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References 1. Amtmann J., A. Cotton (2005) Strength and conditioning for judo. Natl. Strength Cond. Assoc., 27: 26-31. 2. Arriaza R., M. Leyes (2005) Injury profile in competitive karate: prospective analysis of three consecutive World Karate Championships. Knee Surg. Sports Traumatol. Arthrosc., 13: 603-607. http://dx.doi.org/10.1007/s00167-009-0856-3 3. Bacanac L.R., M. Radovic, A. Veskovic (2007) Frequency of sports injuries depending on gender, age, sports experience, nature of sports and training process. Serbian J. Sports Sci., 1: 122-128. 4

References 1. AGOSTINHO M. F., A. MOREIRA, F. JULIO U, G. S. MARCOLINO, B. M. M. ANTUNES, F. S. LIRA & E. FRANCHINI, 2017. Monitoring internal training load and salivary immune-endocrine responses during an annual judo training periodization. Journal of Exercise Rehabilitation. 13 (1), 68. https://doi.org/10.12965/jer.1732850.425 2. ALMANSBA R., S. STERKOWICZ, K. STERKOWICZ-PRZYBYCIEN & R. BELKACEM, 2010. Maximal oxygen uptake changes during judoist’s periodization training. Arch Budo. 6 (2), 117-122. 3. BASSINI-CAMERON A., E. SWEET, A. BOTTINO, C. BITTAR, C

propaedeutics - basics of judo. Warszawa: AWF Warszawa. [in Polish] 12. Sterkowicz S., Lech G., Pałka T., Tyka A., Sterkowicz- Przybycień K., Szyguła Z. et al. (2011). Body build and body composition vs. physical capacity in young judo contestants compared to untrained subjects. Biology of Sport 28(4), 271-277. 13. Pałka T., Lech G., Tyka A., Sterkowicz-Przybycień K., Sterkowicz S., Cebula A. et al. (2013). Differences in the level of anaerobic and aerobic components of physical capacity in judoists at different age. Archives of Budo 9(3), 195-203. 14. Sterkowicz

Introduction Judo is a high-intensity and complex intermittent combat sport. It has a high demand for technical and tactical skills and requires precision, strength, and speed (power) during the execution of throwing techniques, which must be performed with perfect timing so that the athlete achieves higher competitive performance ( Franchini et al., 2011 a). In international judo competitions, elite athletes perform between 5 to 7 fights interspersed by intervals of 10 to 15 min. This makes it necessary to simultaneously develop aerobic power and capacity for

velocity in elite water polo by specific playing positions. J. Hum. Kinet., 27(1): 31-44. 8. Franchini E., Takito M.Y., Kiss M.A.P.D.M., Sterkowicz S. (2005) Physical fitness and anthropometrical differences between elite and nonelite judo players. Biol. Sport, 22(4): 315-328. 9. Francini E., Huertas J.R., Sterkowicz S., Carratala V., Gutiérrez-García C., Escobar-Molina R. (2011) Anthropometrical profile of elite Spanish judoka: comparative analysis among ages. Arch. Budo, 7(4): 239-245. 10. Gutnik B., Zuoza A., Zuozienė I., Alekrinskis A., Nash D., Scherbina S. (2015

professional sports. NFB is based on feedback, which means that changes in the brain are monitored in real time and can be controlled and modified through training (Thompson, 2003). NFB training is considered an essential element supporting the preparation of athletes, especially in sports such as shooting and archery ( Landers et al., 1991 ), speed skating ( Harvey et al., 2011 ), gymnastics ( Zaichkowsky, 1983 ), judo ( Blumenstein and Orbach, 2012 c; Maszczyk et al., 2018 ), canoeing ( Blumenstein and Bar-Eli, 1998 ), soccer (Wilson et al., 2006), swimming ( Bar-Eli and

References Blais L, Trilles F, Lacouture P. Three-dimensional joint dynamics and energy expenditure during the execution of a judo throwing technique (Morote Seoi Nage). J Sports Sci, 2007; 25(11): 1211-1220 Blais L, Trilles F. The progress achieved by judokas after strength training with a judo-specific machine. J Sports Sci Med, 2006; 5(CSSI-1): 132-135 Bonitch-Domínguez J, Bonitch-Góngora J, Padial P, Feriche B. Changes in peak leg power induced by successive judo bouts and their relationship to lactate production. J Sports Sci, 2010; 28(14): 1527-1534 Bonitch

.1080/13598130902860507. 4. Bishop P., Cureton K., Collins M. (1987) Sex dif­ferences in muscular strength, in equally trained men and women. Ergonomics, 30(4): 675-687. DOI: 10.1080/00140138708969760. 5. Burdukiewicz A., Pietraszewska J., Andrzejewska J., Stachoń A. (2016) Morphological optimization of female combat sports athletes as seen by the anthropologists. Anthropological Review, 79(2): 201-210. DOI: 10.1515/anre-2016-0015. 6. Buśko K., Pastuszak A., Kalka E. (2017) Body composi­tion and somatotype of judo athletes and untrained male students as a reference group for comparison in

the achievement of sport performance in judo. Procedia - Social and Behavioral Sciences, 3rd World Conference on Psychology, Counselling and Guidance. pp. 1242-1249. 9. MORAVEC, R. et al., 2007. Teória a didaktika výkonnostného a vrcholového športu. Bratislava: FTVŠ UK, Slovenská vedecká spoločnosť pre telesnú výchovu a šport. 10. MOSTAFA, I., 2009. Mental processes and their relationship to Tactical behavior for judo player. Search within the requirements for the degree of Doctor of Philosophy in Physical Education E 1430 - 2009. Benha University: Faculty of

References Boguszewska K, Boguszewski D, Buśko K. Special Judo Fitness Test and biomechanics measurements as a way to control of physical fitness in young judoists. Archives of Budo, 2010; 6(4): OA205-209. Manuscript ID: 881273. Buśko K. Economical and optimal pedaling velocity characteristics during maximal and submaximal efforts on cycloergometer. Biol Sport, 2007; 24 (3): 209-226. Buśko K, Nowak A. Changes of maximal muscle torque and maximal power output lower extremities in male judoists during training. Human Movement, 2008; 9 (2): 111-115. Carlock J, Smith