Ultrasound-guided periarticular injections of the sacroiliac region in horses: a cadaveric study.
Abstract: The traditional techniques for injection of the sacroiliac (SI) region are based on external landmarks. Because of the depth of the SI joint and pathological modifications, SI injections are sometimes challenging in horses. Objective: An ultrasound-guided techniques would allow placement of the needle without depending on external landmarks. Methods: Fourteen pelvic specimens were isolated from mature horses. A 20 cm bent spinal needle was positioned with ultrasonographic guidance under both iliac wings aiming for SI joints using 5 approaches: cranial, craniomedial, medial and 2 caudal approaches. The length of needle inserted was recorded and 2 ml of latex injected. The distance from latex to the closest sacral articular margin, the contact between latex and the SI interosseous ligament or the contact with the neurovascular structures emerging from the greater sciatic foramen were recorded at the time of dissection. Results: Latex was identified under the iliac wing in all injections but one. The distance from the latex to the closest sacral articular margin was significantly shorter (P = 0.02) for the 2 caudal approaches compared to the cranial, craniomedial and medial approaches. Contact between latex and the SI interosseous ligament was significantly more frequent (P = 0.01) with the cranial, craniomedial and medial approaches (38/73) compared to the caudal approaches (1/24). Contact between latex and the neurovascular structures was significantly less frequent (P = 0.005) for the cranial and craniomedial approaches (0/47) compared to the medial and caudal approaches (8/60). Four erratic injections were encountered. Conclusions: Ultrasonographic guidance allowed the needle to engage under the iliac wing without being dependent on external landmarks. The caudal approaches allowed deposition of liquid extremely close to the SI joint although retroperitoneal injections occurred. Conclusions: Each approach has advantages/drawbacks that could be favoured for selected purposes, but additional work is required to evaluate them on clinical cases.
Publication Date: 2007-12-20 PubMed ID: 18089470DOI: 10.2746/042516408X245252Google Scholar: Lookup
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- Journal Article
Summary
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The research studied the efficacy and accuracy of ultrasound-guided injections into the complex and deep sacroiliac (SI) joint in horses, comparing results between five different approach methods.
Methods
- The experiment involved fourteen mature horse pelvic specimens.
- A 20cm bent spinal needle was used for injections, guided by ultrasound imagery.
- Five distinct approaches were used for the injections: cranial, craniomedial, medial, and two different caudal methods.
- The depth of needle insertion was recorded, along with 2ml of latex injected to track needle placement.
- The distance from the latex (representing the injected substance) to the closest sacral articular margin, its contact with the SI interosseous ligament, and the contact with neurovascular structures were noted during dissection.
Results
- Latex was identified under the iliac wing in all but one injection, verifying the effective placement of injections.
- The two caudal approaches resulted in significantly shorter distances from the latex to the closest sacral articular margin, suggesting a more accurate placement for reaching the SI joint.
- The cranial, craniomedial, and medial approaches had significantly more contact with the SI interosseous ligament, indicating a different needle trajectory through the tissues.
- Cranial and craniomedial approaches had significantly less contact with the neurovascular structures, indicating a safer injection path with less risk of damaging these sensitive areas.
- Four injections were deemed erratic, not following expected patterns.
Conclusions
- The use of ultrasonographic guidance enabled successful needle placement under the iliac wing, eliminating reliance on external landmarks alone.
- The caudal approaches managed to deposit the latex very close to the SI joint; however, there were instances of retroperitoneal injections.
- The researchers concluded that while each approach has its own advantages and drawbacks, more research is needed to evaluate the methods in clinical cases.
Cite This Article
APA
Cousty M, Rossier Y, David F.
(2007).
Ultrasound-guided periarticular injections of the sacroiliac region in horses: a cadaveric study.
Equine Vet J, 40(2), 160-166.
https://doi.org/10.2746/042516408X245252 Publication
Researcher Affiliations
- Ecole Nationale Vétérinaire de Nantes, La Chantrerie, Nantes, France.
MeSH Terms
- Animals
- Cadaver
- Fascia / anatomy & histology
- Fascia / diagnostic imaging
- Horse Diseases / diagnosis
- Horses
- Injections, Intra-Articular / instrumentation
- Injections, Intra-Articular / methods
- Injections, Intra-Articular / veterinary
- Lameness, Animal / diagnosis
- Ligaments, Articular / anatomy & histology
- Ligaments, Articular / diagnostic imaging
- Sacrococcygeal Region / anatomy & histology
- Sacrococcygeal Region / diagnostic imaging
- Sacroiliac Joint / anatomy & histology
- Sacroiliac Joint / diagnostic imaging
- Safety
- Time Factors
- Treatment Outcome
- Ultrasonography / veterinary
Citations
This article has been cited 7 times.- Goh D, House A. Presumed septic sacroiliitis in a puppy with unilateral hind limb lameness and sciatic nerve neuropathy. Vet Med Sci 2021 Sep;7(5):1530-1535.
- 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.
- Riccio B, Fraschetto C, Villanueva J, Cantatore F, Bertuglia A. Two Multicenter Surveys on Equine Back-Pain 10 Years a Part. Front Vet Sci 2018;5:195.
- Tress D, Hennessy S, Merle R, Jensen KC, Lischer C, Ehrle A. Analysis of different techniques for injection of the interspinal space in horses. Equine Vet J 2026 Jan;58(1):256-267.
- Ogden NKE, Winderickx K, Stack JD. Computed tomography of the equine caudal spine and pelvis. Pathological findings in 56 clinical cases (2018-2023). Equine Vet J 2025 Sep;57(5):1279-1289.
- Hallowell KL, Dembek K, Horne CR, Knych HK, Messenger KM, Schnabel LV. Systemic absorption of triamcinolone acetonide is increased from intrasynovial versus extrasynovial sites and induces hyperglycemia, hyperinsulinemia, and suppression of the hypothalamic-pituitary-adrenal axis. Front Vet Sci 2024;11:1388470.
- Johnson JP, Vinardell T, David F. Ultrasound-guided injections of the equine head and neck: review and expert opinion. J Equine Sci 2021 Dec;32(4):103-115.
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