Summary
Today’s elite hockey players are physically bigger and have improved levels of physiological fitness when compared with their predecessors. Correspondingly, previous ice hockey studies that have become widely referenced may have little relevance to current players and the way the game is presently played.
A great need exists to apply exercise science to the game of ice hockey. Although much has been written about the physiology of ice hockey, there is little information based on well controlled studies. Particularly, there is a paucity of knowledge concerning optimal training schedules, training specificity, recovery profiles and seasonal detraining. Moreover, the reports that do exist have attempted to make comparisons across all levels of skill and talent. Thus, fundamental questions remain as to actual physiological exercise response and specialised training programmes for ice hockey players, particularly at the elite level.
There is a demand for new properly designed experiments to find answers pertaining to the appropriate training methods for today’s ice hockey players. Future research directions should consider the relationships between performance and such variables as neuromuscular skills, strength, power, peripheral adaptations, travel, hydration, detraining and sport-specific training programmes. Incidence and severity of injury among ice hockey players in relation to fatigue and fitness must also be investigated. Much of the information currently used in ice hockey will remain speculative and anecdotal until these studies are conducted.
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References
Green HJ. Bioenergetics of ice hockey: considerations for fatigue. J Sports Med 1987; 5: 305–17
Green HJ. Physiologic challenges induced by participation in ice hockey — implications for training. J Testing Evaluation 1994; 22: 48–51
Cox MH. Physiology and ice hockey. Paper presented at the annual meeting of the NHL Physicians Society, Montreal, 1993
Cox, MH, Rhodes EC, Thomas S, et al. Fitness testing of elite hockey players. Can Athl Ther J 1988; Winter: 6–13
Montgomery DL. Physiology of ice hockey. Sports Med 1988; 5: 99–126
Johansson C, Lorentzon R, Fugl-Meyer AR. Isokinetic muscular performance of the quadriceps in elite ice hockey players. Am J Sports Med 1989; 17: 30–4
Paterson DH. Respiratory and cardiovascular aspects of intermittent exercise with regard to ice hockey. Can J Appl Sports Sci 1979;4: 22–8
Green HJ. Metabolic aspects of intermittent work with specific regard to ice hockey. Can J Appl Sports Sci 1979; 4: 29–34
Orvanova E. Physical structure of winter sports athletes. J Sports Sci 1987; 5: 197–248
Shephard RJ. Physiological factors limiting the ice-hockey player. Proceedings of the Third International Conference on the Coaching Aspects of Ice Hockey 1981. Gothenberg: International Ice Hockey Federation, 1981: 1–32
Quinney HA. Sport on ice. In: Reilly T, Secher R, Sevell P, et al., editors. Physiology of sports. London: E and FW Sport, 1990: 311–36
Kowalski MF, Grana WA. Aprofile of the elite athlete. In: Grana WA, Lombardo JA, Sharkey BJ, et al., editors. Advances in sports medicine and fitness. Chicago: Year Book Medical, 1989: 1–14
Bouchard C. Genetics of aerobic power and capacity. In: Maslina RM, Bouchard C, editors. Sports and human genetics. Champaign, Ill.: Human Kinetics, 1986: 59–88
Simoneau JA, Lortie G, Boulay MR, et al. Inheritance of human skeletal muscle and anaerobic capacity adaptation in highintensity intermittent training. Int J Sports Med 1986; 7: 167–71
Renger R. Identifying the task requirements essential to the success of a professional ice hockey player: a scout’s perspective. J Teach Phys Educ 1994; 13: 180–95
Thomas SG, Cox MH, LeGal YM, et al. Physiological profiles of the Canadian national judo team. Can J Appl Sports Sci 1989; 14: 142–7
Sharkey BJ. Specificity of testing. In: Grana WA, Lombardo JA, Sharkey BJ, et al., editors. Advances in sports medicine and fitness. Chicago: Year Book Medical 1988: 23–43
Foster C, Thompson NN. The physiology of speed skating. In: Casey MJ, Foster C, Hixson EG, editors. Winter sports medicine. Philadelphia: FA Davis, 1990: 221–40
MacDougall JD, Wenger HA. The purpose of physiological testing. In: MacDougall JD, Wenger HA, Green HJ, editors. Physiological testing of the high performance athlete. Champaign, Ill.: Human Kinetics, 1991: 1–5
Cox MH, Miles DS, Verde TJ, et al. Physical and physiological characteristics of NHL players over the last decade. Med Sci Sports Exerc 1993; 25 (5 Suppl.): S169
Houston ME, Green HJ. Physiological and anthropometrie characteristics of elite Canadian ice hockey players. J Sports Med 1976; 16: 123–8
Rhodes EC, Cox MH, Quinney HA. Comparison of national hockey league regular players on selected physiological parameters. Med Sci Sports Exerc 1987; 19 (Suppl): S46
Montgomery DL, Dallaire JA. Physiological characteristics of elite hockey players over two consecutive years. In: Landers DM, editor. Sport and elite performers. Champaign, Ill.: Human Kinetics 1986: 133–43
Smith D, Wenger HA, Quinney HA, et al. Physiological profiles of the Canadian Olympic hockey team. Can J Appl Sports Sci 1982; 7: 142–6
Agre JC, Baxter TL, Casal DC, et al. Musculoskeletal characteristics of professional ice hockey players. Can J Appl Sports Sci 1987; 12: 202–6
Agre JC, Casal DC, Leon AS, et al. Professional ice hockey players: physiologic, anthropometrie and musculoskeletal characteristics. Arch Phys Med Rehabil 1988; 69: 188–92
Twist P, Rhodes EC. A physiological analysis of ice hockey positions. NSCAJ 1993; 15: 44–6
Quinney HA, Belcastro A, Steadward RD. Seasonal fitness variations and pre-playoff blood analysis in National Hockey League players. Can J Appl Sports Sci 1982; 7: 237
Blatherwick S. Hockey: optimizing performance and safety, a round table discussion. Physician Sports Med 1983; 11: 73–83
Rhodes EC, Twist P. The physiology of ice hockey. 1st ed. Vancouver: University of British Columbia, 1989
Watson RC, Sargeant TLC. Laboratory and on-ice test comparisons of anaerobic power of ice hockey players. Can J Appl Sports Sci 1986; 11: 218–24
Minkoff J. Evaluating parameters of a professional hockey team. Am J Sports Med 1982; 10: 285–92
Londeree BR. Prediction of athletic potential: implications for children. In: Grana WA, Lombardo JA, Sharkey BJ, et al., editors. Advances in sports medicine and fitness. Chicago: Year Book Medical, 1990: 7–35
Gledhill N, Jamnik V. Detailed fitness and medical assessment protocols for NHL entry draft players. 1st ed. Toronto: York University, 1994
Bouchard C, Taylor AW, Simoneau JA, et al. Testing anaerobic poser and capacity. In: MacDougall JD, Wenger HA, Green HJ, editors. Physiological testing of the high performance athlete. Champaign, Ill.: Human Kinetics, 1991: 175–221
Reed A, Hasen H, Cotton C, et al. Development and validation of an on-ice hockey fitness test. Can J Appl Sports Sci 1979; 4: 245
Lariviere G. Godbout P. Measuring physical fitness and technical efficiency of ice hockey players: reference values for various age categories. Quebec: Editions du Pelican, 1976
Allen WK, Seals DR, Hurley BF, et al. Lactate threshold and distance running performance in young and older endurance athletes. J Appl Physiol 1985; 58: 1281–4
Fohrebach R, Mader A, Hollman W. Determination of endurance capacity and prediction of exercise intensities for training and competition in marathon runners. Int J Sports Med 1987; 8: 11–8
Weltman A. The lactate threshold and endurance performance. In: Grana WA, Lombardo JA, Sharkey BJ, et al. Advances in sports medicine and fitness. Chicago: Year Book Medical, 1989: 91–115
Thoden JS. Testing aerobic power. In: MacDougall JD, Wenger HA, Green HJ, editors. Physiological testing of the high performance athlete. Champaign, Ill.: Human Kinetics, 1991: 107–73
Peirce EF, Weltman A, Seip RL, et al. Effects of specificity of training on lactate threshold and VO2max. Int J Sports Med 1990; 11: 267–72
Jacobs I. Blood lactate: implications for training and sports performance. Sports Med 1986; 3: 10–25
Carroll TR, Bacharack D, Kelly J, et al. Metabolic cost of ice and in-line skating in division I collegiate ice hockey players. Can J Appl Physiol 1993; 18: 255–62
Twist P, Rhodes EC. The bioenergetic and physiological demands of ice hockey. Natl Strength Conditionin Assoc J 1993; 15: 68–70
DeBoer RW, Ettema GJC, Faessen BGM, et al. Specific characteristics of speed skating: implications for summer training. Med Sci Sports Exerc 1987; 19: 504–10
Smith DJ, Roberts D. Heart rate and blood lactate concentration during on-ice training in speed skating. Can J Sports Sci 1990; 15: 23–7
Daub WD, Green HJ, Houston ME, et al. Specificty of physiological adaptations resulting from ice hockey training. Med Sci Sports Exerc 1983; 15: 290–4
Wilkins HA, Petersen SR, Quinney HA. Time-motion analysis of and heart rate responses to amateur ice hockey officiating. Can J Sports Sci 1991; 16: 302–7
Greer N, Serfass R, Picanatto W. The effects of a hockey-specific training program on performance of bantam players. Can J Sports Sci 1992; 17: 65–9
Quinney HA, Petersen SR, Drake CJ, et al. The effects of a power training mini-cycle for ice hockey. Can J Sports Sci 1987; 12: 19
Shepley B, MacDougall JD, Cipriano N, et al. Physiological effects of tapering in highly trained athletes. J Appl Physiol 1992; 72: 706–11
Pace A, Carron Av. Travel and home advantage. Can J Sports Sci 1992; 17: 60–4
O’Connor PJ, Morgan Wp. Athletic performance following rapid transversal of multiple time zones: a review. Sports Med 1990; 10: 20–30
Hill DW, Hill CM, Fields KL, et al. Effects of jet lag on factors related to sport performance. Can J Appl Physiol 1993; 18: 91–103
Wheeler KB. Effect of hypohydration on performance — fluid and electrolyte requirements. Natl Strength Conditioning Assoc J 1988; 10: 46–8
MacDougall JD. Thermoregulatory problems encountered in ice hockey. Can J Appl Sports Sci 1979; 4: 35–8
Green HJ, Bishop P, Houston ME, et al. Time-motion and physiological assessments of ice hockey performance. J Appl Physiol 1976; 40: 159–63
Rowell LB. Human circulation regulation during physical stress. New York: Oxford, 1986
Raven PB, Stevens CHJ. Cardiovascular function and prolonged exercise. In: Lamb DR, Murray R, editors. Perspectives in exercise science and sports medicine, vol. 1: prolonged exercise. Indianapolis: Benchmark, 1988: 43–74
Coyle EF, Hamilton, M. Fluid replacement during exercise: effects on physiological homeostasis and performance. In: Gisolfi CV, Lamb DR, editors. Perspectives in exercise science and sports medicine, vol. 3: fluid homeostasis during exercise. Indianapolis: Benchmark, 1990: 281–308
Sawka MN, Young RP, Francesconi SR, et al. Thermoregulatory and blood responses during exercise at graded hypohydration levels. J Appl Physiol 1985; 59: 1394–1401
Nadel ER. Control of sweating rate while exercising in the heat. Med Sci Sports Exerc 1979; 11: 31–5
Nadel DR, Mack GW, Hiroshi N. Influence of fluid replacement beverages on body fluid homeostasis during exercise and recovery. In: Gisolfi CV, Lamb DR, editors. Perspectives in exercise science and sports medicine, vol. 3: fluid homeostasis during exercise. Indianapolis: Benchmark, 1990: 181–205
Luetsolo S. Ice hockey and the energy of muscles. Proceedings of the International Coaches Symposium 1976. Ottawa: Canadian Amateur Hockey Association, 1976: 53–6
Wilson G, Hedberg A. Physiology of ice-hockey: a report. Canadian Amateur Hockey Association: Ottawa 1976
Green HJ, Daub BD, Painter DC, et al. Glycogen depletion patterns during ice hockey performance. Med Sci Sports Exerc 1978; 10: 289–93
Green HJ. Glycogen depletion patterns during continuous and intermittent ice skating. Med Sci Sports Exerc 1978; 10: 183–7
Montpetit RR, Binette P, Taylor AW. Glycogen depletion in a game simulated hockey task. Can J Appl Sports Sci 1979; 4: 43–5
Duan C, Winder WW. Effect of endurance training on activators of glycolysis in muscle during exercise. J Appl Physiol 1994; 76: 846–52
Ivy JL, Costill DL, Van Handel PJ, et al. Alteration in the lactate threshold with changes in substrate availability. Int J Sports Med 1981; 2: 139–42
Yoshida T. Effect of dietary modifications on lactate threshold and onset of blood lactate accumulation during incremental exercise. Eur J Appl Physiol 1984; 53: 200–5
Clement DB, Smith DRL, MacIntyre JG. et al. Iron status in winter Olympic sports. J Sports Sci 1987; 5: 261–71
Simard C, Tremblay A, Jobin M. Effects of carbohydrate intake before and during an ice hockey game on blood and energy substrates. Res Q Exerc Sport 1988; 59: 144–7
Tegelman R, Aberg T, Pousette A, et al. Effects of a diet regimen on pituitary and steroid hormones in male ice hockey players. Int J Sports Med 1992; 13: 424–30
Lexell J, Henriksson-Larsen K, Sjostrom M, et al. Distribution of different fibre types in human skeletal muscles: a study of cross-sections of whole m. vastus lateralis. Acta Physiol Scand 1983; 117: 115–22
Mahon M, Toman, Willan PLT, et al. Variability of histochemical and morphometric data from needle biopsy specimens of human quadriceps femoris muscle. J Neurol Sci 1984; 63: 85–100
Saltin B, Gollnick PD. Skeletal muscle adaptability: significance for metabolism and performance. In: Peachey LD, Adrian RH, Geiger SR, editors. Handbook of physiology, section 10: skeletal muscle. Bethesda: American Physiological Society 1983: 555–631
Bassett DF, Merrill PN, Nagle FJ, et al. Rate of decline in blood lactate after cycling exercise in endurance-trained and untrained subjects. J Appl Physiol 1991; 70: 1816–20
Koziris LP, Montgomery DL. Blood lactate concentration following intermittent and continuous cycling tests of anaerobic capacity. Eur J Appl Physiol 1991; 63: 273–7
Watson RC, Hanley RD. Application of active recovery techniques for a simulated ice hockey task. Can J Appl Sports Sci 1986; 11: 82–7
Ainsworth BE, Serfass RC, Leon AS. Effects of recovery duration and blood lactate level on power output during cycling. Can J Appl Physiol 1993; 18: 19–30
Belcastro AN, Bonen A, Lactic acid removal rates during controlled and uncontrolled recovery exercise. J Appl Physiol 1975; 39: 932–6
Bonen A, Belcastro AN. Comparison of self-selected recovery methods on lactic acid removal rates. Med Sci Sports Exerc 1976; 8: 176–8
Boileau RA, Misner JE, Dykstra GL, et al. Blood lactic acid removal during treadmill and bicycle exercise at various intensities. J Sports Med 1983; 23: 159–67
Signorile JF, Ingalls C, Tremblay LM. The effects of active and passive recovery on short-term, high intensity power output. Can J Appl Physiol 1993; 18: 31–42
Lorentzon R, Wedren H, Pietila T. Incidence, nature and causes of ice hockey injuries. Am J Sports Med 1988; 16: 392–6
Lorentzon R, Wedren H, Pietila T, et al. Injuries in international ice hockey. Am J Sports Med 1988; 16: 389–91
Posch E, Haglund Y, Eriksson E. Prospective study of concentric and eccentric leg muscle torques, flexibility, physical conditioning, and variation of injury rates during one season of amateur ice hockey. Int J Sports Med 1989; 10: 113–7
Daly PJ, Sim FH, Simonet WT. Ice hockey injuries: a review. Sports Med 1990; 10: 122–31
Morgan JV. Ice hockey injuries. In: Casey MJ, Foster C, Hixson EG, editors. Winter sports medicine. Philadelphia: FA Davis, 1990: 269–74
Tegner Y, Lorentzon R. Ice hockey injuries: incidence, nature and causes. Br J Sports Med 1991; 25: 87–9
Biasca N, Simmen HP, Trentz O. Kopfverletzungen im eishockey am beispiel der National Hockey League, “Hockey Canada” sowie europaischer teams. Unfallchirurg 1993; 96: 259–64
Tator CH. Neck injuries in ice hockey: a recent unsolved problem with many contributing factors. In: Torg JS, editor. Head and neck injuries. Philadelphia: Saunders, 1987: 101–14
Simmen HP, Biasca N, Bartolozzi AR, et al. Epidemiology of typical ice hockey related injuries: survey of North American NHL and Hockey Canada versus European Leagues. Am J Sports Med. In press
Blase K. USA hockey: a vision for the 1990’s In: Grana WA, Lombardo JA, Sharkey JA, et al., editors. Advances in sports medicine and fitness. Chicago: Year Book Medical, 1990: 245–56
McArdle WD, Katch FI, Katch VL. Exercise physiology: energy, nutrition, and human performance, Philadelphia: Lea & Febiger, 1991: 427–8
Takemori JT, Meggyesy D, Lombardo JA. Injury and ethics at the elite level. In: Grana WA, Lombardo JA, Sharkey JA. et al., editors. Advances in sports medicine and fitness. Chicago: Year Book Medical, 1989: 263–72
Troup JP, Richardson AB. Sports medicine delivery systems for the athlete: a single sport model. In: Grana WA, Lombardo JA, Sharkey JA, et al., editors. Advances in sports medicine and fitness. Chicago: Year Book Medical, 1989: 273–86
Flint FA, Weiss MR. Returning injured athletes to competition: a role and ethical dilemma. Can J Sports Sci 1992; 17: 34–40
Corbin CB, Hockey RV. Concepts in physical education with laboratories and experiments. 2nd ed. Dubague, IA: WC Brown Co., 1974
Cox MH, Miler DS. Workplace active living and total quality management: a paradigm for a new corporate culture. In: Quinney HA, editor. Toward active living. Champaign, IL: Human Kinetics, 1994
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Cox, M.H., Miles, D.S., Verde, T.J. et al. Applied Physiology of Ice Hockey. Sports Med 19, 184–201 (1995). https://doi.org/10.2165/00007256-199519030-00004
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DOI: https://doi.org/10.2165/00007256-199519030-00004