World Karate Federation (WKF): New Kata and Kumite Rules [version 7.1; online]. Available from URL: http://www.wkf.net/images/stories/downloads/KATA%20and%20KUMITE%20COMPETITION%20RULES%207_1%20EFFECTIVE%2001.01.2012.pdf [Accessed 2012 Jan 1].
Artioli GG, Gualano B, Franchini E, et al. Physiological, performance, and nutritional profile of the Brazilian Olympic Wushu (kung-fu) team. J Strength Cond Res 2009; 23(1): 20–5.
Langan-Evans C, Close GL, Morton JP. Making weight in combat sports. Strength Cond J 2011; 33(6): 25–39.
Vanhees L, Lefevre J, Philippaerts R, et al. How to assess physical activity? How to assess physical fitness? Eur J Cardio Prev Rehab 2005; 12: 102–14.
Beekley M, Abe T, Kondo M, et al. Comparison of normalized maximum aerobic capacity and body composition of sumo wrestlers to athletes in combat and other sports. J Sports Sci Med 2006; 5(CSSI): 13–20.
Baker JS, Bell W. Energy expenditure during simulated karate competition. J Hum Mov Stud 1990; 19: 69–74.
Giampietro M, Pujia A, Bertini I. Anthropometric feature and body composition of young athletes practicing karate at high and medium competitive level Acta Diabetol 2003; 40: S145–8.
Durnin JVGA, Rahaman MM. The assessment of the amount of fat in the human body from measurements of skinfold thickness. Br J Nutr 1967; 21: 681–9.
Ravier G, Grappe F, Rouillon JD. Comparison between the maximal variables of velocity, force and power from two analysis methods in the functional assessment of karate. Sci Sports 2003; 18: 134–40.
Ravier G, Grappe F, Rouillon JD. Application of force velocity cycle ergometer test and vertical jump tests in the functional assessment of karate competitor. J Sports Med Phys Fitness 2004; 44: 349–55.
Jackson AS, Pollock ML. Generalized equations for predicting body density of men. Br J Nutr 1978; 40: 497–504.
Francescato MP, Talon T, di Prampero PE. Energy cost and energy sources in karate. Eur J Appl Physiol Occup Physiol 1995; 71: 355–61.
Brozek J, Grande F, Anderson JT, et al. Densitometric analysis of body composition: revision of some quantitative assumptions. Ann NY Acad Sci 1963; 110: 113–40.
Imamura H, Yoshimura Y, Uchida K, et al. Heart rate, blood lactate responses and rating of perceived exertion to 1,000 punches and 1,000 kicks in collegiate karate practitioners. Appl Hum Science 1997; 16(1): 9–13.
Ravier G, Dugue B, Grappe F, et al. Maximal accumulated oxygen deficit and blood responses of ammonia, lactate and pH after anaerobic test: a comparison between international and national elite karate athletes. Int J Sports Med 2005; 27: 810–7.
Rodrigues Ferreira MA, Vences Brito A. Electromechanical delay in ballistic movement of superior limb: comparison between karate athletes and nonathletes. Percept Motor Skill 2010; 111(3): 722–34.
Siri WB. The gross composition of the body. In: Tobias CA, Lawrence JH, editors. Advances in biological and medical physics. Vol 4. New York (NY): Academic Press, 1956: 239–80.
Steven Baker SJ, Davies B. Variation in resistive force selection during brief high intensity cycle ergometry: implication for power assessment and production in elite karate pratctitioners. J Sports Sci Med 2006; 5(CSSI): 42–6.
Imamura H, Yoshimura Y, Uchida K, et al. Maximal oxygen uptake, body composition and strength of highly competitive and novice karate practitioners. Appl Human Science 1998; 17(5): 215–8.
Siri WE. Body volume measurement by gas dilution. In: Brozek J, Henschel A, editors. Techniques for measurement body composition. Washington, D C: National Academy of Science, National Research Council, 1961: 108–17.
Amusa L, Onyewadume I. Anthropometry, body composition and somatotypes of Botswana national karate players: a descriptive study. Acta Kines Univ Tart 2001; 6: 7–14.
Keys A, Brozek J. Body fat in adult man. Physiol Rev 1953; 33: 245–325.
Sterkowicz-Przybycien KL. Body composition and somatotype of the top Polish male karate contestants. Biol Sport 2010; 27: 195–201.
Jackson AS, Pollock ML. Practical assessment of body composition. Phys Sports Med 1985; 13: 76–90.
Sloan AW, Weir JB. Nomograms for prediction of body density and total body fat from skinfold measurement. J Appl Physiol 1970; 28: 221–2.
Jackson AS, Pollock ML, Ward A. Generalized equations for predicting body density of women. Med Sci Sports Exerc 1980; 12(3): 175–82.
Shaw DK, Deutsch DT. Heart rate and oxygen uptake response to performance of karate kata. J Sports Med 1982; 22(4): 461–7.
Rossi L, Tirapegui J. Avaliacao anthropometrica de atletas de Karate. R.bras. Ci e Mov 2007; 15(3): 39–46.
Imamura H, Yoshimura Y, Uchida K, et al. Heart rate response and perceived exertion during twenty consecutive karate sparring matches. Aust J Sci Med Sport 1996 Dec; 28(4): 114–5.
Lutoslawska G, Borkowski L, Krawczyk B, et al. Changes in concentration of plasma inorganic phosphate, uric acid and blood lactate in response to supramaximal arm exercise in karate athletes. Biol Sport 1996; 13(2): 99–103.
Roschel H, Batista M, Monteiro R, et al. Association between neuromuscular tests and kumite performance on the Brazilian Karate National Team. J Sports Sci Med 2009; 8(CSSI 3): 20–4.
Katic R, Blazevic S, Krstulovic S, et al. Morphological structure of elite karateka and their impact on technical and fighting efficiency. Coll Anthropol 2005; 29(1): 79–84.
Sinning WE. Body composition and athletic performance. In: Clarke DH, Eckert HM, editors. Limits of human performance (the academy papers, 18). Champaign (IL): Human Kinetics, 1985: 45–56.
Pieter W, Bercades TL. Somatotype of national elite combative sport athletes. Braz J Biomotricity 2009; 3(1): 21–30.
Fritzschel J, Raschka C. Sports anthropological investigation on somatotype of elite karateka. Anthropol Anz 2007; 65(3): 317–29.
Andreoli A, Monteleone M, Van Loan M, et al. Effects of different sports on bone density and muscle mass in highly trained athletes. Med Sci Sports Exerc 2000; 33(4): 507–11.
Drozdzowska B, Munzer U, Adamczyk P, et al. Skeletal status assessed by quantitative ultrasound at the hand phalanges in karate training males. Ultrasound Med Biol 2011; 37(2): 214–9.
Prouteau S, Pelle A, Collump K, et al. Bone density in elite judoists and effects of weight cycling on bone metabolic balance. Med Sci Sports Exerc 2006; 38(4): 694–700.
Pieter W, Bercades LT, Kim GD. Relative total body fat and skinfold patterning in Fillipino national combat sport athletes. J Sports Sci Med. 2006; 5(CSSI): 35–41.
American College of Sports Medicine (ACSM). Resource manual for guidelines for exercise testing and prescription. 7th ed. Philadelphia (PA): Lippincott William and Wilkins, 2006.
Impellizzeri F, Marcora S. The physiology of mountain biking. Sports Med 2007; 37(1): 59–71.
Imamura H, Yoshimura Y, Nishimura S, et al. Oxygen uptake, heart rate, and blood lactate responses during and following karate training. Med Sci Sports Exerc 1999; 2: 342–7.
Imamura H, Yoshimura Y, Nishimura S, et al. Oxygen uptake, heart rate and blood lactate responses during 1,000 punches and 1,000 kicks in female collegiate karate practitioners. J Physiol Anthropol 2003; 22(2): 111–4.
Doria C, Veicsteinas A, Limonta E, et al. Energitics of karate (kata and kumite techniques) in top-level athletes. Eur J Appl Physiol 2009; 107: 603–10.
Ravier G, Dugue B, Grappe F, et al. Impressive anaerobic adaptations in elite karate athletes due to few intensive intermittent sessions added to regular karate training. Scand J Med Sci Sports 2009; 19: 687–94.
Yoshimura Y, Imamura H. Effects of basic karate exercises on maximal oxygen uptake in sedentary collegiate women. J Health Sci 2010; 56(6): 721–6.
Zehr EP, Sale DG. Oxygen uptake, heart rate and blood lactate responses to the chito-ryu seisan kata in skilled karate practitioners. Int J Sports Med 1993; 14: 269–74.
Iide K, Imamura H, Yoshimura Y, et al. Physiological responses of simulated karate sparring matches in young men and boys. J Strength Cond Res 2008; 22(3): 839–44.
Astrand PO, Rodahl K. Textbook of work physiology. New York (NY): McGraw-Hill, 1977.
Astrand PO, Saltin B. Maximal oxygen uptake and heart rate in various type of muscular activity. J App Physiol 1961; 16: 977–81.
Bouhlel E, Jouini A, Gmada N, et al. Heart rate and blood lactate responses during Taekwondo training and competition. Sci Sports 2006; 21: 285–90.
Butios S, Tasika N. Changes in heart rate and blood lactate concentration as intensity parameters during simulated Taekwondo competition. J Sports Med Phys Fitness 2007; 47: 179–85.
Yoon J. Physiological profiles of elite senior wrestlers. Sports Med 2002; 32(4): 225–33.
Smith M. Physiological profile of senior and junior England international amateur boxer. J Sports Sci Med 2006; 5(CSSI): 74–89.
Campos FAD, Bertuzzi R, Dourado AC, et al. Energy demands in taekwondo athletes during combat simulation. Eur J Appl Physiol 2012; 112(4): 1221–8.
Beneke R, Beyer T, Jachner C, et al. Energetics of karate kumite. Eur J Appl Physiol 2004; 92: 518–23.
Koropanovski N, Berjan B, Bozic PR, et al. Anthropometric and physical performance profiles of elite karate kumite and kata competitors. J Hum Kinet 2011; 30: 107–14.
Léger LA, Mercier D, Gadoury C, et al. The multistage 20 metre shuttle run test for aerobic fitness. J Sports Sci 1988; 6: 93–101.
Chamari K, Moussa-Chamari I, Boussaïdi L, et al. Appropriate interpretation of aerobic capacity: allometric scaling in adult and young soccer players. Br J Sports Med 2005; 39(2): 97–101.
Funakoshi G. Karate Do Kyohan (the Master text) [in Japanese]. Tokyo: Kodansha International Ltd., 1973: 3–14.
Liyama K. Karatedo. Notto Shoin [in Japanese]. Tokyo, 1973: 18–20.
Chaabene H, Hachana Y, Franchini E, et al. Reliability and construct validity of the karate-specific aerobic test. J Strength Cond Res. Epub 2012 Feb 15.
Chaabène H, Hachana Y, Attia A, et al. Relative and absolute reliability of the karate specific aerobic test (KSAT) in experienced male athletes. Biol Sport 2012; 29: 211–15.
Glaister M. Multiple sprint work: physiological responses, mechanisms of fatigue and influence of aerobic fitness. Sports Med 2005; 35(9): 757–77.
Buśko K, Wit B. Force-velocity relationship of lower extremity muscles of karate athletes and rowers. Biol Sport 2002; 19(4): 373–84.
Gaitanos GC, Williams C, Boobis LH, et al. Human muscle metabolism during intermittent maximal exercise. J Appl Physiol 1993; 75(2): 712–9.
Granier P, Mercier B, Mercier J, et al. Aerobic and anaerobic contribution to Wingate test performance in sprint and middle-distance runners. Eur J Appl Physiol 1995; 70(1): 58–65.
Medbo JI, Mohn AC, Tabata I, et al. Anaerobic capacity determined by maximal accumulated O2 deficit. J Appl Physiol 1988; 64: 50–60.
Blazevic S, Katic R, Popovic D. The effect of motor abilities on karate performance. Coll Antropol 2006; 30(2): 327–33.
Katic R, Blazevic S, Zagorac N. The impact of basic motor abilities on the specific motoricity performance in elite karateka. Coll Antropol 2010; 34(4): 1341–5.
Zehr EP, Sale DG, Dowling JJ. Ballistic movement performance in karate athletes. Med Sci Sports Exerc 1997; 29(10): 1366–73.
Pozo J, Bastien G, Dierick F. Execution time, kinetics, and kinematics of the maegeri kick: comparison of national and international standard karate athletes. J Sports Sci 2011; 29(14): 1553–61.
Sbriccoli P, Camomilla V, Di Mario A, et al. Neuromuscular control adaptations in elite athletes: the case of top level karateka. Eur J Appl Physiol 2010; 108(6): 1269–80.
Fry AC, Newton RU. A brief history of strength training and basic principles and concepts. In: Kraemer WJ, Häk-kinen K, editors. Strength training for sport. Oxford: Blackwell Science Ltd, 2002: 1–19.
Toskovic NN, Blessing D, Williford HN. Physiologic profile of recreational male and female novice and experienced TaeKwon Do practitioners. J Sports Med Phys Fitness 2004; 44: 164–72.
Probst MM, Fletcher R, Seelig DS. A comparison of lower-body flexibility, strength, and knee stability between karate athletes and active controls. J Strength Cond Res 2007; 21(2): 451–5.
Fleissman E. The analysis of speed, flexibility, balance and coordination test: the structure and measurement of physical fitness. Englewood Cliffs (NJ): Prentice Hall, 1964, 85–100.
Pate R, Shephard R. Characteristics of physical fitness in youth. In: Gisolfi C, Lamb DR, editors. Perspective in exercise and sports medicine. Vol. 2: youth exercise and sport. Indianapolis (IN): Benchmark Press, 1989; 1–45.
McHugh MP, Nesse M. Effect of stretching on strength loss and pain after eccentric exercise. Med Sci Sports Exerc 2008; 40(3): 566–73.
Smith CA. The warm-up procedure: to stretch or not to stretch a brief review. J Orthop Sports Phys Ther 1994; 19: 12–7.
Shirely M. The taekwondo side kick: a kinesiological analysis with strength and conditioning principles. Nat Strength Cond Assoc J 1992; 14 (7–8); 72–7.
Violan MA, Small WE, Zetaruk MN, et al. The effect of karate training on flexibility, muscle strength, and balance in 8- to- 13 years-old boys. Pediat Exerc Sci 1997; 9: 55–64.
Anderson B, Burk ER. Scientific, medical and practical aspects of stretching. Clin Sports Med 1991; 10: 63–86.
Mori S, Ohtani Y, Imanaka K. Reaction time and anticipatory skills of karate athletes. Hum Mov Science 2002; 21 (2) 213–30.
Layton C. Reaction+movement-time and sidedness in shotokan karate students. Percept Motor Skill 1993; 76: 765–6.
Fontani G, Lodi L, Felici A, et al. Attention in athletes of high and low experienced engaged in different open skill sport. Percept Motor skill 2006; 102: 791–805.
Williams AM, Elliott D. Anxiety, expertise and visual search strategy in karate. J Sport Exerc Psycho 1999; 21: 362–75.
Neto PO, Bolander R, Tavares Pacheko MT, et al. Force, reaction time and precision of kung-fu strikes. Percept Motor Skill 2009; 109: 295–303.
Lee JB, Matsumoto T, Othman T, et al. Coactivation of the flexor muscle as a synergist with the extensor during ballistic finger extension movement in trained Kendo and karate athletes. Inter J Sports Med 1999; 20: 7–11.