The aim of the research was to determine the influence of sprint performance and explosive strength on ball throwing velocity in Goalball. The sample of participants consisted of 12 nationally and internationally ranked Goalball players, with an average age of (25.17±8.03). To evaluate sprint performance, the 5 and 10 meter sprint tests were used. To evaluate explosive strength, the standing long jump and seated medicine ball throw were used. The results of the regression analysis have indicated that the entire system of applied variables is statistically significantly connected and influences ball throwing velocity. At the same time, we evaluated the statistically significant influence of the seated medicine ball throw variable. We can conclude that as part of the fitness training of Goalball players, it is necessary to work on improving sprint performance and explosive strength due to the ability of rapid transition of the players from the defensive phase to the attack phase. It is especially important to develop upper-body explosive strength in order to increase ball throwing velocity and create the possibility for greater effectiveness of Goalball players.

Abdullah, N., Hassan, N.A., Pilus, A.M., & Fauzee, M.S.O. (2018). Comparison of sports-specific test protocol and procedures to identify talent in goalball between students with blind and visual impairment: A preliminary study. In N. Yacob, N. Noor, N. Yunus, R. Yussof & S. Zakaria (Eds). Regional Conference on Science, Technology and Social Sciences (RCSTSS 2016), (pp. 1017-1026). Springer: Singapore.

Atan, T., & Ayca, M. (2015). Effect of goalball sport on physical performance of visually impaired students. Journal of Social Science Research, 7(1), 1206-1212.

Bowerman, S.J., & Davis, R. (2012). Research application. Phases of movement and ball velocity of the goalball throw: A pilot study. Palaestra, 26 (2), 5-7.

Calıskan, E., Pehlivan, A., Erzeybek, M.S., Kayapınar, F.C., Agopyan, A., Yuksel, S., & Dane, S. (2011). Body mass index and percent body fat in goalball and movement education in male and female children with severe visual impairment. Neurology, Psychiatry and Brain Research, 17(2), 39-41.

Castro-Piñero, J., González-Montesinos, J.L., Mora, J., Keating, X.D., Girela-Rejón, M.J., Sjöström, M., et al. (2009). Percentile values for muscular strength field tests in children aged 6 to 17 years: influence of weight status. The Journal of Strength & Conditioning Research, 23(8), 2295-2310.

Çolak, T., Bamaç, B., Aydin, M., Meriç, B., & Özbek, A. (2004). Physical fitness levels of blind and visually impaired goalball team players. Isokinetics and Exercise Science, 12(4), 247-252.

Davis, R.W. (2011). Teaching disability sport: A guide for physical educators, 2nd ed. Champaign: Human Kinetics.

Duthie, G. M., Pyne, D. B., Ross, A. A., Livingstone, S. G., & Hooper, S. L. (2006). The reliability of ten-meter sprint time using different starting techniques. The Journal of Strength & Conditioning Research, 20(2), 246 - 251.

Đorđević, S., Mitrović, N., Zrnzević, J., Kudlaček, M., & Jorgić, B. (2018). Relationship between body composition and postural disorder in goalball athletes: pilot study. TIMS. Acta, 12(1), 17-23.

Ellis, L., Gastin, P., Lawrence, S., Savage, B., Buckeridge, A., Stapff, A., et al. (2000). Protocols for the physiological assessment of team sport players. In C. Gore, Physiological tests for elite athletes (pp. 128-144). Champaign, Illinois: Human Kinetics.

Goulart-Siqueira, G., Benítez-Flores, S., Ferreira, A., Zagatto, A., Foster, C., & Boullosa, D. (2019). Relationships between different field test performance measures in elite goalball players. Sports, 7(1), 2-7.

Hermassi, S., Van den Tillaar, R., Khlifa, R., Chelly, M.S., & Chamari, K. (2015). Comparison of in-season-specific resistance vs. a regular throwing training program on throwing velocity, anthropometry, and power performance in elite handball players. The Journal of Strength & Conditioning Research, 29(8), 2105-2114.

International blind sports federation (2019). Goalball rules and regulations 2018-2020, version 1.2. Retrieved July 25, 2019 from the World Wide Web: http://www.ibsasport.org/sports/files/1008-Rules-2018-2020-IBSA-Goalball-Rules-and-Regulations-(v1.2)-(Effective-1-July-2019).pdf.

Jorgić, B., Aleksandrović, M., Živković, D., Utvić, N., & Popović, I. (2018). An analysis of the statistical parameters of goalball matches which might provide team advantage. In D. Škegro, I. Belčić, G. Sporiš & T. Krističević (Eds.) 12 World Congress of Performance Analysis of Sport, ISPAS (pp. 63-67). Zagreb: Faculty of Kinesiology.

Karakaya, İ.Ç., Aki, E., & Ergun, N. (2009). Physical fitness of visually impaired adolescent goalball players. Perceptual and Motor Skills, 108(1), 129-136.

Karakoc, O. (2016). Muscle strength and flexibility without and with visual impairments judoka's. International Education Studies, 9(5), 12-17.

Link, D., & Weber, C. (2018). Finding the gap: An empirical study of the most effective shots in elite goalball. PloS one, 13(4), 1-11.

Molik, B., Morgulec-Adamowicz, N., Kosmol, A., Perkowski, K., Bednarczuk, G., Skowroński, W., et al. (2015). Game performance evaluation in male goalball players. Journal of Human Kinetics, 48(1), 43-51.

Monezi, L.A., Magalhães, T.P., Morato, M. P., Mercadante, L. A., Furtado, O.L.P.D.C., & Misuta, M.S. (2019). Time-motion analysis of goalball players in attacks: Differences of the player positions and the throwing techniques. Sports Biomechanics, 18(5), 470-481.

Morato, M.P., Gomes, M.S.P., & Almeida, J.J.G. (2012). Os processos auto-organizacionais do goalball (The self-organizations processes of goalball). Revista Brasileira de Cięncias do Esporte, 34(3), 741-760. In Portuguese

Morato, M. P., Menezes, R. P., Fonseca, S., & Furtado, O.L.P.D.C. (2018). Faster balls increase the probability of scoring a goal in female and male elite goalball. Revista Brasileira de Ciências do Esporte, 40(4), 427-434.

dos Santos Alves, I., Kalva-Filho, C.A., Aquino, R., Travitzki, L., Tosim, A., Papoti, M., et al. (2018). Relationships between aerobic and anaerobic parameters with game technical performance in elite goalball athletes. Frontiers in Physiology, 9(1636), 1-10.

Paravlić, A., Aleksandrović, M., Živković, D., Radovanović, D., Madić, D., Đorđević, S., et al. (2015). The effects of exercise programs on visually impaired children: A systematic review study. Facta Universitatis series Physical Education and Sport, 13(2), 193-201.

Scherer, R.L., Karasiak, F. C., da Silva, S.G., & Petroski, É.L. (2012). Morphological profile of goalball athletes. European Journal of Human Movement, 28, 1-13.

Utvić, N., Arsenijević, R., & Lilić, L. (2018). Connection of anthropometric characteristics and motor abilities in the selected shoot speed at goalball: Pilot study. Zbornik radova Učiteljskog fakulteta Prizren-Leposavić, 12, 189-199.

Van den Tillaar, R., & Marques, M.C. (2013). Reliability of seated and standing throwing velocity using differently weighted medicine balls. Journal of Strength & Conditioning Research, 27(5), 1234-123.

Van Rheenen, D. (2016). The blind leading the blind: Goalball as engaged scholarship. Journal of Postsecondary Education and Disability, 29(1), 25-34.

Yeadon, M.R., Kato, T., & Kerwin, D.G. (1999). Measuring running speed using photocells. Journal of Sports Sciences, 17(3), 249-257.