High-speed exercise history and catastrophic racing fracture in thoroughbreds.
Abstract: To investigate the relation between several racing speed history characteristics and risk of fatal skeletal injury (FSI) in racing Thoroughbreds. Methods: 64 Thoroughbreds euthanatized during a 9-month period in 1991 at a California racemeet because of a catastrophic fracture incurred while racing (cases), identified retrospectively. For each race in which an FSI occurred, 1 control horse was randomly selected from the noncatastrophically injured participants. Methods: Racing and officially timed workout histories were obtained for each horse. Several history characteristics were calculated to summarize racing career patterns and high-speed exercise schedules prior to date of injury and included age at first race, proportion of career spent laid up, average duration of laid up periods, average lifetime racing frequency, time from last lay up to date of injury, and total and rate of distance accumulated 1 to 6 months prior to date of injury. History characteristics associated with FSI were screened by paired t-test and studied in detail, using conditional logistic regression. Results: High total and high average daily rates of exercise distance accumulation within a 2-month period were associated with higher risks for FSI during racing, yet career patterns, such as age at first race or total proportion of career spent laid up, were not found to be associated with risk for FSI. A horse that had accumulated a total of 35 furlongs of race and timed-work distance in 2 months, compared with a horse with 25 furlongs accumulated, had an estimated 3.9-fold increase in risk for racing-related FSI (95% confidence interval = 2.1, 7.1). A horse that had accumulated race and timed-work furlongs at an average rate of 0.6 furlong/d within a 2-month period, compared with a horse with an average of 0.5 furlong/d, had an estimated 1.8-fold increase in risk for racing-related FSI (95% confidence interval = 1.4, 2.6). Conclusions: Thoroughbred racehorses that either accumulate large total high-speed distances or rapidly accumulate high-speed distances within a 2-month period may be at increased risk for FSI during racing.
Publication Date: 1996-11-01 PubMed ID: 8915427
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The research investigates the relationship between a racing horse’s speed history and the risk of suffering fatal skeletal injuries during a race. The researchers find that Thoroughbreds that accumulate large or rapid high-speed distances within two months are at a higher risk for such injuries.
Methodology
- The study took place over a nine-month period in 1991 and focused on 64 Thoroughbreds which had to be euthanized due to catastrophic fractures they suffered while racing.
- For each incident, a control horse was randomly selected from the participants who were not catastrophically injured in the race.
- Data from each horse’s racing and timed workout history was gathered. Characteristics such as the age of the horse at their first race, the proportion of their career spent not racing (laid up), average duration of laid up periods, lifetime racing frequency, time from the last laid up period to date of injury and total distance accumulated in the 1 to 6 months prior to injury were calculated and analyzed.
Results
- High total and average daily rates of exercise distance accumulation within a two-month period were associated with higher risks for fatal skeletal injuries during racing.
- The study did not find associations between career patterns such as age at first race or total proportion of career spent laid up, and the risk for fatal skeletal injuries.
- A horse that had accumulated a total of 35 furlongs of race and timed-work distance in two months had an estimated 3.9-fold increase in risk for fatal racing-related injuries, compared to a horse with 25 furlongs accumulated.
- Horses which had accumulated race and timed-work furlongs at an average rate of 0.6 furlong per day within a two-month period had an estimated 1.8-fold increase in risk for racing-related fatal injury compared to those with an average of 0.5 furlong per day.
Conclusions
- Thoroughbred racehorses that either accumulate large total high-speed distances or rapidly accumulate high-speed distances within a two-month period are at an increased risk for fatal skeletal injuries during racing.
Cite This Article
APA
Estberg L, Stover SM, Gardner IA, Drake CM, Johnson B, Ardans A.
(1996).
High-speed exercise history and catastrophic racing fracture in thoroughbreds.
Am J Vet Res, 57(11), 1549-1555.
Publication
Researcher Affiliations
- Department of Medicine, School of Veterinary Medicine, University of California, Davis 95616, USA.
MeSH Terms
- Animals
- California
- Fractures, Bone / veterinary
- Horses / injuries
- Physical Conditioning, Animal / adverse effects
- Risk Factors
- Sports
Citations
This article has been cited 12 times.- Morrice-West AV, Hitchens PL, Walmsley EA, Tasker K, Lim SL, Smith AD, Whitton RC. Relationship between Thoroughbred workloads in racing and the fatigue life of equine subchondral bone.. Sci Rep 2022 Jul 7;12(1):11528.
- Morrice-West AV, Hitchens PL, Walmsley EA, Wong ASM, Whitton RC. Association of Thoroughbred Racehorse Workloads and Rest Practices with Trainer Success.. Animals (Basel) 2021 Nov 1;11(11).
- Crawford KL, Finnane A, Greer RM, Barnes TS, Phillips CJC, Woldeyohannes SM, Bishop EL, Perkins NR, Ahern BJ. Survival Analysis of Training Methodologies and Other Risk Factors for Musculoskeletal Injury in 2-Year-Old Thoroughbred Racehorses in Queensland, Australia.. Front Vet Sci 2021;8:698298.
- Samol MA, Uzal FA, Blanchard PC, Arthur RM, Stover SM. Sudden death caused by spinal cord injury associated with vertebral fractures and fetlock failure in a Thoroughbred racehorse.. J Vet Diagn Invest 2021 Jul;33(4):788-791.
- Crawford KL, Finnane A, Greer RM, Phillips CJC, Bishop EL, Woldeyohannes SM, Perkins NR, Ahern BJ. A Prospective Study of Training Methods for Two-Year-Old Thoroughbred Racehorses in Queensland, Australia, and Analysis of the Differences in Training Methods between Trainers of Varying Stable Sizes.. Animals (Basel) 2021 Mar 25;11(4).
- Crawford KL, Finnane A, Phillips CJC, Greer RM, Woldeyohannes SM, Perkins NR, Kidd LJ, Ahern BJ. The Risk Factors for Musculoskeletal Injuries in Thoroughbred Racehorses in Queensland, Australia: How These Vary for Two-Year-Old and Older Horses and with Type of Injury.. Animals (Basel) 2021 Jan 21;11(2).
- Crawford KL, Ahern BJ, Perkins NR, Phillips CJC, Finnane A. The Effect of Combined Training and Racing High-Speed Exercise History on Musculoskeletal Injuries in Thoroughbred Racehorses: A Systematic Review and Meta-Analysis of the Current Literature.. Animals (Basel) 2020 Nov 11;10(11).
- Núñez-Toldrà R, Vasquez-Sancho F, Barroca N, Catalan G. Investigation of The Cellular Response to Bone Fractures: Evidence for Flexoelectricity.. Sci Rep 2020 Jan 14;10(1):254.
- Hitchens PL, Hill AE, Stover SM. Relationship Between Historical Lameness, Medication Usage, Surgery, and Exercise With Catastrophic Musculoskeletal Injury in Racehorses.. Front Vet Sci 2018;5:217.
- Maeda Y, Hanada M, Oikawa MA. Epidemiology of racing injuries in Thoroughbred racehorses with special reference to bone fractures: Japanese experience from the 1980s to 2000s.. J Equine Sci 2016;27(3):81-97.
- Shu Y, Baumann MJ, Case ED, Irwin RK, Meyer SE, Pearson CS, McCabe LR. Surface microcracks signal osteoblasts to regulate alignment and bone formation.. Mater Sci Eng C Mater Biol Appl 2014 Nov;44:191-200.
- Inoue Y, Matsui A, Asai Y, Aoki F, Yoshimoto K, Matsui T, Yano H. Response of biochemical markers of bone metabolism to exercise intensity in thoroughbred horses.. J Equine Sci 2008;19(4):83-9.
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