Development and validation of a periarticular injection technique of the sacroiliac joint in horses.
Abstract: Sacroiliac joint osteoarthritis has been recognised as a significant cause of poor performance in competition and racehorses. Reliable diagnostic tools are currently lacking. The diagnosis has been based typically on exclusion of other possible causes of poor performance, back pain and hindlimb lameness. Objective: To develop a safe, reliable and minimally invasive periarticular or intra-articular injection technique of potential use for diagnosis and therapy of sacroiliac joint disease in horses. Methods: Twenty-six horses were used to develop and assess a medial approach to the sacroiliac joint with a 15 gauge, 25 cm long spinal needle. In Part I, the cadaveric study, the spinal needle was introduced cranial to the contralateral tuber sacrale and advanced along the medial aspect of the ipsilateral iliac wing until the dorsal surface of the sacrum was encountered. One ml methylene blue (MB) was injected in both sacroiliac joint regions of the sacropelvic specimens. The location of MB-stained tissues relative to the sacroiliac joints was recorded after dissection and disarticulation of the sacroiliac joint. In Part II, the in vivo study, 18 horses were used to validate the in vivo application of the sacroiliac joint injection technique. Horses were restrained in stocks and sedated in preparation for needle placement. One ml MB was injected bilaterally prior to euthanasia. Stained tissues were identified and recorded at necropsy. Successful joint injections were characterised as having MB located intra-articularly or < or = 2 cm periarticularly from the sacroiliac joint margin and localised to the middle or caudal third of the sacroiliac joint. Results: Intra-articular MB was not observed in any specimen. However, MB-stained tissue was identified periarticularly in all injection sites (n = 48). Based on the predetermined success criteria, 96% of the methylene blue depots were located at the middle or caudal third of the sacroiliac joint. Dye-stained tissue was located < or = 2 cm from the sacroiliac joint margins in 88% of the specimens. Median distance of the MB from the sacroiliac joint margins was 1.0 cm (range 0.2-3.8 cm). The overall success rate considering both location and distance of the MB-stained tissue relative to sacroiliac joint margins was 83% (40 of 48 joints). Conclusions: The injection technique provides a reliable, easy to perform and consistent access to the medial periarticular aspect of the sacroiliac joint. Conclusions: The described injection technique has the potential for both diagnostic and therapeutic applications in the medical management of equine sacroiliac joint disease. Further investigation is necessary to evaluate clinical efficacy and potential adverse effects.
Publication Date: 2004-05-28 PubMed ID: 15163039DOI: 10.2746/0425164044890599Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
- Validation Study
- Anatomy
- Back Pain
- Cadaver
- Clinical Study
- Diagnosis
- Diagnostic Technique
- Disease Diagnosis
- Disease Treatment
- Equine Diseases
- Equine Health
- Horses
- Intra-Articular Injection
- Joint Health
- Lameness
- Minimally Invasive Surgery
- Necropsy
- Osteoarthritis
- Performance Horses
- Veterinary Medicine
- Veterinary Procedure
- Veterinary Research
Summary
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This study focuses on the development and testing of a reliable, minimally invasive method to inject the sacroiliac joint area in horses, which could be used for diagnosing and treating sacroiliac joint disease.
Research Objective
The authors aimed to develop a safe, minimally invasive method to inject the sacroiliac joint in horses with the goal of improving the diagnosis and treatment of sacroiliac joint diseases. Sacroiliac joint osteoarthritis has been identified as a significant cause of poor performance in horses and, until now, a reliable diagnostic tool was lacking.
Methodology
- The research was conducted in two parts: a cadaveric study and an in vivo study.
- In the first part of the study, a long spinal needle was used to inject methylene blue (MB) into the sacroiliac joint area of 26 horse cadavers. The positioning of the MB-stained tissues was recorded after dissecting the joint.
- In the second part of the study, the same injection technique was applied to 18 live horses prior to euthanasia. The horses were restrained and sedated before the procedure. Stained tissues were identified and recorded during necropsy.
- Successful injections were defined as having the MB located intra-articularly or within 2 cm from the sacroiliac joint margin, hosted on the middle or caudal third of the sacroiliac joint.
Results
- MB staining was found in periarticular tissues of all injection sites. However, intra-articular MB was not observed in any specimen.
- Based on the predetermined success criteria, 96% of the injections resulted in MB being found in the middle or caudal third of the sacroiliac joint, while 88% of the injections were within 2 cm from the sacroiliac joint margins. The median distance of the MB from the joint margins was 1.0 cm.
- Taking both the location and distance of the MB-stained tissue into consideration, the overall success rate of the injections was 83%.
Conclusion
In conclusion, the authors suggest that the injection technique could be a reliable and easily performable method to access, diagnose, and treat equine sacroiliac joint diseases. However, more research is needed to evaluate the clinical efficacy and potential side effects of this technique.
Cite This Article
APA
Engeli E, Haussler KK, Erb HN.
(2004).
Development and validation of a periarticular injection technique of the sacroiliac joint in horses.
Equine Vet J, 36(4), 324-330.
https://doi.org/10.2746/0425164044890599 Publication
Researcher Affiliations
- Department of Clinical Sciences, College of Veterinary Medicine, Cornell University, Ithaca, New York 14853, USA.
MeSH Terms
- Animals
- Female
- Horse Diseases / diagnosis
- Horse Diseases / therapy
- Horses / anatomy & histology
- Injections, Intra-Articular / adverse effects
- Injections, Intra-Articular / methods
- Injections, Intra-Articular / veterinary
- Lameness, Animal / diagnosis
- Lameness, Animal / therapy
- Low Back Pain / diagnosis
- Low Back Pain / therapy
- Low Back Pain / veterinary
- Male
- Osteoarthritis / diagnosis
- Osteoarthritis / therapy
- Osteoarthritis / veterinary
- Sacrococcygeal Region
- Sacroiliac Joint / anatomy & histology
- Sacroiliac Joint / pathology
- Safety
- Treatment Outcome
Citations
This article has been cited 3 times.- Wise R, Jones J, Werre S, Aguirre M. The prevalence of sacroiliac joint CT and MRI findings is high in large breed dogs.. Vet Radiol Ultrasound 2022 Nov;63(6):739-748.
- Offord SCJ, Read RM, Pudney CJ, Bathe AP. Complications following equine sacroiliac region analgesia are uncommon: A study in 118 horses.. PLoS One 2021;16(3):e0247781.
- Mao G, Aldahak N, Kusyk D, Yeager M, Cook D, Cameron J, Cheng B, Oh M. A consideration for the utility of the post-operative Oswestry Disability Index for measuring outcomes after sacroiliac joint fusion.. Orthop Rev (Pavia) 2018 Jun 14;10(2):7549.
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