Sacroiliac Joint Diagnostic Block and Radiofrequency Ablation Techniques

Background and objectivesAcromial branches of the lateral pectoral and suprascapular nerves have been proposed as targets for diagnostic block and radiofrequency ablation to treat superior shoulder pain; however, the nerve capture rates of these procedures have not been investigated. The objectives of this study were to use dissection and 3D modeling technology to determine the course of these acromial branches, relative to anatomical landmarks, and to evaluate nerve capture rates using ultrasound-guided dye injection and lesion simulation.MethodsUltrasound-guided dye injections, targeting the superior surface of coracoid process and floor of supraspinous fossa, were performed (n=5). Furthermore, needles targeting the superior and posterior surfaces of the coracoid process were placed under ultrasound guidance to simulate needle electrode position (n=5). Specimens were dissected, digitized, and modeled to determine capture rates of acromial branches of lateral pectoral and suprascapular nerves.ResultsThe course of acromial branches of lateral pectoral and suprascapular nerves were documented. Dye spread capture rates: acromial branches of lateral pectoral and suprascapular nerves were captured in all specimens. Lesion simulation capture rates: (1) when targeting superior surface of coracoid process, the entire acromial branch of lateral pectoral nerve was captured in all specimens and (2) when targeting posterior surface of coracoid process, the acromioclavicular and bursal branches of acromial branch of suprascapular nerve were captured in all specimens; coracoclavicular branch was captured in 3/5 specimens.ConclusionsThis study supports the anatomical feasibility of ultrasound-guided targeting of the acromial branches of lateral pectoral and suprascapular nerves. Further clinical investigation is required.

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The Anatomy of the Lateral Branches of the Sacral Dorsal Rami: Implications for Radiofrequency Ablation

January 2018 - Pain Physician ◽

10.36076/ppj.2014/17/459 ◽

2014 ◽

Vol 5;17 (5;9) ◽

pp. 459-464

Author(s):

Joseph Fortin

Keyword(s):

Low Back Pain ◽

Back Pain ◽

Radiofrequency Ablation ◽

Sacroiliac Joint ◽

Low Back ◽

Sacral Foramina ◽

Dorsal Rami ◽

Lateral Branches ◽

The Right ◽

Segmental Innervation

Background: The sacroiliac joint (SIJ) is a major source of pain in patients with chronic low back pain. Radiofrequency ablation (RFA) of the lateral branches of the dorsal sacral rami that supply the joint is a treatment option gaining considerable attention. However, the position of the lateral branches (commonly targeted with RFA) is variable and the segmental innervation to the SIJ is not well understood. Objectives: Our objective was to clarify the lateral branches’ innervation of the SIJ and their specific locations in relation to the dorsal sacral foramina, which are the standard RFA landmark. Methods: Dissections and photography of the L5 to S4 sacral dorsal rami were performed on 12 hemipelves from 9 donated cadaveric specimens. Results: There was a broad range of exit points from the dorsal sacral foramina: ranging from 12:00 – 6:00 position on the right side and 6:00 – 12:00 on the left positions. Nine of 12 of the hemipelves showed anastomosing branches from L5 dorsal rami to the S1 lateral plexus. Limitations: The limitations of this study include the use of a posterior approach to the pelvic dissection only, thus discounting any possible nerve contribution to the anterior aspect of the SIJ, as well as the possible destruction of some L5 or sacral dorsal rami branches with the removal of the ligaments and muscles of the low back. Conclusion: Widespread variability of lateral branch exit points from the dorsal sacral foramen and possible contributions from L5 dorsal rami and superior gluteal nerve were disclosed by the current study. Hence, SIJ RFA treatment approaches need to incorporate techniques which address the diverse SIJ innervation. Key words: Sacroiliac joint pain, radiofrequency ablation, dorsal sacral rami, low back pain

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Lateral sacral plexus radiofrequency ablation with multilesion probe in patients with refracter sacroiliac joint pain

Sinir Sistemi Cerrahisi Dergisi ◽

10.5222/sscd.2016.44154 ◽

2018 ◽

Author(s):

Abdurrahman Çetin ◽

Abdulkadir Yektaş

Keyword(s):

Radiofrequency Ablation ◽

Sacroiliac Joint ◽

Joint Pain ◽

Sacral Plexus ◽

Sacroiliac Joint Pain

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Preoperative considerations

10.1093/med/9780197607947.003.0018 ◽

2021 ◽

pp. 185-192

Author(s):

Kenneth Fiala ◽

Joshua Martens ◽

Alaa Abd-Elsayed

Keyword(s):

Radiofrequency Ablation ◽

Pain Management ◽

Sacroiliac Joint ◽

Joint Pain ◽

Surgical Approaches ◽

Risk Of Infection ◽

Fusion Surgery ◽

Steroid Injections ◽

Nonsurgical Management ◽

Sacroiliac Joint Fusion

Sacroiliac joint fusion surgery is an option for patients whose sacroiliac joint pain has been refractory to conservative pain management. A good candidate for fusion surgery is one who has completed all appropriate nonsurgical management efforts, including physical therapy, intraarticular sacroiliac steroid injections, oral analgesics, and radiofrequency ablation of sacral nerve roots, without experiencing any improvement in pain. This chapter covers candidate selection, the two main surgical approaches used for this fusion surgery (open and minimally invasive), anticoagulation guidelines, and the risk of infection and complications. Before surgery it is very important to make sure the patient understands the risks of the surgery as well as the potential for success.

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Lateral branch blocks

10.1093/med/9780197607947.003.0007 ◽

2021 ◽

pp. 75-82

Author(s):

Benjamin K. Homra ◽

Yashar Eshraghi ◽

Maged Guirguis

Keyword(s):

Radiofrequency Ablation ◽

Local Anesthetic ◽

Sacroiliac Joint ◽

Joint Pain ◽

Lateral Branch ◽

Ultrasound Technique ◽

Posterior Aspect ◽

Sacroiliac Joint Pain ◽

Lateral Branches

The posterior sacral network is a complex meshwork of lateral branches of the dorsal sacral rami that innervate the posterior aspect of the sacroiliac joint. Pain arising from this joint can be diagnostically targeted using either a fluoroscopic or ultrasound technique to determine if the patient would benefit from radiofrequency ablation of the lateral branches. Injecting local anesthetic near the dorsal foramina using these techniques will temporarily block the transmission of pain by the lateral branches from the sacroiliac joint. This chapter covers the anatomy of the posterior sacral network, discusses the details of the two techniques for lateral branch blocks and evidence for their utility, provides information about the risks and contraindications associated with the techniques, and concludes by discussing the implications of the procedure.

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Radiofrequency ablation of the sacroiliac joint

10.1093/med/9780197607947.003.0008 ◽

2021 ◽

pp. 83-92

Author(s):

Haider M. Ali ◽

Yashar Eshraghi ◽

Maged Guirguis

Keyword(s):

Radiofrequency Ablation ◽

Pain Management ◽

Pain Relief ◽

Sacroiliac Joint ◽

Joint Pain ◽

Positive Response ◽

Lateral Branch ◽

Tissue Destruction ◽

Sacroiliac Joint Pain ◽

Pain Syndromes

Radiofrequency ablation (RFA) is a revolutionary procedure in the practice of pain management that can be used in the treatment of sacroiliac joint pain syndromes. It is a technology that uses radiofrequency needle probes to create lesions by way of localized tissue destruction. It is indicated for patients with chronic sacroiliac joint pain who have had a positive response to a lateral branch block. This procedure typically provides at least 6 and up to 12 months of significant pain relief and can be repeated. Practitioners should be well versed in the different evolving methods for RFA as well as its evidence, relevant anatomy, the technology used in RFA, and the complications that may occur with this procedure and how to prevent them. This chapter explores these principles and presents the relevant findings from the literature for this innovative procedure for sacroiliac joint pain.

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