APMB | Medical and Biological Sciences

In recent years, many trainers have considered the exercise in water as a tool to be incorporated into training programs for sport horses. Additionally, exercise in water could be used for rehabilitation of musculoskeletal and neurological injuries. This use derives from the application of the physical properties of the water, such as viscosity (greater muscular work compared to terrestrial locomotion), buoyancy (reduced load on the axial skeleton) and hydrostatic pressure (circumferential compression that reduces edema and inflammation). There are several devices for water exercise, such as swimming pools (full flotation), water treadmill WT (semi-flotation) and aquatic walkers. The cardiovascular, metabolic, muscular and locomotor responses differ significantly during exercise in a swimming pool compared to a WT. Exercise on a WT is of submaximal intensity, as shown by the response of heart rate and lactate concentration. Cardiovascular and metabolic response to a terrestrial treadmill exercise tests does not change after a training program on a WT. Fiber muscle composition of the gluteus medius muscle does not appear to be affected by WT training. However, our research team has found that there are significant increases in total power and its distribution in the three body axes (dorsoventral, longitudinal, mediolateral), which could have a significant impact on dressage, jumping and three-day-event horses. Further, exercise on a WT might promote a normal locomotor pattern after an injury, increasing the range of movement, enhancing proprioception, and reducing inflammation, with a lower limb load. Its use can be recommended for chronic tendinitis and desmitis and particularly for chronic osteoarthritis.

1. Steel, C.M., Bond, B.M., Morrice-West, A.V. (2019). Survey of trainers on the use of swimming exercise for Standardbred racehorses in Australia. Aust. Vet. J. 97(3):61-67.

2. King, M.R., Haussler, K.K., Kawcak, C.E., McIlwraigh, C.W., Reiser II R.F. (2013). Effect of underwater treadmill exercise on postural sway in horses with experimentally induced carpal joint osteoarthritis. Am. J. Vet. Res. 74, 971-982.

3. King, M.R., Haussler, K.K., Kawcak, C.E., McIlwraith, C.W., Reiser, R.F. 2nd, Frisbie, D.D., Werpy, N.M. (2017). Biomechanical and histologic evaluation of the effects of underwater treadmill exercise on horses with experimentally induced osteoarthritis in the middle carpal joint. Am. J. Vet. Res. 78:558-569.

4. Wilson, J.M., McKenzie, E., Duesterdieck-Zellmer, K. (2018). International survey regarding the use of rehabilitation modalities in horses. Front. Vet. Sci. Jun11;5:120. doi:10.3389/fvets.2018.00120.

5. Muñoz, A., Saitua, A., Becero M., Riber, C., Satué, K., Sánchez de Medina, A., Argüelles, D., Castejón-Riber, C. (2019). The use of the water treadmill for the rehabilitation of the musculoskeletal injuries in the sport horse?. J. Vet. Res. 63(3), 439-445.

6. Bonelli, F., Sgorbini, M., Meucci, V., Sighieri, C., Baragli, P. (2017). How swimming affects plasma insulin and glucose concentration in Thoroughbreds: a pilot study. Vet. J. 226:1-3.

7. King, M.R. (2016). Principles and application of hydrotherapy for equine athletes. Vet. Clin. North Am.: Equine Pract. 32, 115-126.

8. Hobo, S., Yoshida, K., Yoshihara, T. (1998). Characteristics of respiratory function during swimming exercise in thoroughbreds. J. Vet. Med. Sci. 60, 687-689.

9. Nankervis K.J., Launder E.J., Murray R.C. (2017). The use of treadmills within the rehabilitation of horses. J. Equine Vet. Sci. 53, 108-115.

10. Adair, H.S. III. (2011). Aquatic therapy for conditioning and treatment of tendon and ligament injuries. In: 57th Annual Convention of the American Association of Equine Practitioners Proceedings, San Antonio, Texas, pp. 181–185.

11. Greco-Otto, P., Baggaley, M., Edwards, W.B., Léguillete, R. (2019). Water treadmill exercise reduces equine limb segmental accelerations and increases shock attenuation. BMC Vet. Res. 15(1), 329. Doi:10.1186/212917-019-2075-6.

12. Saitua, A., Becero M., Castejón-Riber C., Riber, C., Argüelles, D., Sánchez de Medina, A.L., Muñoz, A., (2019). Accelerometric parameters measured in the fore- and hindquarters in horses during an exercise session on a water treadmill at different water depths. In: Proc. XXIV International Meeting of the Spanish Society of Veterinary Surgery, Córdoba, Spain, 2019, 293-299.

12. Muñoz, A. (2018). Exercise in water in the horse: physiological adaptations and potential benefits for training and rehabilitation. In: Proc. Veterinary Animal Science Days, University of Milan, Italy.

Borgia L.A., Valberg S.J., Essén-Gustavsson B. (2010). Differences in the metabolic properties of the gluteus medius and superficial digital flexor muscles and the effect of water treadmill training in the horse. Equine Vet. J. 38, 665–670.

13. Muñoz, A., Santisteban, R., Rubio, M.D., Agüera, E.I., Escribano, B.M., Castejón, F.M. (1999). Locomotor, cardiocirculatory and metabolic adaptations to training in Andalusian and Anglo-Arabian horses. Res. Vet. Sci. 66(1):25-31.

14. Muñoz, A., Santisteban, R., Rubio, M.D., Vivo, R., Agüera, E.I., Escribano, B.M., Castejón, F.M. (1997). The use of functional indexes to evaluate fitness in Andalusian horses. J. Vet. Med. Sci. 59(9):747-752.

15. Firshman, A.M., Borgia, L.A., Valberg, S.J. (2015). Effects of training at a walk on conventional and underwater treadmills on fiber properties and metabolic responses of superficial digital flexor and gluteal muscles to high speed exercise in horses. Am. J. Vet. Res. 76, 1058-1065.

16. Méndez-Angulo, J.L., Firshman, A.M., Groschen, D.M., Kieffer, P.J., Trumble, T.N. (2013). Effect of water depth on amount of flexion and extension of joints of the distal aspects of the limbs in healthy horses walking on an underwater treadmill. Am. J. Vet. Res. 74, 557-566.

17. Muñoz, A., Castejón-Riber C., Riber C., Esgueva M., Méndez-Angulo J., Mateo S., Castejón F (2016). Cambios locomotores determinados mediante acelerometría en caballos ejercitados en treadmill acuático a diferentes profundidades de agua. In: Proc. XVII Congreso Internacional de Medicina y Cirugía Equina, Sevilla, Spain, 2016, 39-41.

18. Riber, C., Castejón-Riber, C., Esgueva, M., Méndez-Angulo, J.L., Castejón, F., Muñoz, A. (2016). Cambios cinemáticos beneficiosos para rehabilitación en caballos ejercitados en treadmill acuático. In: International Meeting of the Spanish Society of Veterinary Surgery, April 15-16, Madrid, Spain.

19. Saitua, A., Becero, M., Castejón-Riber, C., Argüelles, D., Sánchez de Medina, A., Muñoz, A. (2019). Total power measured with accelerometry in horses exercised on a water treadmill at different water depth and velocities. In: Meeting of the European Society of Veterinary Sport Medicine and Rehabilitation ESVSMR, Ghent, Belgium.

20. Barrey, E. (2014). Biomechanics of locomotion in the athletic horse. In: Equine Sports Medicine and Surgery (Hinchcliff, K.W., Kaneps, A.J., Geor, R.J., Eds). Saunders Elsevier, pp. 189-211.

Biau, S., Barrey, E. (2004). Relationships between stride characteristics and scores in dressage tests. Pferdeheilkunde 20(2), 1-4.

21. Vida, T., Castejón-Riber, C., Riber, C., Saitua, A., Becero, M., Méndez-Angulo, J.L., Roldán, J., Muñoz, A. (2018). Ejercicio en cinta rodante acuática en la rehabilitación de un caballo con osteoartritis múltiple crónica. In: Congreso Internacional de Medicina y Cirugía Equina. Noviembre 16-17, Sevilla, Spain.

22. Becero, M., Saitua, A., Reguera, M., Castejón-Riber, C., Herrera, R., Muñoz, A. (2018). Ejercicio en treadmill acuático en la rehabilitación de un caballo con tendinopatía del flexor digital superficial. In: II Congreso de Veterinaria y Ciencia y Tecnología de los alimentos, February 9, Córdoba, Spain.

23. Nankervis K.J., LeFrancois K. (2018). A comparison of protraction-retraction of the distal limb during treadmill and water treadmill walking in horses. J. Equine Vet. Sci., 70, 57-62.

24. Mooij, M.J., Jans, W., den Heijer, G.J., De Pater, M., Back, W. (2013). Biomechanical response of the back of riding horses to water treadmill exercise. Vet. J. 198, 120-123.

25. Nankervis K.J., Finney P., Launder L. (2016). Water depth modifies back kinematics of horses during water treadmill exercise. Equine Vet. J. 48, 732–736.