Studies assessing concurrent speed, cardiovascular physiology and biomechanical parameters in racehorses during training have been rarely reported, mostly due to a lack of available comprehensive technology. Here, using a validated device (the ‘Equimetre’™) that records all parameters simultaneously, we report the effect of increased training speed and thus intensity, from slow canter to hard gallop, on racehorse heart rate, heart rate recovery and on biomechanical parameters, such as stride length and frequency. We also demonstrate the effects of varying track surface, horse age and sex. Cohorts comprised a total of 509 Thoroughbred racehorses in-training in either Australia or France, completing a total of 1,124 and 6,016 training sessions, respectively. Horses varied by age (2-9 years old) and sex (including geldings) and were trained by either a single trainer (Australia) or two trainers (France); both using multiple training centres that varied by track surface (sand, turf or fibre). Data were analysed using Analysis of Variation (ANOVA) or linear mixed-effect models as appropriate. Racehorses increased speed predominantly by an increment in stride length, then frequency, both of which varied according to track surface (shorter stride on sand; P<0.001). Cardiovascular parameters (peak, and recovery of, heart rate) increased with training intensity, but not linearly (P trend<0.001). Older horses recorded lower heart rate at 15 mins after training (P=0.002), often due to lower achieved peak heart rate at most training intensities (P<0.001 for the cohort in Australia). In conclusion, this immersive field study demonstrates the value of technology for recording physiological and biomechanical parameters of racehorses-in-training. The data could inform trainers, jockeys and owners on aspects of individual racehorse health, welfare and suitability for certain races.
Purchase
Buy instant access (PDF download and unlimited online access):
Institutional Login
Log in with Open Athens, Shibboleth, or your institutional credentials
Personal login
Log in with your brill.com account
Ainsworth, D., Smith, C., Eicker, S., Ducharme, N., Henderson, K., Snedden, K. and Dempsey, J., 1997. Pulmonary-locomotory interactions in exercising dogs and horses. Respiration Physiology 110: 287-294.
'Pulmonary-locomotory interactions in exercising dogs and horses ' () 110 Respiration Physiology : 287 -294.
Allen, K., Young, L. and Franklin, S., 2016a. Evaluation of heart rate and rhythm during exercise. Equine Veterinary Education 28: 99-112. Allen, K.J., Van Erck-Westergren, E. and Franklin, S.H., 2016b. Exercise testing in the equine athlete. Equine Veterinary Education 28: 89-98. https://doi.org/10.1111/eve.12410
Barrey, E., Auvinet, B. and Couroucé, A., 1995. Gait evaluation of race trotters using an accelerometric device. Equine Veterinary Journal 27: 156-160. https://doi.org/10.1111/j.2042-3306.1995.tb04910.x
Barrey, E., Evans, S., Evans, D., Curtis, R., Quinton, R. and Rose, R., 2001. Locomotion evaluation for racing in Thoroughbreds. Equine Veterinary Journal 33: 99-103.
'Locomotion evaluation for racing in Thoroughbreds ' () 33 Equine Veterinary Journal : 99 -103.
Betros, C., McKeever, K., Kearns, C. and Malinowski, K., 2002. Effects of ageing and training on maximal heart rate and VO2max. Equine Veterinary Journal 34: 100-105.
'Effects of ageing and training on maximal heart rate and VO2max ' () 34 Equine Veterinary Journal : 100 -105.
Bitschnau, C., Wiestner, T., Trachsel, D., Auer, J. and Weishaupt, M., 2010. Performance parameters and post exercise heart rate recovery in Warmblood sports horses of different performance levels. Equine Veterinary Journal 42: 17-22.
'Performance parameters and post exercise heart rate recovery in Warmblood sports horses of different performance levels ' () 42 Equine Veterinary Journal : 17 -22.
Burn, J.F. and Usmar, S.J., 2005. Hoof landing velocity is related to track surface properties in trotting horses. Equine and Comparative Exercise Physiology 2: 37-41.
'Hoof landing velocity is related to track surface properties in trotting horses ' () 2 Equine and Comparative Exercise Physiology : 37 -41.
Byström, A., Stalfelt, A., Egenvall, A., Von Peinen, K., Morgan, K. and Roepstorff, L., 2010. Influence of girth strap placement and panel flocking material on the saddle pressure pattern during riding of horses. Equine Veterinary Journal 42: 502-509.
'Influence of girth strap placement and panel flocking material on the saddle pressure pattern during riding of horses ' () 42 Equine Veterinary Journal : 502 -509.
Couroucé, A., Chrétien, M. and Valette, J., 2002. Physiological variables measured under field conditions according to age and state of training in French Trotters. Equine Veterinary Journal 34: 91-97.
'Physiological variables measured under field conditions according to age and state of training in French Trotters ' () 34 Equine Veterinary Journal : 91 -97.
Crevier-Denoix, N., Robin, D., Pourcelot, P., Falala, S., Holden, L., Estoup, P., Desquilbet, L., Denoix, J.-M. and Chateau, H., 2010. Ground reaction force and kinematic analysis of limb loading on two different beach sand tracks in harness trotters. Equine Veterinary Journal 42: 544-551.
'Ground reaction force and kinematic analysis of limb loading on two different beach sand tracks in harness trotters ' () 42 Equine Veterinary Journal : 544 -551.
Ely, E.R., Price, J.S., Smith, R.K., Wood, J.L. and Verheyen, K.L., 2010. The effect of exercise regimens on racing performance in National Hunt racehorses. Equine Veterinary Journal 42: 624-629. https://doi.org/10.1111/j.2042-3306.2010.00257.x
Evans, D., 2007. Physiology of equine performance and associated tests of function. Equine Veterinary Journal 39: 373-383.
'Physiology of equine performance and associated tests of function ' () 39 Equine Veterinary Journal : 373 -383.
Firth, E. and Rogers, C., 2005. Musculoskeletal responses of 2-year-old Thoroughbred horses to early training. Conclusions. New Zealand Veterinary Journal 53: 377-383.
'Musculoskeletal responses of 2-year-old Thoroughbred horses to early training ' () 53 New Zealand Veterinary Journal : 377 -383.
Fraipont, A., Van Erck, E., Ramery, E., Fortier, G., Lekeux, P. and Art, T., 2012. Assessing fitness in endurance horses. Canadian Veterinary Journal 53: 311.
'Assessing fitness in endurance horses ' () 53 Canadian Veterinary Journal : 311.
Hargreaves, B.J., Kronfeld, D. and Naylor, J., 1999. Ambient temperature and relative humidity influenced packed cell volume, total plasma protein and other variables in horses during an incremental submaximal field exercise test. Equine Veterinary Journal 31: 314-318.
'Ambient temperature and relative humidity influenced packed cell volume, total plasma protein and other variables in horses during an incremental submaximal field exercise test ' () 31 Equine Veterinary Journal : 314 -318.
Hinchcliff, K., Lauderdale, M., Dutson, J., Geor, R., Lacombe, V. and Taylor, L., 2002. High intensity exercise conditioning increases accumulated oxygen deficit of horses. Equine Veterinary Journal 34: 9-16.
'High intensity exercise conditioning increases accumulated oxygen deficit of horses ' () 34 Equine Veterinary Journal : 9 -16.
Hinchcliff, K.W., Kaneps, A.J. and Geor, R.J., 2013. Equine sports medicine and surgery. Elsevier, New York, NY, USA.
'Equine sports medicine and surgery', ().
Hodgson, D., 2014. Training the Thoroughbred racehorse. In: Hodgson, D., McGowan, C. and McKeever, K. (eds.) The athletic horse. Elsevier, New York, NY, USA, pp. 302-304.
'Training the Thoroughbred racehorse ', () 302 -304.
Ille, N., Erber, R., Aurich, C. and Aurich, J., 2014. Comparison of heart rate and heart rate variability obtained by heart rate monitors and simultaneously recorded electrocardiogram signals in nonexercising horses. Journal of Veterinary Behavior 9: 341-346. https://doi.org/10.1016/j.jveb.2014.07.006
Jin, D., Adams, H., Cocco, A.M., Martin, W.G. and Palmer, S., 2020. Smartphones and wearable technology: benefits and concerns in cardiology. Medical Journal of Australia 212: 54-56.
'Smartphones and wearable technology: benefits and concerns in cardiology ' () 212 Medical Journal of Australia : 54 -56.
Kingston, J., Soppet, G., Rogers, C. and Firth, E., 2006. Use of a global positioning and heart rate monitoring system to assess training load in a group of Thoroughbred racehorses. Equine Veterinary Journal 38: 106-109.
'Use of a global positioning and heart rate monitoring system to assess training load in a group of Thoroughbred racehorses ' () 38 Equine Veterinary Journal : 106 -109.
Lightfoot, G., Jose-Cunilleras, E., Rogers, K., Newton, J. and Young, L., 2006. An echocardiographic and auscultation study of right heart responses to training in young national hunt Thoroughbred horses. Equine Veterinary Journal 38: 153-158.
'An echocardiographic and auscultation study of right heart responses to training in young national hunt Thoroughbred horses ' () 38 Equine Veterinary Journal : 153 -158.
MacKinnon, M., Bonder, D., Boston, R. and Ross, M., 2015. Analysis of stress fractures associated with lameness in Thoroughbred flat racehorses training on different track surfaces undergoing nuclear scintigraphic examination. Equine Veterinary Journal 47: 296-301.
'Analysis of stress fractures associated with lameness in Thoroughbred flat racehorses training on different track surfaces undergoing nuclear scintigraphic examination ' () 47 Equine Veterinary Journal : 296 -301.
Marlin, D., Scott, C., Schroter, R., Mills, P., Harris, R., Harris, P.A., Orme, C., Roberts, C., Marr, C.M. and Dyson, S.J., 1996. Physiological responses in nonheat acclimated horses performing treadmill exercise in cool (20 C/40% RH), hot dry (30 C/40% RH) and hot humid (30 C/80% RH) conditions. Equine Veterinary Journal 28: 70-84.
'Physiological responses in nonheat acclimated horses performing treadmill exercise in cool (20 C/40% RH), hot dry (30 C/40% RH) and hot humid (30 C/80% RH) conditions ' () 28 Equine Veterinary Journal : 70 -84.
Morrice-West, A., Hitchens, P., Walmsley, E., Stevenson, M. and Whitton, R., 2020. Training practices, speed and distances undertaken by Thoroughbred racehorses in Victoria, Australia. Equine Veterinary Journal 52: 273-280.
'Training practices, speed and distances undertaken by Thoroughbred racehorses in Victoria, Australia ' () 52 Equine Veterinary Journal : 273 -280.
Morrice-West, A.V., Hitchens, P.L., Walmsley, E.A. and Whitton, R.C., 2018. Track surfaces used for ridden workouts and alternatives to ridden exercise for Thoroughbred horses in race training. Animals 8: 221. https://doi.org/10.3390/ani8120221
Pagan, J., Mulvey, E., O’Neill, K., Ireland, N. and Davies, M., 2017. Intensity and distance of exercise during training in advanced three-day event horses and Thoroughbred racehorses assessed using KER ClockIt smartphone application. Journal of Equine Veterinary Science 100: 67-68.
'Intensity and distance of exercise during training in advanced three-day event horses and Thoroughbred racehorses assessed using KER ClockIt smartphone application ' () 100 Journal of Equine Veterinary Science : 67 -68.
Peterson, M., Sanderson, W., Kussainov, N., Hobbs, S.J., Miles, P., Scollay, M.C. and Clayton, H.M., 2021. Effects of racing surface and turn radius on fatal limb fractures in Thoroughbred racehorses. Sustainability 13: 539.
'Effects of racing surface and turn radius on fatal limb fractures in Thoroughbred racehorses ' () 13 Sustainability : 539.
Poole, D.C. and Erickson, H.H., 2014. Heart and vessels: function during exercise and training adaptations. In: Hinchcliff, K.W., Kaneps, A.J. and Geor, R.J. (eds.) Equine sports medicine and surgery. Elsevier, New York, NY, USA, pp. 667-694. https://doi.org/10.1016/b978-0-7020-4771-8.00031-4
Seiler, S., 2010. What is best practice for training intensity and duration distribution in endurance athletes? International Journal of Sports Physiology and Performance 5: 276-291.
'What is best practice for training intensity and duration distribution in endurance athletes? ' () 5 International Journal of Sports Physiology and Performance : 276 -291.
Setterbo, J.J., Garcia, T.C., Campbell, I.P., Reese, J.L., Morgan, J.M., Kim, S.Y., Hubbard, M. and Stover, S.M., 2009. Hoof accelerations and ground reaction forces of Thoroughbred racehorses measured on dirt, synthetic, and turf track surfaces. American Journal of Veterinary Research 70: 1220-1229.
'Hoof accelerations and ground reaction forces of Thoroughbred racehorses measured on dirt, synthetic, and turf track surfaces ' () 70 American Journal of Veterinary Research : 1220 -1229.
Symons, J., Garcia, T. and Stover, S.M., 2014. Distal hindlimb kinematics of galloping Thoroughbred racehorses on dirt and synthetic racetrack surfaces. Equine Veterinary Journal 46: 227-232.
'Distal hindlimb kinematics of galloping Thoroughbred racehorses on dirt and synthetic racetrack surfaces ' () 46 Equine Veterinary Journal : 227 -232.
Ter Woort, F., Dubois, G., Didier, M. and Van Erck-Westergren, E., 2021. Validation of an equine fitness tracker: heart rate and heart rate variability. Comparative Exercise Physiology 17: 189-198. https://doi.org/10.3920/cep200028
Verheyen, K., Newton, J., Price, J. and Wood, J., 2006a. A case-control study of factors associated with pelvic and tibial stress fractures in Thoroughbred racehorses in training in the UK. Preventive Veterinary Medicine 74: 21-35.
'A case-control study of factors associated with pelvic and tibial stress fractures in Thoroughbred racehorses in training in the UK ' () 74 Preventive Veterinary Medicine : 21 -35.
Verheyen, K., Price, J., Lanyon, L. and Wood, J., 2006b. Exercise distance and speed affect the risk of fracture in racehorses. Bone 39: 1322-1330.
'Exercise distance and speed affect the risk of fracture in racehorses ' () 39 Bone : 1322 -1330.
Williams, J., 2013. Performance analysis in equestrian sport. Comparative Exercise Physiology 9: 67-77. https://doi.org/10.3920/cep13003
Williams, J. and Fiander, A., 2014. The impact of full vs. half chukka playing strategies on recovery in low goal polo ponies. Comparative Exercise Physiology 10: 139-145.
'The impact of full vs. half chukka playing strategies on recovery in low goal polo ponies ' () 10 Comparative Exercise Physiology : 139 -145.
Williams, J., Kenworthy, K., Jones, T., Marlin, D. and Tabor, G., 2019. The role of heart rate monitoring to assess workload during maintenance interval training in National Hunt racehorses. Journal of Veterinary Behavior 30: 54-60.
'The role of heart rate monitoring to assess workload during maintenance interval training in National Hunt racehorses ' () 30 Journal of Veterinary Behavior : 54 -60.
| All Time | Past 365 days | Past 30 Days | |
|---|---|---|---|
| Abstract Views | 873 | 351 | 41 |
| Full Text Views | 86 | 39 | 3 |
| PDF Views & Downloads | 188 | 91 | 7 |
Studies assessing concurrent speed, cardiovascular physiology and biomechanical parameters in racehorses during training have been rarely reported, mostly due to a lack of available comprehensive technology. Here, using a validated device (the ‘Equimetre’™) that records all parameters simultaneously, we report the effect of increased training speed and thus intensity, from slow canter to hard gallop, on racehorse heart rate, heart rate recovery and on biomechanical parameters, such as stride length and frequency. We also demonstrate the effects of varying track surface, horse age and sex. Cohorts comprised a total of 509 Thoroughbred racehorses in-training in either Australia or France, completing a total of 1,124 and 6,016 training sessions, respectively. Horses varied by age (2-9 years old) and sex (including geldings) and were trained by either a single trainer (Australia) or two trainers (France); both using multiple training centres that varied by track surface (sand, turf or fibre). Data were analysed using Analysis of Variation (ANOVA) or linear mixed-effect models as appropriate. Racehorses increased speed predominantly by an increment in stride length, then frequency, both of which varied according to track surface (shorter stride on sand; P<0.001). Cardiovascular parameters (peak, and recovery of, heart rate) increased with training intensity, but not linearly (P trend<0.001). Older horses recorded lower heart rate at 15 mins after training (P=0.002), often due to lower achieved peak heart rate at most training intensities (P<0.001 for the cohort in Australia). In conclusion, this immersive field study demonstrates the value of technology for recording physiological and biomechanical parameters of racehorses-in-training. The data could inform trainers, jockeys and owners on aspects of individual racehorse health, welfare and suitability for certain races.
| All Time | Past 365 days | Past 30 Days | |
|---|---|---|---|
| Abstract Views | 873 | 351 | 41 |
| Full Text Views | 86 | 39 | 3 |
| PDF Views & Downloads | 188 | 91 | 7 |