Pre- and post -exercise variation of blood parameters on performance endurance horses: a first race study from Algeria


M Chikhaoui
https://orcid.org/0000-0002-2039-7645
S Fadhéla
CZA Belalia
https://orcid.org/0000-0003-0842-5532
N Ayad
https://orcid.org/0000-0002-4477-4679
Resumen

Abstract: This paper presents the first study conducted in Algeria to determine the pre and post-race hematological and biochemical parameters of horses of a 90 km endurance race for eliminated horses’ category and those who completed the races with good performance. This study was conducted on 15 endurance horses (10 Arabian Thoroughbred, 4 Arabian-Barb and 1 Barb). Nine (9) horses successfully completed the endurance race, whereas the other 6 were eliminated. Blood samples were collected from each animal before and after the end of the race. Whole blood samples were used for measuring the blood-biochemical parameters.  Our results showed a significant increase in the hematological parameters (RBC, HB, Ht and MCV), the total leucocyte count, neutrophils and platelets for the group of horses who finished the race successfully. A significant decrease was noticed for the lymphocytes and eosinophils numbers while serum biochemical parameters showed a significant increase of Ca, TG, urea, U-A, AST and CK and a decrease of Mg, CHE, GLU and ƔGT. This study showed that, for the eliminated horses, there were significant changes in values of the total leucocytic count, lymphocytes, neutrophils, HB and Ht as compared to good performance horses. Serum biochemical parameters showed a significant increase of TG, U-A, AST and CK and a significant decrease of Ca, Mg, CHE and ƔGT. Most of the hemato-biochemical parameters of both the eliminated horses and those who completed the race successfully depicted significant differences. The results of this study suggested that biochemical findings could help identify horses with an increased risk of developing metabolic alterations before their elimination during competitive endurance races of different distances. Therefore, proper management protocols, standard feeding and watering with proper preparation of animals before the race could prevent electrolytes imbalance and pathological affections during racing.

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References
Adamu, L., Adzahan, N. M., Abdullah, R., & Ahmad, B (2010) Effects of race distance on physical, hematological and biochemical parameters of endurance horses. Am. J. Anim. Vet. Sci 5 (4): 244-248.
Adamu, L., Adzahan, N. M., Rasedee, A., & Ahmed, B (2014) Responses of serum biochemical parameters, electrolytes and heart rate in an 80 km endurance race. J. Vet. Adv 4 (1): 329-337.
Adamu, L., Noraniza, M. A., Rasedee, A., & Bachir, A (2012) Metabolic responses in endurance horses during racing in relation to uric acid profile, leucocytes, heart rate and plasma biochemical parameters. Vet. Med 57 (11): 591-596.
Art, T., Franckt, T., Ganglt, M., Votions, D., Kohnen, S., Deby-Dupont, G., et al (2009) Plasma concentrations of myeloperoxidase in endurance and 3‐day event horses after a competition 38 (S36): 298-302.
Bachir, A., and Rasedee, A (2009) Plasma catecholamine, sweat electrolytes and physiological responses of exercised normal, partial, anhidrotic and anhidrotic horses. Am. J. Anim. Vet. Sci 4 (1): 26-31.
Bis-Wencel, H., Lutnichi, K., Rowicka, A. Z., Nowakowicz-Debek, B., & Bryl, M (2012) Effort of varying intensity as a factor influencing the variability of selected biochemical blood parameters of jumping horses. Bull Vet Inst Pulawy 56 (2): 225-229.
Bis-Wencel, H., Lutnicki, K., Rowicka, A. Z., & Bryl, M (2011) Long term exercise and its effect on selected hematological parameters of blood in horses. Med. Wet 67 (6): 418-421.
Burliowska, K., Boguslawska-Tryk, M., Szymeczko, R., & Piotrowska, A (2015) Haematological and biochemical blood parameters in horses used for sport and recreation. JCEA 16 (4): 370-382.
Buzala, M., Krumrych, W., & Janicki, B (2015) Usefulness of creatine kinase activity determination for assessing the effects of physical effort in horses. Pak Vet J 35 (3): 267-73.
Camâra, I. A., Silva, R. V., & Soto-Blanco, D (2007) Eterminação das atividades séricas de creatina quinase, lactato desidrogenase e aspartato aminotransferase em equinos de diferentes categorias de atividade. Arq. Bras. Med. Vet. Zootec 59: 250-252.
Carlson, G. P (1987) Haematology and body fluids in the equine athlete: a review. (R. N. Gillespie JR, Éd.) Equine Exercise Physiology 2: 393-425.
Castejon, F., Trigo, P., Munos, A., & Riber, C (2006) Uric acid responses to endurance racing and relationships with performance, plasma biochemistry and metabolic alterations. Equine exercise physiology. Equine Vet. J 36: 70-73.
Cottin, F., Barrey, E., Lopes, P., & Billat, V. L (2006) Effect of fatigue during five successive heats (800m at high velocity) and recovery runs on heart rate variability in Standardbreds. Proceeding of the 7th International Conference on Equine Exercise Physiology, (p. 68). Fontainebleau.
Cywinska, A., Szarska, E., Gorecka, R., Witkowski, L., Hecold, M., & Bereznowski, A (2012) Acute phase protein concentrations after limited distance and long distance endurance rides in horses. Res Vet Sci 93 (3): 1402-6.
Ebrahim, Z. K., Metwally, A. M., & Elshalhawy, I. I (2019) Some Clinical, Hematological and Biochemical Alterations in Endurance Horses After 40km Endurance Race. AJVS 61 (1): 133-9.
FEI. (2019). Rules for endurance events. 9th Ed. Effective 2019. Consulté le 06 17, 2020, sur FEI Federation Equestre Internationale.
Fielding, C. L., Magdesian, K. G., Rhodes, D. M., Meier, C. A., & Higgins, J. C (2009) Clinical and biochemical abnormalities malities in endurance horses eliminated from competition for medical complications and requiring emergency medical treatment: 30 cases. J Vet Emerg Crit Care 19 (5): 473-478.
Flaminio, M. J., and Rush, B. R (1998) Fluid and electrolyte balance in endurance horses in Fluids and Electrolytes in Athletic Horses. Vet. Clin. North Am. Equine Pract 14 (1): 147-158.
Gomide, L. M., Martins, C. B., Orozco, C. A., Sampaio, R. C., Belli, T., Balidissera, V., et al (2006) Concentrações sangüíneas de lactato em eqüinos durante a prova de fundo do concurso complete de equitação. Ciência Rural 36: 509-513.
Hassan, H. Y., Aly, M. A., Elseady, Y. M., Nayel, M. A., Elsify, A. M., Salama, A. A., et al (2015) The effect of race in the clinical, hematological and biochemical biomarkers in Thoroughbred horses. Alex. J. Vet. Sci 46: 161-169.
Hodgson, D. R., McGowan, C. M., & McKeever, K. H (2014) The athletic horse: principles and practice of equine sports medicine .Vol. 2nd ed. China: Elsevier Saunders.
Janicki, B., Kochowicz, A., Buzala, M., & Krumrych, W (2012) Variability of selected biochemical parameters in young stallions during the 100-day performance test. JEVS 33 (12): 1136-41.
Khaled, M. A., and Ahmed, M. A (2008) Higher lipid peroxidation indices in horses eliminated from endurance race because of synchronous diaphragmatic flutter (thumps) JEVS 28 (10): 573-578.
Larsson, J., Pilborg, P. H., Johansen, M., Christopherson, M. T., Holte, A., Roepstorff, L., et al (2013) Physiological parameters of endurance horses pre- compared to post-race, correlated with performance: A two race study from Scandinavia. ISRN Vet. Sci 9: 1-12.
Lawan, A., Noraniza, M. A., Rasedee, A., & Bachir, A (2010) Effects of race distance on physical, hematological and biochemical parameters of endurance horses. Am. J. Anim. Vet. Sci 5: 244-248.
McConaghy, F. F., Hodgson, D. R., Evans, D. L., & Rose, R. J (1995) Equine sweat composition: effects of adrenaline infusion, exercise and training. Equine Vet. J 27 (S20): 158-64.
McKeever, K. H., Schurg, W. A., Jarrett, S. H., & Convertino, V. A (1987) Exercise training-induced hypervolemia in the horse.MSSE 19 (1): 21-27.
Muñoz, A., Riber, C., Trigo, P., & Castejón, F. M (2010) Dehydration, electrolyte imbalances and renin-angiotensin-aldosterone-vasopressin axis in successful and unsuccessful endurance horses. Equine Vet. J 42 (S38): 83-90.
Muraoka, S., and Miura, T (2003) Inhibition by uric acid of free radicals that damage biological molecules. Pharmacology and Toxicology 93 (6): 284-289.
Piccione, G., Casella, S., Giannetto, C., Messina, V., Monteverde, V., Caola, G., et al (2010) Haematological and haematochemical responses to training and competition in standardbred horses. Comp. Clin. Pathol 19 (1): 95-101.
Piccione, G., Giannetto, C., Assenza, A., Fazio, F., & Caola, G (2007) Serum electrolyte and protein modification during different workload in jumper horse. Comp. Clin. Pathol 16 (2): 103-107.
Piccione, G., Vazzana, I., Giannetto, C., Gianesella, M., & Ferentelli, V (2008) Modification of Some Hematological and Hematochemical Parameters in Horse during Long Distance Rides. RJVS 1 (1): 37-43.
Poskiené, I., Juozaitiené, V., Noreika, A., Auyukaite, J., Televicius, M., Malasauskiene, D., et al (2019) Responses for blood morphological indices in a 60-km horse endurance race depending on the season. Acta Vet. Brno 88 (2): 177-185.
Rezazadeh, F., Hosseinzadeh, N., Jozani, R., & Dianati, N (2016) Comparison of some hematological parameters between horses in an endurance competition. Animal and Veterinary Sciences 4 (6): 97-102.
Satué, K., Hernàndez, A., & Munoz, A (2012) Physiological factors in the interpretation of equine hematological profile. Dans C. Lawrie, Hematology - Science and Practice: pp. 573-96. Rijeka, Croatia: InTech.
Schott, H. C., Marlin, D. J., Georg, R. J., Holbrook, T. C., Deaton, C. M., Vincent, T., et al (2006) Changes in selected physiological and laboratory measurements in elite horses competing in a 160 km endurance ride. Equine. Vet. J 38 (S36): 37-42.
Sloet van Oidruitenborgh-Oosterbaan, M. M., Wensing, T., Barneveld, A., & Breukink, H. J (1991) Heart rate, blood biochemistry and performance of horses competing in a 100 km endurance ride. Vet. Rec 128 (8): 175-179.
Snow, D. H., Harris, R. C., McDonald, I. A., Foster, C. D., & Marlin, D. J (1992) Effects of high-intensity exercise on plasma catecholamines in the thoroughbred horse. Equine Vet J 24: 462-467.
Soroko, M., Spitalniak-Bajerska, K., Zaborski, D., Pozniak, B., Dubek, K., & Janczarek, I (2019) Exercise-induced changes in skin temperature and blood parameters in horses. AAB 62 (1): 205-213.
Spangfors, P (1991) Energibalans. v¨atske- och elektrolytf¨or¨andringar under distansritt. Svensk Veterin¨ar Tidning 42 (2): 55-61.
Stockham, S. L., and Scott, M. A (2002) Fundamentals of veterinary clinical pathology (éd. 1st edition). Iowa, USA: Iowa State Press.
Stopyra, A., Zarczynska, K., Snarska, A., & Sobiech, P (2016) Selected electrolytic, haematological and enzymatic parameters in horses during endurance races. J. Elem 21 (4): 1151-1159.
Szarska, E (2003) Investigations of blood parameters for evaluation of health status and training effects in race and sport horses. Zesz. Nauk. AR Wroclaw : 155.
Szarska, E (2002) Wykorzystanie badan diagnostycznych krwi do oceny stanu zdrowia I zaawansowania treningowego koni wyczynowych [The use of blood diagnostic test to assess the state of health and progress of training performance of racing horses. Ed. SGGW, Warszawa 250: 1-4.
Teixeira-Neto, A. R., Ferraz, G. C., Moscardini, A. R., Albernaz, R. M., Gondin, M. R., & Queiroz-Neto, A (2012) Do hematologic constituents really increase due to endurance exercise in horses?. Pesq. Vet. Bras 32 (9): 951-956.
Treiber, K. H., Hess, T. M., Kronfield, D. S., Boston, R. C., Geor, R. J., Friere, M., et al (2006) Glucose dynamics during exercise: dietary energy sources affect minimal model parameters in trained Arabian geldings during endurance exercise 38 (36S): 631-636.
Trigo, P., Castejon, F., Riber, C., & Munoz, A (2010) Use of biochemical parameters to predict metabolic elimination in endurance rides. Equine Vet. J 42: 142-146.
Tyler-McGowan, C. M., Golland, L. C., Evans, D. L., Hodgson, D. R., & Rose, R. J (1999) Haematological and biochemical responses to training and overtraining. Equine Vet. J 31 (S30): 621-5.
Vazzana, I., Rizzo, M., Dara, S., Niutta, P. P., Giudice, E., & Piccione, G (2014) Haematological changes following reining trials in quarter horses. Acta Sci Vet 42 (1): 1171.
Waller, A. P., Heigenhauser, G. J., Geor, R. J., Spriet, L. L., & Lindinger, M. I (2009) Fluid and electrolyte supplementation after prolonged moderate-intensity exercise enhance muscle glycogen resynthesis in Standardbred horses. J. Appl. Physiol 106 (1): 91-100.
Weiss, D., Burger, D., Weishaupt, M. A., Fakler, A., Spicheger, U. E., Giese, L., et al (2002) Effects of a 61.7 km ride on magnesium and calcium homeostasis in well trained endurance horses. JEVS 22 (2): 77-83.
Zarczynska, K., Radwinska, J., Snarska, A., Rekawek, W., & Procajlo, A (2013) Disturbances in the acid-base and electrolyte balance and changes in serum mineral concentrations in calves diagnosed with nutritional muscular dystrophy. J. Elem 18 (2): 307-315.