Ultrasonographic study on pastern soft tissue injuries in tent pegging horses

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Δημοσιευμένα: Jul 10, 2024
Ενημερώθηκε: 2024-07-10
Εκδόσεις:
2024-07-10 (2)
DOI: https://doi.org/10.12681/jhvms.34024
A Zohier
Postgraduate master’s student, Faculty of Veterinary Medicine, Cairo University
T Baraka
Department of Medicine and Infectious Diseases, Faculty of Veterinary Medicine, Cairo University
A Abdelgalil
Department of Surgery, Anesthesiology, and Radiology, Faculty of Veterinary Medicine, Cairo University, Giza, Egypt
A Aboelmaaty
Veterinary Research Institute, National Research Centre, Cairo, Egypt
SG Yehia
Department of Medicine and Infectious Diseases, Faculty of Veterinary Medicine, Cairo University
Περίληψη

Background: Pastern ultrasonography remains a useful and affordable choice, whether it is used in the field or when advanced imaging is not an option due to availability or cost considerations. Tent pegging is a high-speed sport practiced since the 4th century BC. There is a paucity of literature available about injuries associated with this type of sport. Aim of work: To study the incidence of soft tissue injuries at the pastern region in tent-pegging horses. Materials and methods: Ultrasonographic study was carried out on the palmar pastern region of 46 forelimbs (23 horses) to detect the different soft tissue injuries that occurred in association with this kind of sport. Results: Bilateral SDF chronic tendonitis was the highest percentage of the scanned affections, representing (52.2%). The most affected level in the SDFT was the right P1A (60.9%) and also showed a significant positive correlation with age. Conclusion: Long-term exposure to tent-pegging sports and poor rehabilitation programs lead to chronic tendonitis and adhesions, which subsequently lead to poor performance.

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Αναφορές
Acutt E.V., Contino E.K., Frisbie D.D. & Barrett M.F. (2022). Deep digital flexor tendon lesions in the pastern are associated with the presence of distal tendinopathy. Equine Veterinary Journal, 54, 502-512.
Alzola R., Easter C., Riggs C., Gardner D. & Freeman S. (2018). Ultrasonographic‐based predictive factors influencing successful return to
racing after superficial digital flexor tendon injuries in flat racehorses:
A retrospective cohort study in 469 Thoroughbred racehorses in Hong
Kong. Equine veterinary journal, 50, 602-608.
Baxter G.M. (2011). Chapter 4 : Imaging. In: Manual of Equine Lameness. First Edition ed.: John Wiley & Sons.
Baxter G.M. & Stashak T.S. (2020). Examination for Lameness: History,
Visual Exam, and Conformation. In: Adams and Stashak’s lameness
in horses. 7th edition ed.
Birch H.L., Bailey J., Bailey A. & Goodship A. (1999). Age‐related
changes to the molecular and cellular components of equine flexor
tendons. Equine veterinary journal, 31, 391-396.
Carstens A. & Smith R.K. (2014). Ultrasonography of the foot and pastern. In: Atlas of Equine Ultrasonography. First Edition ed.: John Wiley & Sons, Ltd.
Coudry V. & Denoix J.M. (2013). Ultrasonographic examination of the
palmar aspect of the pastern of the horse: Digital flexor tendons and
digital sheath. Equine Veterinary Education, 25, 196-203.
Daniel A., Leise B., Selberg K. & Barrett M. (2019). Enhanced ultrasonographic imaging of the equine distal limb using saline injection of the
digital flexor tendon sheath: a cadaver study. The Veterinary Journal,
, 26-31.
Dyson S.J. & Denoix J.-M. (1995). Tendon, tendon sheath, and ligament
injuries in the pastern. Veterinary Clinics of North America: Equine
Practice, 11, 217-233.
El-Bably S. & Abdelgalil A. (2018). Ultrasonographic anatomy of the
equine carpal region (Equus caballus). International Journal of Veterinary Science, 7, 44-49.
Ely E., Verheyen K. & Wood J. (2004). Fractures and tendon injuries in
National Hunt horses in training in the UK: a pilot study. Equine veterinary journal, 36, 365-367.
Hawkins A., O’Leary L., Bolt D., Fiske‐Jackson A., Berner D. & Smith
R. (2022). Retrospective analysis of oblique and straight distal sesamoidean ligament desmitis in 52 horses. Equine Veterinary Journal,
, 312-322.
McIlwraith C. (1992). Tearing of the medial palmar intercarpal ligament
in the equine midcarpal joint. Equine Veterinary Journal, 24, 367-371.
Minshall G. & Wright I. (2006). Arthroscopic diagnosis and treatment of
intra‐articular insertional injuries of the suspensory ligament branches in 18 horses. Equine veterinary journal, 38, 10-14.
Patterson‐Kane J., Firth E., Goodship A. & Parry D. (1997). Age‐related
differences in collagen crimp patterns in the superficial digital flexor
tendon core region of untrained horses. Australian Veterinary Journal,
, 39-44.
Perkins N., Reid S. & Morris R. (2005). Risk factors for injury to the superficial digital flexor tendon and suspensory apparatus in Thoroughbred racehorses in New Zealand. New Zealand veterinary journal, 53,
-192.
Puckey M.D. (2015). The History of Tentpegging in Great Britain [Online]. British Tentpegging Association Available: https://www.britishtentpegging.co.uk/history-of-tentpegging [Accessed].
Ramzan P.H. & Palmer L. (2011). Musculoskeletal injuries in Thoroughbred racehorses: a study of three large training yards in Newmarket,
UK (2005-2007). The Veterinary Journal, 187, 325-329.
Sampson S.N., Schneider R.K., Tucker R.L., Gavin P.R., Zubrod C.J. &
Ho C.P. (2007). Magnetic resonance imaging features of oblique and
straight distal sesamoidean desmitis in 27 horses. Veterinary Radiology & Ultrasound, 48, 303-311.
Thorpe C.T., Clegg P. & Birch H. (2010a). A review of tendon injury: why
is the equine superficial digital flexor tendon most at risk? Equine
veterinary journal, 42, 174-180.
Thorpe C.T., Streeter I., Pinchbeck G.L., Goodship A.E., Clegg P.D. &
Birch H.L. (2010b). Aspartic acid racemization and collagen degradation markers reveal an accumulation of damage in tendon collagen
that is enhanced with aging. Journal of Biological Chemistry, 285,
-15681.
Thorpe C.T., Udeze C.P., Birch H.L., Clegg P.D. & Screen H.R. (2013).
Capacity for sliding between tendon fascicles decreases with ageing
in injury prone equine tendons: a possible mechanism for age-related
tendinopathy. Eur Cell Mater, 25.
Whitcomb M.B. Ultrasonographic appearance and distribution of deep
digital flexor injuries in the pastern region. Proc. Am. Ass. equine
Practnrs, 2008. 452-454.
Wright I. & McMahon P. (1999). Tenosynovitis associated with longitudinal tears of the digital flexor tendons in horses: a report of 20 cases.
Equine veterinary journal, 31, 12-18.
Wright I.M. (1995). Ligaments associated with joints. Veterinary Clinics
of North America: Equine Practice, 11, 249-291.
Yassin A.M., AbuBakr H.O., Abdelgalil A.I., Khattab M.S., El-Behairy
A.M. & Gouda E.M. (2020). COL2A1 and caspase-3 as promising
biomarkers for osteoarthritis prognosis in an Equus asinus model.