Asset Publisher

mp-555

print Print Back Back

Sacroiliac Joint Fusion

Policy Number: MP-555

 Latest Review Date: November 2023

Category: Surgery                                                                  

 

POLICY:

Minimally invasive fusion/stabilization of the sacroiliac joint using an FDA approved device may be considered medically necessary when ALL of the following criteria are met:

  1. Pain is at least 5 on a 0 to 10 rating scale that impacts quality of life or limits activities of daily living; AND
  2. There is an absence of generalized pain behavior (e.g., somatoform disorder) or generalized pain disorders (e.g., fibromyalgia); AND
  3. Patients have undergone and failed a minimum 6 months of intensive nonoperative treatment that must include medication optimization, activity modification, bracing, and active therapeutic exercise targeted at the lumbar spine, pelvis, sacroiliac joint, and hip, including a home exercise program; AND
  4. Pain is caudal to the lumbar spine (L5 vertebra), localized over the posterior sacroiliac joint, and consistent with sacroiliac joint pain; AND
  5. A thorough physical examination demonstrates localized tenderness with palpation over the sacral sulcus (Fortin’s point) in the absence of tenderness of similar severity elsewhere; AND
  6. There is a positive response to a cluster of 3 provocative tests (e.g., thigh thrust test, compression test, Gaenslen sign, distraction test, Patrick test, posterior provocation test); AND
  7. Diagnostic imaging studies include ALL of the following:
    1. Imaging (plain radiographs and computed tomography or magnetic resonance imaging) of the sacroiliac joint excludes the presence of destructive lesions (e.g., tumor, infection) or inflammatory arthropathy of the sacroiliac joint; AND
    2. Imaging of the pelvis (anteroposterior plain radiograph) rules out concomitant hip pathology; AND
    3. Imaging of the lumbar spine (computed tomography or magnetic resonance imaging) is performed to rule out neural compression or other degenerative condition that can be causing low back or buttock pain; AND
    4. Imaging of the sacroiliac joint indicates evidence of injury and/or degeneration; AND
  8. There is at least a 75% reduction in pain for the expected duration of the anesthetic used following an image-guided, contrast-enhanced intra-articular sacroiliac joint injection on 2 separate occasions; AND
  9. A trial of a therapeutic sacroiliac joint injection (i.e., corticosteroid injection) has been performed on at least once.

Minimally invasive fusion/stabilization of the sacroiliac joint is considered investigational for all other indications.

Sacroiliac joint fusion, performed by an open procedure, may be considered medically necessary when ONE of the following criterion is met:

  • as an adjunct to sacrectomy or partial sacrectomy related to tumors involving the sacrum; OR
  • as an adjunct to the medical treatment of sacroiliac joint infection (e.g., osteomyelitis; pyogenic sacroiliitis) or sepsis;

OR

  • as a treatment for severe traumatic injuries associated with pelvic ring fracture.

Sacroiliac joint fusion performed by an open procedure for any other indication not listed above is considered investigational.

DESCRIPTION OF PROCEDURE OR SERVICE:

Sacroiliac joint fusion is a surgical procedure which fuses the iliac bone (pelvis) to the spine (sacrum) for stabilization. It is performed for a variety of conditions including trauma, infection, cancer, and spinal instability. Similar to other structures in the spine, it is assumed that the sacroiliac joint may be a source of low back pain. Fusion of the sacroiliac joint was initially described as a treatment option for low back pain in 1925. Given the depth of and anatomic location of the SI joint, significant morbidity was associated with open fusion approach and limited usage of these procedures.

Research into sacroiliac joint pain has been thwarted by any criterion standard to measure its prevalence and against which various clinical examinations can be validated. For example, sacroiliac joint pain is typically without any consistent, demonstrable radiographic or laboratory features and most commonly exists in the setting of morphologically normal joints. Clinical tests for sacroiliac joint pain may include various movement tests, palpation to detect tenderness, and pain descriptions by the patient. Further confounding study of the sacroiliac joint is that multiple structures, such as posterior facet joints and lumbar discs, may refer pain to the area surrounding the sacroiliac joint.

Because of inconsistent information obtained from history and physical examination, some have proposed the use of image-guided anesthetic injection into the SIJ for the diagnosis of SIJ pain. Treatments being investigated for SIJ pain include prolotherapy (refer to policy # 235 Prolotherapy), corticosteroid injection, radiofrequency ablation, stabilization, and arthrodesis. For indications and coverage criteria related to diagnosis and other treatments of SIJ pain, refer to policy #558 Diagnosis and Treatment of Sacroiliac Joint Pain.

Over the past few decades, techniques utilizing transiliac approaches to fuse the sacroiliac joint have been developed. Minimally invasive technology has been applied to these approaches and has resulted in the development of percutaneous SI joint fusion procedures in recent years. A 2021 review identified 33 different devices that could be implanted using either a lateral transiliac approach (n=21), posterior allograft approach (n=6), posterolateral approach (n=3), or a combination of the approaches (n=3). The iliosacral and posterolateral approaches use up to 3 implants that pass through the ilium, while the posterior approach involves inserting implants directly into the SIJ. Many of the devices are intended to be used with allograft bone. Implants composed entirely of allograft bone are typically inserted through a posterior approach. The authors found no published evidence for 23 of the 33 devices identified. Devices for SIJ fixation/fusion that promote bone ingrowth to fixate the implants include a triangular implant (iFuse Implant System) and cylindrical threaded devices (Rialto, SImmetry, Silex, SambaScrew, SI-LOK). Some devices also have a slot in the middle where autologous or allogeneic bone can be inserted. This added bone is intended to promote fusion of the SIJ.

Some procedures have been referred to as SIJ fusion but may be more appropriately called fixation (this is because there is little to no bridging bone on radiographs). This posterior approach involves inserting implants into the ligamentous recess between the sacrum and ilium and may be called distraction arthrodesis as the implants increase the joint space and create tension on the ligaments, repositioning the joint surfaces. The devices are intended to be used with allograft bone or are composed entirely of allograft bone that are not specifically indicated/approved for SI joint fusion. According to the 2020 International Society for the Advancement of Spine Surgery (ISASS) policy update, the posterior dorsal approach has “fallen out of favor secondary to problems with both allografts (pseudarthrosis secondary to graft fracture or resorption) and cages (migration and subsidence, loss of lumbar lordosis, high pseudarthrosis rates, and the established need for supplemental spinal fixation)”.

KEY POINTS:

The most recent literature review was performed through September 13, 2023. Following is a summary of key references to date.

Summary of Evidence

For individuals who have SIJ pain who receive SIJ fixation/fusion with a triangular or cylindrical threaded implant, the evidence includes RCTs, prospective cohorts, and case series. Relevant outcomes are symptoms, functional outcomes, QOL, medication use, and treatment-related morbidity. For triangular implants, the evidence includes 2 nonblinded RCTs of minimally invasive fusion, prospective cohorts with more than 85% follow-up, and case series. Both RCTs reported outcomes past six months, after which crossover was allowed. The studies reported significantly greater reductions in VAS pain scores and ODI scores in SIJ fusion patients than in control groups. The reductions in pain and disability observed in the SIJ fusion group at six months were maintained out to one year compared with controls who had not crossed over. The RCTs were nonblinded without a placebo or an active control group. Prospective cohorts and case series with sample sizes ranging from 45 to 149 patients and low dropout rates (<15%) also showed reductions in pain and disability out to 5 years. The cohort studies and case series are consistent with the durability of treatment benefit.

For individuals who have SIJ pain who receive SIJ fusion/fixation with an implant other than a transiliac triangular implant, theevidence includes 4 prospective cohort studies and retrospective case series. Three prospective cohorts were conducted with transiliac screws and the third with a device inserted through a posterior approach. Meta-analyses of the available prospective and retrospective studies indicate improvement in subjective outcomes from before surgery to follow-up, but with a possible difference in outcomes between the more well studied triangular transiliac implant and other implant designs and approaches. No controlled studies were identified.

There is limited clinical evidence evaluating the safety and effectiveness of distraction or posterior (dorsal) SIJ fusion. The majority of the published studies have evaluated SI joint fusion outcomes using a lateral transiliac approach with device placement through the ileum and across the SI joint. Few authors have reported outcomes using a direct dorsal approach, which involves the placement of bone allograft products or devices into the ligamentuous portion of the joint, involving dissection of the muscle and the removal of a portion of the ligaments covering the outer posterior surface of the joint. A qualitative systematic review by the ISASS found evidence on fusion was limited to 1 prospective multicenter study, no comparative studies, and a small number of case series. Due to distinct differences between the transiliac and posterior approaches, data from studies of lateral minimally invasive transiliac SIJ fusion with transfixing devices are likely not generalizable to the posterior (dorsal) MIS SIJ fusion procedures. Minimally invasive posterior (dorsal) SIJ fusion is not recommended.

Practice Guidelines and Position Statements

In response to requests, focused input on SIJ fusion was received from 5 physician specialty societies and 3 academic medical centers while this policy was under review in 2015. A majority of reviewers considered SIJ fusion to be investigational.

American Society of Pain and Neuroscience

In 2021, the American Society of Pain and Neuroscience (ASPN) published practice a guideline on radiofrequency neurotomy. All of the workgroup members utilized radiofrequency neurotomy in clinical practice. A consensus statement, based on Grade II-1 evidence (well-designed, controlled, nonrandomized clinical trial), was that "lateral branch radiofrequency neurotomy may be used for the treatment of posterior sacral ligament and joint pain following positive response to appropriately placed diagnostic blocks."

In 2022, ASPN published guidance on the treatment of lower back pain. The following recommendations were provided concerning SIJ injections, minimally invasive sacroiliac joint fixation and sacroliliac radiofrequency ablation:

  • Sacroiliac joint injections have been associated with positive predictive value in the diagnosis of SIJ dysfunction (Grade, A; Level, I-A; Level of certainty, Strong)
  • Sacroiliac joint injections demonstrate short term relief of SIJ dysfunction (Grade, B; Level, I-B; Level of certainty, Moderate)
  • Minimally invasive sacroiliac fusion (Grade, A; Level, 1-A; Level of certainty, High)
  • SI joint denervation/ablation is effective in treatment of SI joint dysfunction pain and is superior to sham in RCT (Grade, A; Level, I-A; Level of certainty, High)

International Society for the Advancement of Spine Surgery (ISASS)

In 2020, the International Society for the Advancement of Spine Surgery provided guidance on indications for minimally invasive SIJ fusion with placement of lateral transfixing devices.

The Society recommended that "patients who have all of the following criteria may be eligible for lateral MIS SIJF with placement of lateral transfixing devices:

  • "Chronic SIJ pain (pain lasting at least 6 months)
  • Significant SIJ pain that impacts QOL or significantly limits activities of daily living
  • SIJ pain confirmed with at least 3 physical examination maneuvers that stress the SIJ [list provided above] and reproduce the patient’s typical pain
  • Confirmation of the SIJ as a pain generator with > 50% acute decrease in pain upon fluoroscopically guided diagnostic intra-articular SIJ block using a small volume (< 2.5 mL) of local anesthetic......
  • Failure to respond to nonsurgical treatment consisting of NSAIDs and a reasonable course (4–6 weeks) of PT. Failure to respond means continued pain that interferes with activities of daily living and/or results in functional disability"

North American Spine Society

The North American Spine Society (NASS) published coverage recommendations for percutaneous sacroiliac joint (SIJ) fusion in 2015. NASS indicated that there was relatively moderate evidence. In the absence of high-level data, NASS policies reflect the multidisciplinary experience and expertise of the committee members in order to present reasonable standard practice indications in the United States. NASS recommended coverage when all of the following criteria are met:

  1. “[Patients] have undergone and failed a minimum 6 months of intensive nonoperative treatment that must include medication optimization, activity modification, bracing and active therapeutic exercise targeted at the lumbar spine, pelvis, SIJ and hip including a home exercise program.
  2. Patient’s report of typically unilateral pain that is caudal to the lumbar spine (L5 vertebra), localized over the posterior SIJ, and consistent with SIJ pain.
  3. A thorough physical examination demonstrating localized tenderness with palpation over the sacral sulcus (Fortin’s point, i.e., at the insertion of the long dorsal ligament inferior to the posterior superior iliac spine or PSIS) in the absence of tenderness of similar severity elsewhere (e.g., greater trochanter, lumbar spine, coccyx) and that other obvious sources for their pain do not exist.
  4. Positive response to a cluster of 3 provocative tests (e.g., thigh thrust test, compression test, Gaenslen’s test, distraction test, Patrick’s sign, posterior provocation test). Note that the thrust test is not recommended in pregnant patients or those with connective tissue disorders.
  5. Absence of generalized pain behavior (e.g., somatoform disorder) or generalized pain disorders (e.g., fibromyalgia).
  6. Diagnostic imaging studies that include ALL of the following:
    1. Imaging (plain radiographs and a CT [computed tomography] or MRI [magnetic resonance imaging]) of the SI joint that excludes the presence of destructive lesions (e.g., tumor, infection) or inflammatory arthropathy that would not be properly addressed by percutaneous SIJ fusion.
    2. Imaging of the pelvis (AP [anteroposterior] plain radiograph) to rule out concomitant hip pathology.
    3. Imaging of the lumbar spine (CT or MRI) to rule out neural compression or other degenerative condition that can be causing low back or buttock pain.
    4. Imaging of the SI joint that indicates evidence of injury and/or degeneration.
  7. At least 75% reduction of pain for the expected duration of the anesthetic used following an image-guided, contrast-enhanced intra-articular SIJ injection on 2 separate occasions.
  8. A trial of at least one therapeutic intra-articular SIJ injection (i.e., corticosteroid injection).”

NASS posted a protocol for a forthcoming systematic review and guideline on SIJ pain, "Diagnosis and Treatment of Adults with Sacroiliac Joint Pain: A Protocol for a Systematic Review and Clinical Guideline by the North American Spine Society" in February, 2023. The review aims to provide evidence-based recommendations to address critical clinical questions surrounding diagnosing and treating adult patients with sacroiliac joint pain. No estimated date of publication was provided.

National Institute for Health and Care Excellence

National Institute for Health and Care Excellence guidance was published in 2017 on minimally invasive SIJ fusion surgery for chronic sacroiliac pain. The recommendations included:

  • “Current evidence on the safety and efficacy of minimally invasive sacroiliac (SI) joint fusion surgery for chronic SI pain is adequate to support the use of this procedure…. provided that standard arrangements are in place for clinical governance, consent and audit.
  • Patients having this procedure should have a confirmed diagnosis of unilateral or bilateral SI joint dysfunction due to degenerative sacroiliitis or SI joint disruption.
  • This technically challenging procedure should only be done by surgeons who regularly use image-guided surgery for implant placement. The surgeons should also have had specific training and expertise in minimally invasive SI joint fusion surgery for chronic SI pain.”

In 2022, NICE published medical technology guidance on using the iFuse implant system for treating chronic sacroiliac joint pain. It provided the following recommendations:

  • iFuse implant system is recommended as an option for treating chronic sacroiliac joint pain.
  • iFuse should be considered for use in people with a confirmed diagnosis of chronic sacroiliac joint pain (based on clinical assessment and a positive response to a diagnostic injection of local anaesthetic in the sacroiliac joint) and whose pain is inadequately controlled by non-surgical management.

U.S. Preventive Services Task Force Recommendations

Not Applicable.

KEY WORDS:

Sacroiliac Joint Arthrodesis, SInergy, SI sacroiliac joint stabilization for arthrodesis, SI-FIX Sacroiliac Joint Fusion System, IFUSE Implant System, SImmetry Sacroiliac Joint Fusion System and the SI-LOK, Minimally invasive sacroiliac joint fusion, percutaneous sacroiliac joint fusion, Silex, XTANT, SambaScrew, Si Bone, titanium triangular implant, iFuse-3D, FIREBIRD, SIimpact, Siros, Triton SI Joint Fixation System, Rialto, SacroFuse, SIJFuse, Catamaran, CornerLoc, PainTEQ, LinQ, SI Joint Stabilization NADIA, DIANA, PsiF, SIFix System, TransFasten Posterior Sacroiliac Fusion, dorsal sacroiliac fusion

APPROVED BY GOVERNING BODIES:

A number of percutaneous or minimally invasive fixation/fusion devices have been cleared for marketing by the FDA through the 510(k) process. Examples of types of commercially available SIJ fusion devices are listed in the table below.

Device

Manufacturer

Features

Graft Compatible

Clearance

Date

Lateral Transiliac Approach

 

 

 

 

 

iFuse®

SI Bone

Titanium triangular rod with conventional manufacturing

Y

K110838

2011

iFuse® 3D

SI Bone

Titanium triangular 3D printed porous rod

Y

K162733

2017

FIREBIRD SI Fusion System™

Orthofix

Cannulated screw

Y

K200696

2020

SambaScrew®

Orthofix

Cannulated screw

Y

K121148

2012

Silex Sacroiliac Joint Fusion®

X-Spine Systems

Cannulated screw

Y

K140079

2014

SI-LOK® Sacroiliac Joint Fixation System

Globus Medical

Cannulated screw

Y

K112028

2011

SImmetry® Sacroiliac Joint Fusion System

RTI

Cannulated screw

Y

K102907

2010

SIimpact® Sacroiliac Joint Fixation System

Life Spine

Cannulated screw

Y

K180749

2018

SIros™

Genesys Spine

Cannulated screw

Y

K191748

2019

Triton SI Joint Fixation System™

Choice Spine

3D printed screw with porous graft windows

Y

K211449

2021

Posterolateral Approach

 

 

 

 

 

Rialto™ SI Joint Fusion System

Medtronic

Cannulated screw

Y

K161210

2016

SacroFuse®/ SIJFuse™

SpineFrontier

Solid or hollow-cored screw

Y

K150017

2015

Posterior Approach

 

 

 

 

 

Catamaran™

Tenon Medical

Metal plug

Y

K180818

2018

CornerLoc™

Fusion Foundation Solutions

Bone allograft

N

HCT/P

N/A

LinQ™ SI Joint Stabilization

PainTEQ

Bone allograft

N

HCT/P

N/A

NADIA™ SI Fusion System (DIANA)

Ilion Medical

Metal plug

N

K190580

2020

PsiF™ Posterior Sacroiliac Fusion

Omnia Medical

Bone allograft

N

HCT/P

N/A

SIFix System®

NuTech

Bone allograft

N

HCT/P

N/A

TransFasten™

Captiva Spine

Bone allograft

N

HCT/P

N/A

BENEFIT APPLICATION:

Coverage is subject to member’s specific benefits.  Group-specific policy will supersede this policy when applicable.

ITS: Home Policy provisions apply.

FEP:  Special benefit consideration may apply.  Refer to member’s benefit plan.  FEP does not consider investigational if FDA approved and will be reviewed for medical necessity.

CURRENT CODING: 

CPT Codes:

22899

Unlisted procedure, spine

27278 Arthrodesis, sacroiliac joint, percutaneous, with image guidance, including placement of intra-articular implant(s) (eg, bone allograft[s], synthetic device[s]), without placement of transfixation device (Effective 01/01/24)

27279

Arthrodesis, sacroiliac joint, percutaneous or minimally invasive (indirect visualization), with image guidance, includes obtaining bone graft when performed, and placement of transfixing device

27280

Arthrodesis, open, sacroiliac joint, including obtaining bone graft, including instrumentation, when performed

27299

Unlisted procedure, pelvis or hip joint

 

Previous Coding: 

CPT Codes:

0775T

Arthrodesis, sacroiliac joint, percutaneous, with image guidance, includes placement of intra-articular implant(s) (eg, bone allograft[s], synthetic device[s]) (Deleted 12/31/23)

0809T

Arthrodesis, sacroiliac joint, percutaneous or minimally invasive (indirect visualization), with image guidance, placement of transfixing device(s) and intraarticular implant(s), including allograft or synthetic device(s) (Deleted 12/31/23)

REFERENCES:

  1. American Society of Anesthesiologists Task Force on Chronic Pain Management, American Society of Regional Anesthesia and Pain Medicine. Practice guidelines for chronic pain management: an updated report by the American Society of Anesthesiologists Task Force on Chronic Pain Management and the American Society of Regional Anesthesia and Pain Medicine. Anesthesiology. Apr 2010; 112(4):810-833.
  2. Ackerman SJ et al. Comparison of the costs of nonoperative care to minimally invasive surgery for sacroiliac joint disruption and degenerative sacroiliitis in a United States Medicare population: potential economic implications of a new minimally-invasive technology. Clinicoecon Outcomes Res. 2013; 5:575-587.
  3. Araghi A, Woodruff R, Colle K, et al. Pain and opioid use outcomes following minimally invasive sacroiliac joint fusion with decortication and bone grafting: The Evolusion Clinical Trial. Open Orthop J. Feb 2017;11:1440-1448.
  4. Ashman B, Norvell DC, Hermsmeyer JT. Chronic sacroiliac joint pain: fusion versus denervation as treatment options. Evid Based Spine Care J 2010; 1(3):35-44.
  5. Calodney AK, Azeem N, Buchanan P, et al. Six Month Interim Outcomes from SECURE: A Single arm, Multicenter, Prospective, Clinical Study on a Novel Minimally Invasive Posterior Sacroiliac Fusion Device. Expert Rev Med Devices. May 2022; 19(5): 451-461.
  6. Cher DJ, Reckling WC, Capobianco RA. Implant survivorship analysis after minimally invasive sacroiliac joint fusion using the iFuse Implant System((R)). Med Devices (Auckl). Dec 2015; 8:485-492.
  7. Cross WW, Delbridge A, Hales D, et al. Minimally Invasive sacroiliac joint fusion: 2-year radiographic and clinical outcomes with a principles-based SIJ fusion system. Open Orthop J. Feb 2018;12:7-16.
  8. Darr E, Meyer SC, Whang PG, et al. Long-term prospective outcomes after minimally invasive trans-iliac sacroiliac joint fusion using triangular titanium implants. Med Devices (Auckl). 2018;11:113-121.
  9. Dengler JD, Kools D, Pflugmacher R, et al. 1-Year results of a randomized controlled trial of conservative management vs. minimally invasive surgical treatment for sacroiliac joint pain. Pain Physician. Sep 2017; 20(6):537-550.
  10. Dengler J, Kools D, Pflugmacher R, et al. Randomized Trial of Sacroiliac Joint Arthrodesis Compared with Conservative Management for Chronic Low Back Pain Attributed to the Sacroiliac Joint. J Bone Joint Surg Am. Mar 06 2019; 101(5): 400-411.
  11. Dengler J, Sturesson B, Kools D, et al. Referred leg pain originating from the sacroiliac joint: 6-month outcomes from the prospective randomized controlled iMIA trial. Acta Neurochir (Wien). Nov 2016; 158(11):2219-2224.
  12. Duhon et al. Safety and 6-month effectiveness of minimally invasive sacroiliac joint fusion: a prospective study. Med Dev (Auckl) 2013; 6:219-229.
  13. Duhon BS, Bitan F, Lockstadt H, et al. Triangular titanium implants for minimally invasive sacroiliac joint fusion: 2-year follow-up from a prospective multicenter trial. Int J Spine Surg. 2016; 10:13.
  14. Duhon B, Cher D, Wine, KD, et al. Triangular titanium implants for minimally invasive sacroiliac joint fusion: a prospective study. Global Spine J. May 2016; 6(3):257-269.
  15. Fuchs V, Ruhl B. Distraction arthrodesis of the sacroiliac joint: 2-year results of a descriptive prospective multi-center cohortstudy in 171 patients. Eur Spine J. Jan 2018; 27(1): 194-204.
  16. Graham-Smith et al. Open versus minimally invasive sacroiliac joint fusion: a multi-center comparison of perioperative measures and clinical outcomes. Ann Surg Innov Res 2013; 7:1-12.
  17. Hansen H, Manchikanti L, Simopoulos TT, et al. A systematic evaluation of the therapeutic effectiveness of sacroiliac joint interventions. Pain Physician. May-Jun 2012; 15(3):E247-278.
  18. Heiney J, Capobianco R, Cher D. A systematic review of minimally invasive sacroiliac joint fusion using lateral transarticular technique. Intern J of Spine 2015; 9(40).
  19. Himstead AS, Brown NJ, Shahrestani S, et al. Trends in Diagnosis and Treatment of Sacroiliac Joint Pathology Over thePast 10 Years: Review of Scientific Evidence for New Devices for Sacroiliac Joint Fusion. Cureus. Jun 2021; 13(6):e15415.
  20. International Society for the Advancement of Spine Surgery (ISASS) statement on minimally invasive SI joint fusion coding changes. www.isass.org/public_policy/2013-08-07-isass-statement-minimally-invasive-si-joint-fusion-coding-changes.html.
  21. International Society for the Advancement of Spinal Surgery (IASS). Recommendations for Coverage Criteria for Sacroiliac Joint Fusion. 2015; www.isass.org/public_policy/2015-03-19-coverage-criteria-for-minimallyinvasive-si-joint-fusion-2015.html.
  22. International Society for the Advancement of Spinal Surgery (ISASS). ISASS policy 2016 update- minimally invasive sacroilliac joint fusion. 2016; www.isass.org/public-policy/isass-policy-statement-minimally-invasive-sacroiliac-joint-fusion-july-2016/.
  23. Kucharzyk D, Colle K, Boone C, et al. Clinical Outcomes Following Minimally Invasive Sacroiliac Joint Fusion With Decortication: TheEVoluSIon Clinical Study. Int J Spine Surg. Feb 2022; 16(1): 168-175.
  24. Lee DW, Pritzlaff S, Jung MJ, et al. Latest Evidence-Based Application for Radiofrequency Neurotomy (LEARN): Best Practice Guidelines from the American Society of Pain and Neuroscience (ASPN). J Pain Res. 2021; 14: 2807-2831.
  25. Lorio M, Kube R, Araghi A. International Society for the Advancement of Spine Surgery Policy 2020 Update-Minimally Invasive Surgical Sacroiliac Joint Fusion (for Chronic Sacroiliac Joint Pain): Coverage Indications, Limitations, and Medical Necessity.Int J Spine Surg. Dec 2020; 14(6): 860-895.
  26. Lorio MP, Rashbaum R. ISASS policy statement - minimally invasive sacroiliac joint fusion. Int J Spine Surg. 2014; 8.
  27. Manchikanti L, Abdi S, Atluri S, et al. An update of comprehensive evidence-based guidelines for interventional techniques in chronic spinal pain. Part II: guidance and recommendations. Pain Physician. Apr 2013; 16(2Suppl):S49-283.
  28. Manchikanti L, Datta S, Derby R, et al. A critical review of the American Pain Society clinical practice guidelines for interventional techniques: part 1. Diagnostic interventions. Pain Physician. May-Jun 2010; 13(3):E141-174.
  29. Manchikanti L, Datta S, Gupta S, et al. A critical review of the American Pain Society clinical practice guidelines for interventional techniques: part 2. Therapeutic interventions. Pain Physician. Jul-Aug 2010; 13(4):E215-264.
  30. Martin CT, Haase L, Lender PA, Polly DW. Minimally Invasive Sacroiliac Joint Fusion: The Current Evidence. Int J Spine Surg. 2020 Feb 10;14(Suppl 1):20-29.
  31. Mason LW, Chopra I, Mohanty K. The percutaneous stabilisation of the sacroiliac joint with hollow modular anchorage screws: a prospective outcome study. Eur Spine J 2013; 22(10):2325-2331.
  32. Miller L et al. Analysis of the postmarket complaints database for the iFuse SI Joint Fusion System®: a minimally invasive treatment for degenerative sacroiliitis and sacroiliac joint disruption. Med Device (Auckl) 2013; 6:77-84.
  33. National Institute for Health and Care Excellence. Minimally invasive sacroiliac joint fusion surgery for chronic sacroiliac pain[IPG578]. 2017; https://www.nice.org.uk/guidance/ipg578.
  34. North American Spine Society (NASS). NASS coverage policy recommendations: Percutaneous sacroiliac joint fusion. 2015; https://www.spine.org/PolicyPractice/CoverageRecommendations/CoverageRecommendations.aspx.
  35. Patel V, Kovalsky D, Meyer SC, et al. Prospective Trial of Sacroiliac Joint Fusion Using 3D-Printed Triangular Titanium Implants. Med Devices (Auckl). 2020; 13: 173-182.
  36. Patel A, Kumar D, Singh S, et al. Effect of Fluoroscopic-Guided Corticosteroid Injection in Patients With Sacroiliac Joint Dysfunction.Cureus. Mar 2023; 15(3): e36406.
  37. Polly DW, Cher DJ, Wine KD, et al. Randomized Controlled Trial of Minimally Invasive Sacroiliac Joint Fusion Using Triangular Titanium Implants vs Nonsurgical Management for Sacroiliac Joint Dysfunction: 12-Month Outcomes. Neurosurgery. Nov 2015; 77(5):674-691.
  38. Polly D, Swofford J, Whang P, et al. Two-year outcomes from a randomized controlled trial of minimally invasive sacroiliac joint fusion vs non-surgical management for sacroiliac joint dysfunction. Int J Spine Surg. 2016; 10:28.
  39. Rappoport LH, Helsper K, Shirk T. Minimally invasive sacroiliac joint fusion using a novel hydroxyapatite-coated screw: final 2-year clinical and radiographic results. J Spine Surg. Jun 2021; 7(2): 155-161.
  40. Rappoport LH, Luna IY, Joshua G. Minimally Invasive sacroiliac joint fusion using a novel hydroxyapatite-coated screw: preliminary 1-year clinical and radiographic results of a 2-year prospective study. World Neurosurg. May 2017; 101:493-497.
  41. Rudolf L. MIS sacroiliac (SI) joint fusion in the context of previous lumbar spine fusion: 5 patients with 24 month follow up. In Int. Soc. Adv. Spine Surg. 107(2013).
  42. Rudolf L. Sacroiliac Joint Arthrodesis-MIS Technique with Titanium Implants: Report of the First 50 Patients and Outcomes. Open Orthop J 2012; 6:495-502.
  43. Rudolf L, Capobianco R. Five-year clinical and radiographic outcomes after minimally invasive sacroiliac joint fusion using triangular implants. Open Orthop J. 2014; 8:375-383.
  44. Sachs D, Capobianco R. One year successful outcomes for novel sacroiliac joint arthrodesis system. Ann Surg Innov Res 2012; 6(1):13.
  45. Sachs D, Capobianco R, Cher D, et al. One-year outcomes after minimally invasive sacroiliac joint fusion with a series of triangular implants: a multicenter, patient-level analysis. Med Devices (Auckl). 2014; 7:299-304.
  46. Sachs D, Kovalsky D, Redmond A, et al. Durable intermediate-to long-term outcomes after minimally invasive transiliac sacroiliac joint fusion using triangular titanium implants. Med Devices (Auckl). 2016; 9:213-222.
  47. Sayed D, Grider J, Strand N, et al. The American Society of Pain and Neuroscience (ASPN) Evidence-Based ClinicalGuideline of Interventional Treatments for Low Back Pain. J Pain Res. 2022; 15: 3729-3832.
  48. Schoell K, Buser Z, Jakoi A, et al. Postoperative complications in patients undergoing minimally invasive sacroiliac fusion. Spine J. Nov 2016; 16(11):1324-1332.
  49. Smith AG, Capobianco R, Cher D et al. Open versus minimally invasive sacroiliac joint fusion: a multi-center comparison of perioperative measures and clinical outcomes. Ann Surg Innov Res. Oct 30 2013; 7(1):14.
  50. Spain K, Holt T. Surgical revision after sacroiliac joint fixation or fusion. Int J Spine Surg. Apr 2017; 11:5.
  51. Spiker WR, Lawrence BD, Raich AL et al. Surgical versus injection treatment for injection-confirmed chronic sacroiliac joint pain. Evid Based Spine Care J 2012; 3(4):41-53.
  52. Sturesson B, Kools D, Pflugmacher R, et al. Six-month outcomes from a randomized controlled trial of minimally invasive SI joint fusion with triangular titanium implants vs conservative management. Eur Spine J. Mar 2017; 26(3):708-719.
  53. Tran ZV, Ivashchenko A, Brooks L. Sacroiliac Joint Fusion Methodology - Minimally Invasive Compared to Screw-Type Surgeries: A Systematic Review and Meta-Analysis. Pain Physician, Jan 2019; 22(1): 29-40.
  54. Vanaclocha V, Herrera JM, Saiz-Sapena N, et al. Minimally invasive sacroiliac joint fusion, radiofrequency denervation, and conservative management for sacroiliac joint pain: 6-year comparative case series. Neurosurgery. Jan 01 2018; 82(1): 48-55.
  55. Whang P, Cher D, Polly D, et al. Randomized Controlled Trial of Minimally Invasive Sacroiliac Joint Fusion Using Triangular Titanium Implants vs. Non-Surgical Management for Sacroiliac Joint Dysfunction: 12 month Outcomes. Neurosurgery 2015.
  56. Whang P, Cher D, Polly D, et al. Sacroiliac Joint Fusion Using Triangular Titanium Implants vs. Non-Surgical Management: Six-Month Outcomes from a Prospective Randomized Controlled Trial. Int J Spine Surg. 2015; 9:6.
  57. Whang PG, Darr E, Meyer SC, et al. Long-Term Prospective Clinical And Radiographic Outcomes After Minimally Invasive Lateral Transiliac Sacroiliac Joint Fusion Using Triangular Titanium Implants. Med Devices (Auckl). 2019; 12: 411-422.

POLICY HISTORY:

Medical Policy Panel February 2014

Medical Policy Group, February 2014

Medical Policy Administration Committee, February 2014

Available for comment March 7 through April 20, 2014

Medical Policy Group, June 2014 (4): Added more References

Medical Policy Panel, May 2014

Medical Policy Group, September 2014 (3):  2014 Updates to Key Points, Key Words, Governing Bodies & References; no change in policy statement

Medical Policy Group, November 2014: 2015 Annual Coding Update – verbiage change to code 27280 to add ‘open’ and ‘including instrumentation when performed’. Also added code 27279 to current coding and created Previous Coding section to include deleted code 0334T.

Medical Policy Panel, May 2015

Medical Policy Group, September 2015 (2): 2015 Updates to Key Points and References; no change to policy statement.

Medical Policy Panel, November 2015

Medical Policy Group, November 2015 (2): 2015 Updates to Key Points and References; no change to policy statement.

Medical Policy Panel, October 2016

Medical Policy Group, October 2016 (7): 2016 Updates to Key Points and References; no change to policy statement.

Medical Policy Panel, December 2017

Medical Policy Group, January 2018 (7): 2018 Updates to Key Points, Key Words, Approved by Governing Bodies, and References; no change to policy statement.

Medical Policy Panel, November 2018

Medical Policy Group, January 2019 (7): Updated Policy Statement- coverage statement added for minimally invasive fusion/stabilization of the sacroiliac joint. Added Keywords: Si Bone, titanium triangular implant. Updated References. Removed Previous Coding section- 0334T was deleted effective 1/1/15. Available for comment February 1, 2019 through March 17, 2019.

Medical Policy Panel, November 2019

Medical Policy Group, December 2019 (7): Updates to Key Points and References; no change to policy statement.                                                                                                                                           

Medical Policy Panel, November 2020

Medical Policy Group, November 2020 (7): Updates to Key Points and References; no change to policy statement. Added Key Words: iFuse-3D, FIREBIRD, SIimpact.

Medical Policy Panel, November 2021

Medical Policy Group, November 2021 (7): Updates to Key Points, Approved by Governing Bodies, and References. Removed “not medically necessary” verbiage from Policy Statement. No change in intent.

Medical Policy Group, March 2022 (7): Updates to Description, Key Points, and References. No change in Policy Statement.

Medical Policy Panel, November 2022

Medical Policy Group, December 2022: Minor update to Key Points. Removed previous policy statement prior to March 2019. No change in Policy Statement. Keywords added: “Siros, Triton SI Joint Fixation System, Rialto, SacroFuse, SIJFuse, Catamaran, CornerLoc, PainTEQ, LinQ, SI Joint Stabilization NADIA, DIANA, PsiF, SIFix System, TransFasten Posterior Sacroiliac Fusion, dorsal sacroiliac fusion.” 2023 Annual Coding Update- Added CPT code 0775T to the Current coding section.

Medical Policy Group, May 2023: 2023 Quarterly Coding Update - Added CPT code 0809T to the Current coding section.

Medical Policy Panel, November 2023

Medical Policy Group, November 2023 (7): Updates to Description, Key Points and References. 2024 Coding Update- Added new codes 27278 to Current Coding. Codes 0775T and 0809T deleted and added to Previous Coding section.

This medical policy is not an authorization, certification, explanation of benefits, or a contract. Eligibility and benefits are determined on a case-by-case basis according to the terms of the member’s plan in effect as of the date services are rendered. All medical policies are based on (i) research of current medical literature and (ii) review of common medical practices in the treatment and diagnosis of disease as of the date hereof. Physicians and other providers are solely responsible for all aspects of medical care and treatment, including the type, quality, and levels of care and treatment.

This policy is intended to be used for adjudication of claims (including pre-admission certification, pre-determinations, and pre-procedure review) in Blue Cross and Blue Shield’s administration of plan contracts.

The plan does not approve or deny procedures, services, testing, or equipment for our members. Our decisions concern coverage only. The decision of whether or not to have a certain test, treatment or procedure is one made between the physician and his/her patient. The plan administers benefits based on the member’s contract and corporate medical policies. Physicians should always exercise their best medical judgment in providing the care they feel is most appropriate for their patients. Needed care should not be delayed or refused because of a coverage determination.

As a general rule, benefits are payable under health plans only in cases of medical necessity and only if services or supplies are not investigational, provided the customer group contracts have such coverage.

The following Association Technology Evaluation Criteria must be met for a service/supply to be considered for coverage:

  1. The technology must have final approval from the appropriate government regulatory bodies;
  2. The scientific evidence must permit conclusions concerning the effect of the technology on health outcomes;
  3. The technology must improve the net health outcome;
  4. The technology must be as beneficial as any established alternatives;
  5. The improvement must be attainable outside the investigational setting.

Medical Necessity means that health care services (e.g., procedures, treatments, supplies, devices, equipment, facilities or drugs) that a physician, exercising prudent clinical judgment, would provide to a patient for the purpose of preventing, evaluating, diagnosing or treating an illness, injury or disease or its symptoms, and that are:

  1. In accordance with generally accepted standards of medical practice; and
  2. Clinically appropriate in terms of type, frequency, extent, site and duration and considered effective for the patient’s illness, injury or disease; and
  3. Not primarily for the convenience of the patient, physician or other health care provider; and
  4. Not more costly than an alternative service or sequence of services at least as likely to produce equivalent therapeutic or diagnostic results as to the diagnosis or treatment of that patient’s illness, injury or disease.