TESTES DE ESFORÇO EM CAVALOS: ÍNDICES ÚTEIS AO AJUSTE DO TREINAMENTO

Autores/as

  • Paulo Moreira Bogossian Programa de Pós-Graduação em Clínica Veterinária da Universidade de São Paulo (USP)
  • Tiago Marcelo Oliveira faculdade Anhanguera – Santo André, SP
  • Ayrton Rodrigo Hilgert Programa de Pós-Graduação em Clínica Veterinária da Universidade de São Paulo (USP)
  • Wilson Roberto Fernandes Faculdade de Medicina Veterinária e Zootecnia, Dpto Clínica Médica da USP

Palabras clave:

cavalos atletas, desempenho, condicionamento, lactato, frequência cardíaca, consumo de oxigênio

Resumen

A capacidade de se adaptar ao treinamento é bastante variável entre cavalos, submetidos a um mesmo programa de treinamento físico. O ajuste das cargas de treinamento, segundo a resposta individual, se faz essencial, para que os cavalos possam desenvolver seus potenciais atléticos com o mínimo de estresse e risco de lesões. Há diversos testes ergométricos e variáveis úteis ao monitoramento da resposta fisiológica ao treinamento e ao controle da intensidade do exercício, como a concentração plasmática de lactato, o consumo máximo de oxigênio e a frequência cardíaca. Alguns estudos têm demonstrado que a adaptação cardiorrespiratória em cavalos sofre maior influência do volume do treinamento, do que da intensidade do mesmo. Ao mesmo tempo, há alterações relacionadas à respiração mitocondrial e à capacidade de tamponamento, importantes à manutenção do exercício de moderada a alta intensidade, que são resultantes dos treinamentos de alta intensidade. Características inerentes ao animal, como a máxima frequência cardíaca, o consumo máximo de oxigênio e a concentração de hemoglobina podem constituir importantes limites ao rendimento. O presente estudo tem por objetivo apresentar ferramentas úteis ao ajuste do treinamento esportivo em cavalos e analisar comparativamente a resposta fisiológica ao treinamento em cavalos e atletas humanos.

Citas

ADEVA-ANDANY, M.; LÓPEZ-OJÉN, M.; FUNCASTA-CALDERÓN, R.; AMENEIROS-RODRÍGUEZ, E. Mitochondrion Comprehensive review on lactate metabolism in human health. Mitochondrion, v.17, p.76-100, 2014.

ALLEN, K.J.; HILLYER, M.H.; FRANKLIN, S.H. Equitation and exercise factors affecting dynamic upper respiratory tract function: A review illustrated by case reports. Equine Veterinary Education, v.23, n.7, p.361-368, 2011.

ALLEN, K.J.; VAN ERCK-WESTERGREN, E.; FRANKLIN, S.H. Exercise testing in the equine athlete. Equine Veterinary Education, v.28, n.2, p.89-98, 2016.

ALONSO, D.M.; WATANABE, M.J.; HUSSINI, C.A.; MONTOVANI, C.F.; MACHADO, L.P.; YONEZAWA, L.P.; KOHAYAGAWA, A. O treinamento nos valores da V200, FC pico e distância percorrida de cavalos da raça Árabe e Crioula. Training in V200, HR peak and worked distance values in Arabian and Criollo horses. Ciência Rural, v.43, n.4, p.722–728, 2013.

ART, T.; DESMECHT, D.; AMORY, H.; LEKEUX, P. Synchronization of Locomotion and Respiration in Trotting Ponies. Journal of Veterinary Medicine Series A, v.37, n.1–10, p.95–103, 1990.

ART, T.; DUVIVIER, D.H.; VAN ERCK, E.; DE MOFFARTS, B.; VOTION, D.; BEDORET, D.; LEJEUNE, J.P.; LEKEUX, P.; SERTEYN, D. Validation of a portable equine metabolic measurement system. Equine Veterinary Journal Suppl, v.38, p.557–561, 2006.

BARREY, E.; VALETTE, J. Exercise-related parameters of horses competing in show jumping events ranging from a regional to an international level. Annales de Zootechnie, v.42, n.1, p.89-98, 1993.

BASSETT, D.R.; HOWLEY, E.T. Limiting factors for maximum oxygen uptake and determinants of endurance performance. Medicine and science in sports and exercise, v.32, n.1, p.70-84, 2000.

BILLAT, V. L.; SIRVENT, P.; PY, G.; KORALSZTEIN, J. P.; MERCIER, J. The concept of maximal lactate steady state: a bridge between biochemistry, physiology and sport science. Sports Medicine, v.33, n.6, p.407-426, 2003.

BOUCHARD, C. Genomic predictors of trainability. Experimental Physiology, v.97, n.3, p.347-352, 2012.

BROOKS, G.A. Lactate shuttle - Between but not within cells ? Journal of Physiology, v.541, n.2, p.332-334, 2002.

BUTCHER, M.T.; HERMANSON, J.W.; DUCHARME, N.G.; MITCHELL, L.M.; SODERHOLM, L.V; BERTRAM, J.E.A.; BENZUIDENHOUT, A.J. Superficial digital flexor tendon lesions in racehorses as a sequela to muscle fatigue: A preliminary study. Equine Veterinary Journal, v.39, n.6, p.540-545, 2007.

CAMPBELL, E.H. Lactate-driven equine conditioning programmes. Veterinary Journal, v.190, n.2, p.199-207, 2011.

CONNETT, R.J.; HONIG, C.R.; GAYESKI, T.E.J.; BROOKS, G.A. Defining hypoxia: a systems view of energetics, and intracellular PO. American Physiology Society, p.833-842, 1990.

COTTIN, F.; METAYER, N.; GOACHET, A.G.; JULLIAND, V.; SLAWINSKI, J.; BILLAT, V.; BARREY, E. Oxygen consumption and gait variables of Arabian endurance horses measured during a field exercise test. Equine Veterinary Journal, v.42, Suppl.38, p.1-5, 2010.

CROOK, T.C.; CRUICKSHANK, S.E.; MCGOWAN, C.M.; STUBBS, N.; WAKELING, J.M.; WILSON, A.M.; PAYNE, R.C. Comparative anatomy and muscle architecture of selected hind limb muscles in the Quarter Horse and Arab. Journal of Anatomy, v.212, n.2, p.144–152, 2008.

CURTIS, R.A.; KUSANO, K.; EVANS, D.L.; LOVELL, N.H.; HODGSON, D.R. Reliability of cardiorespiratory measurements with a new ergospirometer during intense treadmill exercise in Thoroughbred horses. Veterinary Journal, v.169, n.2, p.223-231, 2005.

EATON, M.D.; EVANS, D.L.; HODGSON, D.R.; ROSE, R.J. Maximal accumulated oxygen deficit in thoroughbred horses. Journal of Applied Physiology, v.78, n.4, p.1564-1568, 1995.

EVANS, D.L.; RAINGER, J.E.; HODSON, D.R.; EATON, M.D.; ROSE, R.J. The effects of intensity and duration of training on blood lactate concentrations during and after exercise. Equine Veterinary Journal, v.27, n.18, p.422-425, 1995.

EVANS, D. L. Training and Fitness in Athletic Horses. Rural Industries Research and Development Corporation Publication, n.00/1, 2000.

EVANS, D.L. Physiology of equine performance and associated tests of function. Equine Veterinary Journal, v.39, n.4, p.373-383, 2007.

EVANS, D.L.; ROSE, R.J. Cardiovascular and respiratory responses to submaximal exercise training in the thoroughbred horse. Pflugers Archiv : European journal of physiology, v.411, n.3, p.316-21, 1988.

FERREIRA, J.C.B.; ROLIM, N.P.L.; BARTHOLOMEU, J.B.; GOBATTO, C.A.; KOKUBUN, E.; BRUM, P.C. Maximal lactate steady state in running mice: Effect of exercise training. Clinical and Experimental Pharmacology and Physiology, v.34, n.8, p.760-765, 2007.

FORTIER, J.; DELEY, G.; GOACHET, A.G.; JULLIAND, V. Quantification of the energy expenditure during training exercises in Standardbred trotters Animal, In: International Journal of Animal Bioscience, v.9, n.5, p.793-799, 2015.

FORTIER, J.; DELEY, G.; JULLIAND, V. Technical note: Comparison of two methods to quantify exercise energy expenditure in trotters. Journal of Animal Science, v.93, n.3, p.1145-1148, 2015.

GLADDEN, L.B. Lactate metabolism : a new paradigm for the third millennium. v.1, p.5-30, 2004.

GOODWIN, M. L.; HARRIS, J.E.; HERNÁNDEZ, A.; GLADDEN, L.B. Blood lactate measurements and analysis during exercise: a guide for clinicians. Journal of Diabetes Science and Technology, v.1, n.4, p.558–69, 2007.

HECK, H.; MADER, A.; HESS, G.; MÜCKE, S.; MÜLLER, R.; HOLLMANN, W. Justification of the 4-mmol/l lactate threshold. International Journal of Sports and Medicin, v.6 , n.3 , p.117-130, 1985.

HEDEGAARD SOMMER, L.; MUNK, R.; MØLLER NIELSEN, S.; LINDNER, A. Training of horses used for show jumping and its effect on v4. Journal of Equine Veterinary Science, v.35, n.4, p.301-308, 2015.

HILL, E.W.; GU, J.; EIVERS, S.S.; FONSECA, R.G.; MCGIVNEY, B.A.; GOVINDARAJAN, P.; ORR, N.; KATZ, L.M.; MACHUGH, D. A sequence polymorphism in MSTN predicts sprinting ability and racing stamina in thoroughbred horses. PLoS ONE, v.5, n.1, p.2-7, 2010.

HILL, A.V; LUPTON, H. Muscular exercise, lactic acid and the supply and utilization of oxygen. Quarterly Journal of Medicine, p.135-171, 1923.

HINCHCLIFF, K.W.; LAUDERDALE, M.A.; DUTSON, J.; GEOR, R.J.; LACOMBE, V.A,; TAYLOR, L.E. High intensity exercise conditioning increases accumulated oxygen deficit of horses. Equine Veterinary Journal, v.34, p.9-16, 2002.

HOCHACHKA, P.W.; BEATTY, C.L.; BURELLE, Y.; TRUMP, M.E.; MCKENZIE, D.C.; MATHESON, G.O. The Lactate Paradox in Human High-Altitude Physiological Performance. News in Physiological Science, v.17, p.122–126, 2002.

HODGSON, D.R.; MCGOWAN, C.M.; MCKEEVER, K.H. The Athletic Horse Principles and Practice of Equine Sports Medicine. In: ELSEVIER (Ed.). 2a ed. [s.l: s.n.]. p.10, 2014.

HOPPELER, H.; JONES, J.H.; LINDSTED, S.L.; CLAASSEN, H.; LONGWORTH, K.E.; TAYLOR, C.R.; STRAUB, R.; LINDHOLM, A. Relating maximal oxygen consumption to skeletal muscle mitochondria in horses. Equine Exercise Physiology, v.2, p.278-289, 1987.

JONES, J.H.; LONGWORTH, K.E.; LINDHOLM, A.; CONLEY, K.E.; KARAS R.H; KAYAR, S.R.; TAYLOR, C.R. Oxygen transport during exercise in large mammals. I. Adaptative variation inoxygen demand. Journal of Applied Physiology, v.67, n.2, p.862-870, 1989.

KARLSSON, J. Lactate and phosphagen concentrations in working muscle of man with special reference to oxygen deficit at the onset of work. Acta of Physiology Scandinava, v.358, p.1-72, 1971.

KOBAYASHI, M.; KURIBARA, K.; AMADA, A. Application of V200 values for evaluation of training effects in the young Thoroughbred under field conditions, v.30, p.159-162, 1999.

KOHO, N.M.; HYYPPÄ, S.; PÖSÖ, A.R. Monocarboxylate transporters (MCT) as lactate carriers in equine muscle and red blood cells. Equine Veterinary Journal, v.38, Suppl.36, p.354-358, 2006.

KRONFELD, D.S.; CUSTALOW, S.E.; FERRANTE, P.L.; TAYLOR, L.E.; MOLL, H.D.; MEACHAM, T.N.; TIEGS, W. Determination of the lactate breakpoint during incremental exercise in horses adapted to dietary corn oil. American Journal of Veterinary Research, v.61, n.2, p.144-151, 2000.

KUSANO, K.; CURTIS, R.A.; GOLDMAN, C.A.; EVANS, D.L. Relative Flow-Time Relationships in Single Breaths Recorded After Treadmill Exercise in Thoroughbred Horses. Journal of Equine Veterinary Science, v.27, n.8, p.362-368, 2007.

LAWSON, S.E.M.; MARLIN, D.J. Preliminary report into the function of the shoulder using a novel imaging and motion capture approach. Equine Veterinary Journal, v.42, n. Suppl. 38, p.52-55, 2010.

LINDNER, A.E. Maximal lactate steady state during exercise in blood of horses. Journal of Animal Science, v.88, n.6, p.2038-2044, 2010.

LOVEL, D.K.; ROSE, R.J. Changes in skeletal muscle composition in response to interval and high intensity training. Equine Exercise Physiology 3. Anais...Davis: 1993

MARLIN, D. Has the golden age of equine exercise physiology passed and if so, have we answered all the big questions? Journal of Equine Veterinary Science, v.35, n.5, p.354-360, 2015.

MIRANDA, M.; QUEIROZ-NETO, A.; SILVA-JÚNIOR, J.; PEREIRA, M.; SOARES, O.; BORGHI, R.; FERRAZ, G. Comparison of the lactate minimum speed and the maximal lactate steady state to determine aerobic capacity in purebred Arabian horses. New Zealand Veterinary Journal, v.62, n.1, p.15-20, 2014.

MIRIAN, M.; FERNANDES, W. Padronização De Teste Incremental De Esforço Máximo a Campo Para Cavalos Que Pratiquem Hipismo Clássico. Veterinária e Zootecnia, v.18, n.4, p.668-679, 2011.

MOURA, J. DE; MEMILI, E.; RODRÍGUEZ-VILLAMIL, P. O treinamento nos valores da V200, FC pico e distância percorrida de cavalos da raça Árabe e Crioula. Training in V200, HR peak and worked distance values in Arabian and Criollo horses. [s.d.].

MUNSTERS, C.C.B.M.; VAN IWAARDEN, A.; VAN WEEREN, R.; SLOET VAN OLDRUITENBORGH-OOSTERBAAN, M.M. Exercise testing in Warmblood sport horses under field conditions. Veterinary Journal, v.202, n.1, p.11-19, 2014.

OHMURA, H.; HIRAGA, A.; MATSUI, A.; AIDA, H.; INOUE, Y.; ASAI, Y.; JONES, J.H. Physiological responses of young Thoroughbreds during their first year of race training. Equine veterinary journal. Supplement, v.34, n.34, p.140-6, 2002.

OLDRUITENBORGH-OOSTERBAAN, M.M.S.; BARNEVELD, A. Comparison of the workload of Dutch warmblood horses ridden normally and on a treadmill. The Veterinary Record, v.137, n.6, p.136-139, 1995.

QUIROZ-ROTHE, E.; RIVERO, J.L.L. Co-ordinated expression of contractile and non-contractile features of control equine muscle fibre types characterised by immunostaining of myosin heavy chains. Histochemistry and Cell Biology, v.116, n.4, p.299-312, 2001.

REGATIERI, I.C.; PEREIRA, G.L.; TEIXEIRA NETO, A.R.; FERRAZ, G.C.; CURI, R.A.; QUEIROZ-NETO, A. Polymorphisms in MCT1, CD147, PDK4, and DMRT3 genes in Arabian and Quarter Horses. Journal of Equine Veterinary Science, v.1, p.1-5, 2016.

ROSE, R.J.; HODGSON, D.R.; BAYLY, W.M.; GOLLNICK, P.D. Kinetics of VO2 and VCO2 in the horse and comparison of five methods for determination of maximum oxygen uptake. Equine veterinary journal. Supplement, n.9, p.39-42, 1990.

SOARES, O.A.B.; FERRAZ, G.C.; MARTINS, C.B.; DIAS, D.P.M.; LACERDA-NETO, J.C.; QUEIROZ-NETO, A. Comparison of maximal lactate steady state with V2, V4, individual anaerobic threshold and lactate minimum speed in horses. Arquivo Brasileiro de Medicina Veterinaria e Zootecnia, v.66, n.1, p.39-46, 2014.

STALLKNECHT, B.; VISSING, J.; GALBO, H. Lactate production and clearance in exercise. Effects of training. A mini-review. Scandinavian journal of medicine & science in sports, v.8, p.127-131, 1998.

TAYLOR, C.R.; HEGLUND, N.C.; MALOIY, G.M. Energetics and mechanics of terrestrial locomotion. I. Metabolic energy consumption as a function of speed and body size in birds and mammals. The Journal of Experimental Biology, v.97, n.1970, p.1-21, 1982.

TEGTBUR, U.; BUSSE, M.W.; BRAUMANN, K.M. Estimation of an individual equilibrium between lactate production and catabolism during exercise. Medicine & Science in Sports & Exercise, v.25, n.5, p.620-627, 1993.

TYLER, C.M.; GOLLAND, L.C.; EVANS, D.L.; HODGSON, D.R.; ROSE, R.J. Changes in maximum oxygen uptake during prolonged training, overtraining, and detraining in horses. Journal of Applied Physiology, v.81, n.5, p.2244–2249, 1996.

YOUNG, L.E.; MARLIN, D.J.; DEATON, C.; BROWN-FELTNER, H.; ROBERTS, C.A.; WOOD, J. L. Heart size estimated by echocardiography correlates with maximal oxygen uptake. Equine Veterinary Journal. Supplement, v.34, p.467-471, 2002.

Publicado

2023-10-02

Cómo citar

BOGOSSIAN, P. M.; OLIVEIRA, T. M.; HILGERT, A. R.; FERNANDES, W. R. TESTES DE ESFORÇO EM CAVALOS: ÍNDICES ÚTEIS AO AJUSTE DO TREINAMENTO. Ciência Animal, [S. l.], v. 27, n. 1, p. 99–117, 2023. Disponível em: https://revistas.uece.br/index.php/cienciaanimal/article/view/11514. Acesso em: 4 dic. 2024.

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