral medication, and were resolved in a mean time of 91 days.
Discussion
After an initial RCT demonstrated the safety and efficacy of BVN RF ablation in the management of CLBP, we sought to understand the procedure’s effectiveness. Patients in this study were treated in a typical, community spine clinic setting by providers with no special expertise in this procedure. Additionally, more broad inclusion and narrow exclusion criteria were employed than in the efficacy study. Patient selection was based on objective MRI findings of Modic changes and clinician judgment; there were no requirements to rule out other sources of pain. This is particularly important in an axial low back pain population, where a variety of “pain generators” are often treated based on diagnostic local anesthetic blocks that rely on a patient’s subjective assessment of pain. In contrast to the efficacy trial, the current study also included patients who had undergone prior discectomy; the maximum number of VB levels treatable was increased from 3 to 4, and the requirement that treatment occurred at consecutive levels was removed. There were no restrictions placed on medications or treatments in follow-up. Lastly, there were no upper limits on ODI or VAS imposed, and the results were based on the ITT analysis that included two patients that received only partial treatments.
In spite of these more permissive requirements, highly significant improvements from baseline for primary endpoint and all secondary endpoints (p < 0.001) were achieved. 93% achieved an ODI reduction of 10 points and 75% a reduction of 20 points.
Four (4) of the 8 patients that had been on opioids at baseline had stopped using them by 3 months. Aside from a short postoperative period, no patients started opioids. Of those 4 patients that had been taking opioids, none increased their dosage. Although the vast majority of patients were working at baseline, absenteeism was reduced and work function improved.
The primary strength of this study is its inclusion of a “real-world” population of chronic low back pain patients in a community-based spine care setting. Yet, the outcomes reported were consistent with those reported in the treatment arm of the efficacy RCT. Potential limitations to generalizability include the use of research coordinators, a medical monitor, and a defined prescreening process. However, pure effectiveness trials are nearly impossible to perform without some research infrastructure to promote population homogeneity and ensure data quality [20, 21]. Additional potential criticisms may include our relatively small sample and short follow-up interval for the primary endpoint. However, durability of the 3-month results up to 24 months has been established previously [12], and we will continue to collect longer term outcomes as a part of this study.
Conclusion
Patients treated with RF ablation of the BVN reported significant improvements from baseline in ODI, VAS, SF-36, and EQ-5D-5L at 3 months and were highly satisfied with their outcomes. This study reaffirms, using a “real-world” environment, the results of a prior efficacy trial on the role of radiofrequency ablation of the BVN for treatment of vertebrogenic CLBP. Using straight-forward, objective MRI findings for patient selection, these data collectively support a favorable risk/benefit profile for RF ablation of the BVN in a population of CLBP patients with few validated treatment alternatives.
Compliance with ethical standards
Conflict of interest
Financial support for study related costs, paid directly to the institutions, was received from Relievant Medsystems, Minneapolis, MN.
Ethical approval
This research was conducted under the oversight of the Western Institutional Review Board, Advarra IRB, and the investigational site’s local IRB.
Informed consent
Informed consent was obtained for participants in this study. This research was conducted in accordance with the Helsinki Declaration.
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