Korean J Pain 2020; 33(2): 183-191
Published online April 1, 2020 https://doi.org/10.3344/kjp.2020.33.2.183
Copyright © The Korean Pain Society.
Anesthesiology and Pain Management Unit, Azienda Socio Sanitaria Territoriale della Franciacorta, Brescia, Italy
Correspondence to:Andrea Tinnirello
Anesthesiology and Pain Management Unit, Azienda Socio Sanitaria Territoriale della Franciacorta, Via Giovanni XXIII, 2, Brescia 25031, Italy
Previous presentation at conferences: The 16th Annual Pain Medicine Meeting of the American Society of Regional Anesthesia (ASRA), 16-18th Nov. 2017, Orlando, FL, USA.
Received: June 27, 2019; Revised: October 3, 2019; Accepted: October 12, 2019
This is an open-access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Background: Opioids can present intolerable adverse side-effects to patients who use these analgesics to mitigate chronic pain. In this retrospective analysis, cooled radiofrequency (CRF) denervation was evaluated to provide pain and disability relief and reduce opioid use in patients with sacroiliac joint (SIJ) derived low back pain (LBP).
Methods: Twenty-seven patients with pain from SIJ refractory to conservative treatments, and taking opioids chronically (> 3 mo), were included. Numeric rating scale (NRS) and Oswestry disability index (ODI) scores were collected at 1, 6, and 12 months post-procedure. Opioid use between baseline and each follow-up visit was compared for the entire group and for those who experienced successful (pain reduction ≥ 50% of baseline value) or unsuccessful CRF denervation.
Results: Severe initial mean pain (NRS score: 7.7 ± 1.0) and disability (ODI score: 50.1 ± 9.0), and median opioid use (morphine equivalent daily dose: 40 ± 37 mg) were significantly reduced up to 12 months post-intervention. CRF denervation was successful in 44.4% of the patients at 12 months. Regardless of procedure success, patients demonstrated similar opioid reductions and changes in opioid use at 12 months. Two patients (7.4%) experienced neuritis following CRF denervation.
Conclusions: CRF denervation of the SIJ can safely elicit pain and disability relief, and reduce opioid use, regardless of intervention success. Future studies may support CRF denervation as a dependable therapy to alleviate opioid use in patients with SIJ-derived LBP and show that opioid use measurements can be a surrogate indicator of pain.
Keywords: Analgesics, Opioid, Chronic Pain, Conservative Treatment, Denervation, Low Back Pain, Opioid-Related Disorders, Retrospective Studies, Rhizotomy, Sacroiliac Joint.
The sacroiliac joint (SIJ) is a common origin of chronic low back pain (LBP) [1,2]. To combat this ailment, patients may engage in conservative therapies, which are non-invasive, but have limited effectiveness. Indeed, the utility of intra-articular joint steroid (IAS) injections or prolotherapy is equivocal [3-5], nonsteroidal anti-inflammatory drugs (NSAIDs) have short-term effectiveness but present adverse effects , while in patients with chronic non-specific LBP, the McKenzie physical therapy method was just slightly more effective than a placebo for pain . Surgical fusion is an invasive intervention that may or may not resolve patients SIJ-derived LBP . In contrast to these approaches, patients may use opioids on a daily basis to facilitate sustained analgesia. However, this strategy can be limited by gradual insensitivity to initial consumption, resulting in dependence as a consequence of progressively higher doses required to provide analgesia .
The United States’ (US) National Institute on Drug Abuse has summarized the gravity of the ongoing opioid crisis , which was born from widespread use of opioids initiated in the 1990s to ease chronic pain [11,12]. Overdosing on opioids is responsible for nearly 100 deaths daily in the US . The US Centers for Disease Control and Prevention estimates prescription opioid misuse in the US costs $78.5 billion annually, including the costs of healthcare, lost productivity, addiction treatment, and criminal justice involvement . The opioid crisis is defined by 1) up to one-third of patients prescribed opioids for chronic pain misuse them , 2) approximately 10% of those prescribed opioids develop an opioid misuse disorder [16-18], and 3) approximately 5% of those who misuse prescription opioids use heroin instead [16-18]. Whereas use of opioids for chronic pain can promote collateral morbidities, and on occasion, mortality, and the traditional non-pharmacological therapies outlined above have limited effectiveness and associated complications, it is clinically imperative that a different treatment be made available for chronic LBP that is different from these interventions.
Cooled radiofrequency (CRF) denervation of nociceptive nerves can be an effective means by which patients can enjoy relief of their SIJ-derived LBP and enhanced quality of life [19-24]. In particular, our previous retrospective observational study illustrated that CRF denervation affords greater analgesia and function than its counterpart conventional RF technique up to 12 months post-intervention . Other examinations have shown that dissipation in opioid use can accompany CRF denervation-facilitated pain relief [19,20,22], and included a case report , 3-, 4-month follow-up , and follow-up periods of 6-12 months and more than 12 months . While the latter outcomes especially can help to inform healthcare workers of the generalized durability of CRF for treating SIJ-derived LBP , the findings may be subject to under- and/or overestimations, given that such relatively wide follow-up time-frames can lend themselves to skewed results.
Thus, in addition to another report that retrospectively evaluated the relationship between CRF denervation and opioid use specifically at 12 months , here we report the results of our retrospective examination aimed at determining the influence of CRF denervation on opioid use at 1, 6, and 12 months following CRF treatment for SIJ-derived LBP.
This was a retrospective analysis of patients treated with CRF denervation for SIJ-derived LBP from January 2013 to May 2016. The study was approved by the Ethical Committee of Azienda Socio Sanitaria Territoriale della Franciacorta (IRB No. NP 2306; Comitato Etico Provinciale, Brescia, Italy), and all patients were provided written informed consent to use their outcomes in a report. This study was conducted in an Italian National Health Service Public Hospital.
The patients considered for inclusion in this study were consecutively admitted to the pain management unit of Azienda Socio Sanitaria Territoriale della Franciacorta for chronic LBP lasting for at least 6 months. Only patients taking opioids at the time of the CRF denervation procedure were included in our analysis. As such, while 31 patients received CRF denervation, 27 of these were included in the analyses of this study, because the remaining four were not using opioids at the time of CRF treatment. Following denervation, patients were instructed to reduce opioid medication intake according to their perceived health status (dosage reduction was monitored by patients’ general practitioners in order to prevent adverse effects from sudden withdrawal).
The diagnosis of SIJ-derived LBP was made as follows: 1) the patient had pain in the buttock or low back below L5, with radiation to the groin and/or thigh [25,26], 2) positivity on at least three out of six provocation tests for SIJ pain, specifically a thigh thrust test, distraction test, a Gaenslen’s test on both sides, a compression test, and sacral thrust test , and 3) pain relieved by joint injection with an anesthetic . An intra-articular test block by 0.75% ropivacaine (2 mL) was performed under fluoroscopic guidance using a 22-G, 100 mm spinal needle positioned in the lower third of the joint . The intra-articular spread of injected contrast medium was observed to confirm correct positioning of the needle. Patients who experienced pain relief of 50% or greater within five hours of the test block were diagnosed with SIJ pain.
Patients excluded from the study included those with 1) pain radiating below the knee or above L5, 2) other possible sources of LBP (determined by means of physical exam, medical history, and magnetic resonance imaging/computed tomography/X-ray, as well as rheumatology screening, as required), including, but not limited to, bone fractures, the hip joint, symptomatic spondylolisthesis, tumor, and other regional soft tissue structures . Also excluded from SIJ denervation were those who were 1) younger than age 18 years old, 2) pregnant, 3) mentally handicapped, or had 1) a blood coagulation disorder, 2) an infection at the intended site of the intervention, or 3) an allergy to local anesthetics that were used.
Previous conservative therapies for patients diagnosed with SIJ-derived pain included multiple (up to three times) injections (n = 2.2 ± 0.5 per patient; mean ± standard deviation [SD]) in the SIJ with a local anesthetic (ropivacaine, 2 mg/injection), a steroid (methylprednisolone, 40 mg/injection), and regularly-prescribed opioids and NSAIDs. Patients who failed conservative treatments were scheduled for CRF denervation.
Each prone-positioned, lightly sedated patient had a pillow placed beneath their abdomen, and the skin at the intervention site was numbed with 2% lidocaine. The S1, S2, and S3 foramina were identified by fluoroscopic guidance on the treatment side of the spine, and a 17-G introducer needle was inserted lateral to each target foramen until contact with the bone was achieved. Sensory stimulation in the SIJ at 50 Hz was performed to elicit paresthesia under 0.8 V, while to verify no motor recruitment in the ipsilateral lower extremity, motor stimulation was conducted at 2 Hz and at up to 1.5 V. Denervation by CRF (Avanos Medical Inc., Alpharetta, GA) was performed for 150 seconds at 60℃, with three lesions created at S1 and S2, and two at S3 . The needle was positioned between the junction of the sacral ala and the S1 superior articular process to lesion the L5 dorsal ramus [24,29-31]. After each procedure, the patient was observed for at least four hours before being discharged.
The primary outcome was the reduction in opioid consumption after CRF. Secondary outcomes were the reductions in pain and disability. Primary and secondary outcomes were measured at 1, 6, and 12 months after the CRF procedure. Baseline values were recorded on the day of the CRF procedure.
Opioid consumption, measured as the oral morphine equivalent daily dose (MEDD) in mg, was captured for each patient in the study. The MEDD was calculated using the calculator provided in the Agency Medical Directors’ Group 2015 Guidelines .
The numeric rating scale (NRS) was used to assess pain (0 = ‘no pain’ and 10 = ‘worst pain’) . The CRF denervation was considered a ‘treatment success’ if the patient-reported a follow-up NRS score relative to the respective baseline score that was reduced by ≥ 50% . The Oswestry disability index (ODI) was used to assess the extent of disability associated with SIJ pain (0 = ‘no disability’ and 100 = ‘worst disability’) . Adverse events that occurred throughout the study were recorded.
Statistical analysis was performed using Excel (Microsoft, Redmond, WA). Means or medians (calculated to accommodate the small patient population and corresponding wide data variation with respect to the MEDD data) and SDs were calculated for continuous demographic and outcome data, and after absence of normal distribution was detected by the Kolmogorov–Smirnov test, means or medians were compared by the Wilcoxon test with
Twenty-seven (27/31, 87.1%) patients had been chronically taking opioids (tapentadol = 15/27 patients [55.6%], oxycodone/naloxone = 10/27 [37.0%], codeine = 1/27 [3.7%], and transdermal fentanyl = 1/27 [3.7%]) when the CRF denervations were performed.
Patients presented with severe pain (baseline NRS score = 7.7 ± 1.0; mean ± SD), which was significantly reduced up to 12 months following CRF denervation (
The severe disability in the study group at baseline (mean ODI score = 50.1 ± 9.0) was significantly reduced for up to 12 months after CRF denervation (
1) Entire study group
Median MEDD was decreased significantly (
2) Successful vs. unsuccessful treatments
Further analyses demonstrated that, at 12 months, the study population experienced changes in the MEDD defined as ‘more’ (n = 2), ‘no change’ (n = 4), ‘reduced ≤ 50%’ (n = 4), ‘reduced ≥ 50%’ (n = 10), or ‘eliminated’ (n = 7), and interestingly reveal that, in most cases, equivalent or nearly equivalent fractions of patients who had successful or unsuccessful CRF denervation experienced each of these MEDD modifications (
Two patients (7.4% [2/27]) developed neuritis during the first week following the CRF denervation procedure with severe burning pain radiating down their leg. These patients were managed with a short course of oral steroid (prednisone, 25 mg/day for 5 days) with a complete resolution of their symptoms. Each of these patients reported treatment success (in regards to pain) and less disability at each follow-up visit compared to their respective baseline values for these outcomes.
CRF denervation of the SIJ significantly decreased SIJ-derived LBP and its associated disability at each follow-up visit up to 12 months. In addition, mean opioid use in the entire study group was significantly reduced from baseline at each follow-up visit. Reductions in opioid use were not observed selectively in patients who had successful treatments, as those who had unsuccessful treatments also reported less opioid use at each time-point compared to when the study began. By 12 months post-CRF denervation, alterations in opioid use were, in most cases, evenly distributed among patients who experienced successful and unsuccessful treatments. Two instances of neuritis, a minor adverse event, occurred following CRF denervation.
While other investigators have also analyzed the influence of CRF denervation in the SIJ on opioid use [19, 20, 22, 23], this current report uniquely evaluated differential opioid use among patients who had successful or unsuccessful CRF denervation treatments, as determined by NRS score results. As expected, those who experienced the former outcome reduced their opioid intake. Remarkably, those who did not have a successful treatment also reduced their opioid consumption, and as demonstrated in
Conservative therapeutic options such as IAS injections, NSAIDs, physical therapy, and opioids are commonly used to manage chronic LBP emanating from the SIJ region. These therapies are fraught with performance limitations, [3-7,9] and may promote adverse events for patients [6,9]. Surgical fusion is highly invasive, may not be efficacious , and can be accompanied by complications such as infection [37-39], non-union [38-41], further surgery (hardware removal, scar tissue excision, second fusion) [38,40], and intraoperative fracture . Furthermore, in their systematic review that indirectly compared surgical fusion (6 studies) to RF-mediated denervation (5 studies) for treating SIJ-derived LBP, Ashman et al.  found that each technique can reduce such pain, but fusion had a higher complication rate, with infection being uniquely included among the adverse events reported for this intervention (infections-excluded complication rates: fusion, 13.7% [95 patients]; denervation, 7.3% [68 patients]). Taken together, clinical evidence suggests that non-invasive conservative therapies have limited efficacy, while at the other intervention extreme, invasive surgical fusion may be effective at the expense of an intolerable risk-to-benefit profile. The latter could exclude some patients, especially those who have comorbidities or are elderly, from surgical fusion. Thus, RF-facilitated denervation for SIJ-derived LBP may be a sensible intermediate therapy for patients.
Both conventional and cooled RF denervation options are available to treat SIJ-derived LBP. Technical and clinical findings infer an advantage to CRF compared to conventional RF for this ailment. The cooled probe tip of the CRF device permits a relatively larger lesion to be created compared to that of conventional RF, as demonstrated on the canine heart . This comparative advantage of CRF makes it more likely that this denervation technique can ablate the variable nerve courses assumed by nociceptive nerves in the SIJ [44,45]. We provided evidence to support such the favorability of CRF versus conventional RF when we directly compared two RF devices specifically designed to treat SIJ-derived LBP, SInergy® (Avanos Medical Inc., Alpharetta, GA) and Simplicity III® (NeuroTherm Inc., Wilmington, MA) . In this retrospective analysis, pain relief and functional improvements were significantly greater up to 12 months for patients treated with SInergy (n = 22) than with Simplicity III (n = 21). Extending these findings to those in this current report suggests that CRF denervation provides patients with longer relief from use of opioids than conventional RF as an analgesic strategy for SIJ-derived LBP.
It is an important clinical goal to decrease or remove use of opioids for those afflicted with chronic SIJ-derived LBP. Generally speaking, there is an increasing concern that individuals who use opioids for chronic pain are at risk of their misuse, addiction, and death [13-15]. Deyo et al.  reviewed the use of opioids specifically for LBP. These authors reported that opioids have short-term (
This was not a prospective randomized controlled clinical trial. This examination included a relatively small population pool, with considerable variation in the MEDD outcome. Despite such limitations, the effect of CRF denervation on opioid consumption was significant up to 12 months. Without a control group in the study, patients may have artificially made their outcome tool responses to CRF denervation more positive than if a placebo treatment was also included in the study. Given the strong interest among healthcare workers and patients to reduce opioid use for chronic LBP, the focus of this study on that outcome is clinically-relevant. Adding to such relevance would be a direct comparison between CRF and conventional RF denervation to understand more clearly which may more effectively reduce opioid use among patients with SIJ-derived chronic LBP.
Statistically-significant analgesia and disability relief were manifested by CRF denervation in patients afflicted with SIJ-derived LBP for up to 12 months following the intervention. Moreover, opioid use was significantly reduced at each time-point following denervation for up to 12 months, and patients who reported successful or unsuccessful CRF denervation treatments reduced their use of opioids, and to similar extents.
This study provides further evidence that CRF denervation of the nociceptive nerves of the SIJ can safely provide meaningful pain and disability relief coupled with significantly less dependence on opioids. The latter benefit of CRF denervation may facilitate a means for patients who suffer from SIJ-derived LBP to escape use of opioids and the side-effects that can accompany their consumption. Future randomized controlled studies may provide further evidence that CRF denervation can reduce or eliminate opioid use in patients with SIJ-derived LBP, and buttress the notion suggested in this report that measuring opioid use may be a purposeful surrogate indicator of pain status.
Dr. Andrea Tinnirello received payments from Avanos Medical Inc. for participating as an instructor in cadaver workshops on cooled radiofrequency during 2018 and 2019.
No funding to declare.