Research Article
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Year 2023, , 67 - 76, 30.03.2023
https://doi.org/10.31459/turkjkin.1203374

Abstract

References

  • Adlerton, A. K., Moritz, U., & Moe-Nilssen, R. (2003). Force plate and accelerometer measures for evaluating the effect of muscle fatigue on postural control during one-legged stance. Physiother Res Int, 8, 187-199.
  • Akça, F., Çekin, R., & Ziyagil, M.A. (2015). Effects of hand dominance on overarm shooting accuracy in young males. CBÜ-BESBD, 10(2), 1-8.
  • Bale, P., & Scholes, S. (1986). Lateral dominance and basketball performance. J Hum Mov Stud, 12(1), 145-151.
  • Barone, R., Macaluso, F., Traina, M., Leonardi, V., Farina, F., & Di Felice, V. (2011). Soccer players have a better standing balance in nondominant one-legged stance. Open Access J Sports Med, 2, 1-6.
  • Belmont L., & Birch, H. G. (1963). Lateral dominance and right-left awareness in normal children. Child Dev, 34, 257-70.
  • Bigoni, M., Turati, M., Gandolla, M., Augusti, C. A., Pedrocchi, A., La Torre, A., Piatti, M., & Gaddi, D. (2017). Balance in young male soccer players: Dominant versus non-dominant leg. Sport Sci Health, 13(2), 253-258.
  • Booysen, M. J., Gradidge, P. J. L., & Watson, E. (2015). The relationships of eccentric strength and power with dynamic balance in male footballers. J Sports Sci, 33(20), 2157-2165.
  • Cachupe, W., Shifflett, B., Kahanov, L., & Wughalter, E. (2001). Reliability of Biodex Balance System measures. Meas Phys Educ Exerc Sci, 5(2), 97-108.
  • Chew-Bullock, T. S., Anderson, D. I., Hamel, K. A., Gorelick, M. L., Wallace, S. A., & Sidaway, B. (2012). Kicking performance in relation to balance ability over the support leg. Hum Mov Sci, 31, 1615-1623.
  • Dane, Ş., & Balcı, N. (2007). Handedness, eyedness and nasal cycle in children with autism. Int J Neurosci, 25(4), 223-226.
  • Erkmen, N., Suveren, S., Göktepe, A. S., & Yazicioğlu, K. (2007). The comparison of balance performance of the athletes who are in different branches. Spormetre the Journal of Physical Education and Sports Sciences, 5(3), 115-122.
  • Fransson, P. A., Kristinsdottri, E. K., Hafstrom, A., Magnusson, M. & Johansson, R. (2004). Balance control and adaptation during vibratory perturbations in middle-aged and elderly humans. European J Appl Physiol, 91, 595–603.
  • Gabbard, C. (1993). Foot laterality during childhood: A review. Int J Neurosci, 72, 175-182.
  • Gabbard, C., & Bonfigli D., (1999). Foot laterality in four-year olds. Percept Mot Ski, 65, 943-946.
  • Gentry, V., & Gabbard, C. (1995). Foot-preference behavior: a developmental perspective. J Gen Psychol, 122(1), 37-45.
  • Gerbino, P. G., Griffin, E. D., & Zurakowski, D. (2007). Comparison of standing balance between female collegiate dancers and soccer players. Gait & posture, 26(4), 501-507.
  • Gstöttner, M., Neher, A., Scholtz, A., Millonig, M., Lembert, S., & Raschner, C. (2009). Balance ability and muscle response of the preferred and non-preferred leg in soccer player. Motor Control, 13, 218-231.
  • Gurfinkel, V. S., Ivanenko, Y. P., Levik, Y. S., & Babakova, I. A. (1995). Kinesthetic reference for human orthograde posture. Neuroscience, 68(1), 229-243.
  • Hinman, M.R. (2009). Factors affecting reliability of the Biodex Balance System; a summary of four studies. J Sports Rehabil, 9, 240-252.
  • Huurnink, A., Fransz, D. P., Kingma, I., Hupperets, M. D., & van Dieën, J. H. (2014). The effect of leg preference on postural stability in healthy athletes. J Biomech, 47(1), 308-312.
  • İmamoğlu, O., & Kilcigil, E. (2007). Left-handedness issue at reaction time, vital capacity values and lateralization distribution of junior football players in Turkey. Spormetre Journal of Physical Education and Sports Sciences, 5(3), 95-100.
  • Iwańska, D. A. G. M. A. R. A., Karczewska, M., Madej, A., & Urbanik, C. (2015). Symmetry of proprioceptive sense in female soccer players. Acta Bioeng Biomech, 17(2), 155-163.
  • Jadczak, L., Grygorowicz, M., Dzudzinski, W., & Sliwowski, R. (2019). Comparison of static and dynamic balance at different levels of sport competition in professional and junior elite soccer players. J Strength Cond Res, 33(12), 3384-3391.
  • Karadağ, A., Karadağ, M., Gür, E., & Karadağ, T.F. (2010). The investigation of verbal and practical leg preference of young adults. Fırat University Medical Journal of Health Sciences, 24(3), 185-191.
  • Kellis, S., Gerodimos, V., Kellis, E. & Manou, V. (2001). Bilateral isokinetic concentric and eccentric strength profiles of the knee extensors and flexors in young soccer players. Isokinet Exerc, Sci, 9, 31–39.
  • Knight, A. C., Holmes, M. E., Chander, H., Kimble, A., & Stewart, J. T. (2016). Assessment of balance among adolescent track and field athletes. Sports Biomech, 15(2), 169-179.
  • Matsuda, S., Demura, S., & Uchiyama, M. (2008). Centre of pressure sway characteristics during static one-legged stance of athletes from different sports. J Sports Sci, 26(7), 775-779.
  • McCurdy, K., & Langford, G. (2006). The relationship between maximum unilateral squat strength and balance in young adult men and women. J Sports Sci Med, 5, 282-288.
  • Muehlbauer, T., Mettler, C., Roth, R., & Granacher, U. (2014). One-leg standing performance and muscle activity: Are there limb differences. J Appl Biomech, 30(3), 407-414.
  • Nashner, L. M., Black, F. O., & Wall, C. I. I. I. (1982). Adaptation to altered support and visual conditions during stance: Patients with vestibular deficits. J Neurosci Res, 2(5), 536-544.
  • Öztaşan, N., & Kutlu, N. (2014). Associations among ratio of digit lengths (2d: 4d), hand preferences, nonverbal intelligence, visual, auditory and verbal ability, motor skill and cerebral lateralization in healthy persons. BAUN Health Sci J, 3(1), 11-15.
  • Paillard, T. H., & Noé, F. (2006). Effect of expertise and visual contribution on postural control in soccer. Scand J Med Sci Sports, 16(5), 345-348.
  • Paillard, T., Noe, F., Riviere, T., Marion, V., Montoya, R., & Dupui, P. (2006). Postural performance and strategy in the unipedal stance of soccer players at different levels of competition. J Athl Train, 41(2), 172-176.
  • Pençe, S. (2000). Cerebral lateralization. Van Med J, 7(3), 120-125.
  • Promsri, A., Haid, T., & Federolf, P. (2018). How does lower limb dominance influence postural control movements during single leg stance? Hum Mov Sci, 58, 165-174.
  • Promsri, A., Haid, T., & Federolf, P. (2020). Complexity, composition, and control of bipedal balancing movements as the postural control system adapts to unstable support surfaces or altered feet positions. Neurosci, 430, 113-124.
  • Promsri, A., Haid, T., Werner, I., & Federolf, P. (2020). Leg dominance effects on postural control when performing challenging balance exercises. Brain Sci, 10(3), 128.
  • Przybyla, A., Coelho, C. J., Akpinar, S., Kirazci, S., & Sainburg, R. L. (2013). Sensorimotor performance asymmetries predict hand selection. Neurosci, 228, 349-360.
  • Ramirez-Campillo, R., Burgos, C. H, Henriquez-Olguin, C, Andrade, DC, Martinez, C, Alvarez, C, Castro-Sepulveda, M, Marques, MC, Izquierdo, M. (2015). Effect of unilateral, bilateral, and combined plyometric training on explosive and endurance performance of young soccer players. J Strength Cond Res, 29, 1317–1328.
  • Rein, S, Fabian, T, Weindel, S, Schneiders, W, & Zwipp, H. (2011). The influence of playing level on functional ankle stability in soccer players. Arch Orthop Trauma Surg, 131, 1043-1052.
  • Schorderet, C., Hilfiker, R., & Allet, L. (2021). The role of the dominant leg while assessing balance performance. A systematic review and meta-analysis. Gait & posture, 84, 66-78.
  • Shumway-Cook A., & Woollacott M. (1995). Motor control: theory and practical applications. Baltimore: Williams & Wilkins.
  • Shumway-Cook, A., & Horak, F. B. (1986). Assessing the influence of sensory interaction on balance: Suggestion from the field. Physical Therapy, 66(10), 1548-1550.
  • Soysal, A. Ş., Arhan, E., Aktürk, A., & Handan, C. A. N. (2007). Hand dominance and factors determining hand dominance. Turk J Pediatr Dis, 1(2), 60-68.
  • Spry, S., Zebas, C., & Visser, M. (1993). What is leg dominance? Biomechanics in Sport XI. Proceedings of the XI Symposium of the International Society of Biomechanics in Sports. MA: Amherst.
  • Tan, U. (1985). Left-right differences in the Hoffmann reflex recovery curve associated with handedness in normal subjects. J Psychophysiol, 3(1), 75-78.
  • Tat, H. (1999). Effects of lateralization on the handgrip strength and reaction time of male and females. Master Thesis, Ondokuz Mayıs University, Institute of Health Sciences, Samsun, Türkiye.
  • Teixeira, L.A., Oliveira, D.L., Romano, R.G., & Correa, S.C. (2011). Leg preference and interlateral asymmetry of balance stability in soccer players. Res Q Exerc Sport, 82, 21-27.
  • Velotta, J., Weyer, J., Ramirez, A., Winstead, J., Bahamonde, R. (2011). Relationship between leg dominance tests and type of task. J Sport Sci, 11, 1035-1038.
  • Vuillerme, N., Pinsault, N., & Vaillant, J. (2005). Postural control during quiet standing following cervical muscular fatigue: effects of changes in sensory inputs. Neurosci Lett, 378, 135–139.
  • Whittington, J. E., & Richards, P. N. (1987). The stability of children's laterality prevalences and their relationship to measures of performance. Br J Educ Psychol, 57(1), 45-55.
  • Yanci, J., & Camara, J. (2016). Bilateral and unilateral vertical ground reaction forces and leg asymmetries in soccer players. Biol Sport, 33(2), 179-183.
  • Yazıcı, A.G., Özdemir, K., & Engin, A.O. (2020). The investigation of problem-solving abilities of right- and left-handed athletes according to some variables. Int J Sport Exerc Psychol, 2(2), 67-74.

Effects of foot preference on postural control in soccer players

Year 2023, , 67 - 76, 30.03.2023
https://doi.org/10.31459/turkjkin.1203374

Abstract

A soccer player often uses the dominant leg during activities and the non-dominant leg is used to support body weight. This may have different effects on the postural control between the dominant and non-dominant legs in soccer players. Detection of a possible asymmetry in postural control is important because a bilateral difference may be a contributing factor to injury. This study aimed to compare the postural control performances of right- and left-footed amateur soccer players; secondly, it aimed to address the postural control differences between the dominant and non-dominant legs of soccer players. Twenty-four healthy male soccer players were divided into two different groups (right foot dominant = 12, left foot dominant = 12). Dynamic postural control scores of soccer players in dominant and non-dominant single-stances were measured under two sensory conditions (eyes open and eyes closed) using the Biodex Balance System. In the comparison of two independent groups according to the normality distribution, the t-test and Mann-Whitney U test were used for independent samples. The t-test for dependent samples and the Wilcoxon test were used to compare dependent groups. The results of the study; whether the players are right-footed or left-footed in both eye-open and eye-closed conditions does not affect their postural control performance; showed that the postural control performance of the dominant leg was higher than the non-dominant leg in the eye-open condition of all soccer players regardless of right and left legs. Therefore, it was determined that leg dominance exhibited a symmetrical performance in terms of postural control.

References

  • Adlerton, A. K., Moritz, U., & Moe-Nilssen, R. (2003). Force plate and accelerometer measures for evaluating the effect of muscle fatigue on postural control during one-legged stance. Physiother Res Int, 8, 187-199.
  • Akça, F., Çekin, R., & Ziyagil, M.A. (2015). Effects of hand dominance on overarm shooting accuracy in young males. CBÜ-BESBD, 10(2), 1-8.
  • Bale, P., & Scholes, S. (1986). Lateral dominance and basketball performance. J Hum Mov Stud, 12(1), 145-151.
  • Barone, R., Macaluso, F., Traina, M., Leonardi, V., Farina, F., & Di Felice, V. (2011). Soccer players have a better standing balance in nondominant one-legged stance. Open Access J Sports Med, 2, 1-6.
  • Belmont L., & Birch, H. G. (1963). Lateral dominance and right-left awareness in normal children. Child Dev, 34, 257-70.
  • Bigoni, M., Turati, M., Gandolla, M., Augusti, C. A., Pedrocchi, A., La Torre, A., Piatti, M., & Gaddi, D. (2017). Balance in young male soccer players: Dominant versus non-dominant leg. Sport Sci Health, 13(2), 253-258.
  • Booysen, M. J., Gradidge, P. J. L., & Watson, E. (2015). The relationships of eccentric strength and power with dynamic balance in male footballers. J Sports Sci, 33(20), 2157-2165.
  • Cachupe, W., Shifflett, B., Kahanov, L., & Wughalter, E. (2001). Reliability of Biodex Balance System measures. Meas Phys Educ Exerc Sci, 5(2), 97-108.
  • Chew-Bullock, T. S., Anderson, D. I., Hamel, K. A., Gorelick, M. L., Wallace, S. A., & Sidaway, B. (2012). Kicking performance in relation to balance ability over the support leg. Hum Mov Sci, 31, 1615-1623.
  • Dane, Ş., & Balcı, N. (2007). Handedness, eyedness and nasal cycle in children with autism. Int J Neurosci, 25(4), 223-226.
  • Erkmen, N., Suveren, S., Göktepe, A. S., & Yazicioğlu, K. (2007). The comparison of balance performance of the athletes who are in different branches. Spormetre the Journal of Physical Education and Sports Sciences, 5(3), 115-122.
  • Fransson, P. A., Kristinsdottri, E. K., Hafstrom, A., Magnusson, M. & Johansson, R. (2004). Balance control and adaptation during vibratory perturbations in middle-aged and elderly humans. European J Appl Physiol, 91, 595–603.
  • Gabbard, C. (1993). Foot laterality during childhood: A review. Int J Neurosci, 72, 175-182.
  • Gabbard, C., & Bonfigli D., (1999). Foot laterality in four-year olds. Percept Mot Ski, 65, 943-946.
  • Gentry, V., & Gabbard, C. (1995). Foot-preference behavior: a developmental perspective. J Gen Psychol, 122(1), 37-45.
  • Gerbino, P. G., Griffin, E. D., & Zurakowski, D. (2007). Comparison of standing balance between female collegiate dancers and soccer players. Gait & posture, 26(4), 501-507.
  • Gstöttner, M., Neher, A., Scholtz, A., Millonig, M., Lembert, S., & Raschner, C. (2009). Balance ability and muscle response of the preferred and non-preferred leg in soccer player. Motor Control, 13, 218-231.
  • Gurfinkel, V. S., Ivanenko, Y. P., Levik, Y. S., & Babakova, I. A. (1995). Kinesthetic reference for human orthograde posture. Neuroscience, 68(1), 229-243.
  • Hinman, M.R. (2009). Factors affecting reliability of the Biodex Balance System; a summary of four studies. J Sports Rehabil, 9, 240-252.
  • Huurnink, A., Fransz, D. P., Kingma, I., Hupperets, M. D., & van Dieën, J. H. (2014). The effect of leg preference on postural stability in healthy athletes. J Biomech, 47(1), 308-312.
  • İmamoğlu, O., & Kilcigil, E. (2007). Left-handedness issue at reaction time, vital capacity values and lateralization distribution of junior football players in Turkey. Spormetre Journal of Physical Education and Sports Sciences, 5(3), 95-100.
  • Iwańska, D. A. G. M. A. R. A., Karczewska, M., Madej, A., & Urbanik, C. (2015). Symmetry of proprioceptive sense in female soccer players. Acta Bioeng Biomech, 17(2), 155-163.
  • Jadczak, L., Grygorowicz, M., Dzudzinski, W., & Sliwowski, R. (2019). Comparison of static and dynamic balance at different levels of sport competition in professional and junior elite soccer players. J Strength Cond Res, 33(12), 3384-3391.
  • Karadağ, A., Karadağ, M., Gür, E., & Karadağ, T.F. (2010). The investigation of verbal and practical leg preference of young adults. Fırat University Medical Journal of Health Sciences, 24(3), 185-191.
  • Kellis, S., Gerodimos, V., Kellis, E. & Manou, V. (2001). Bilateral isokinetic concentric and eccentric strength profiles of the knee extensors and flexors in young soccer players. Isokinet Exerc, Sci, 9, 31–39.
  • Knight, A. C., Holmes, M. E., Chander, H., Kimble, A., & Stewart, J. T. (2016). Assessment of balance among adolescent track and field athletes. Sports Biomech, 15(2), 169-179.
  • Matsuda, S., Demura, S., & Uchiyama, M. (2008). Centre of pressure sway characteristics during static one-legged stance of athletes from different sports. J Sports Sci, 26(7), 775-779.
  • McCurdy, K., & Langford, G. (2006). The relationship between maximum unilateral squat strength and balance in young adult men and women. J Sports Sci Med, 5, 282-288.
  • Muehlbauer, T., Mettler, C., Roth, R., & Granacher, U. (2014). One-leg standing performance and muscle activity: Are there limb differences. J Appl Biomech, 30(3), 407-414.
  • Nashner, L. M., Black, F. O., & Wall, C. I. I. I. (1982). Adaptation to altered support and visual conditions during stance: Patients with vestibular deficits. J Neurosci Res, 2(5), 536-544.
  • Öztaşan, N., & Kutlu, N. (2014). Associations among ratio of digit lengths (2d: 4d), hand preferences, nonverbal intelligence, visual, auditory and verbal ability, motor skill and cerebral lateralization in healthy persons. BAUN Health Sci J, 3(1), 11-15.
  • Paillard, T. H., & Noé, F. (2006). Effect of expertise and visual contribution on postural control in soccer. Scand J Med Sci Sports, 16(5), 345-348.
  • Paillard, T., Noe, F., Riviere, T., Marion, V., Montoya, R., & Dupui, P. (2006). Postural performance and strategy in the unipedal stance of soccer players at different levels of competition. J Athl Train, 41(2), 172-176.
  • Pençe, S. (2000). Cerebral lateralization. Van Med J, 7(3), 120-125.
  • Promsri, A., Haid, T., & Federolf, P. (2018). How does lower limb dominance influence postural control movements during single leg stance? Hum Mov Sci, 58, 165-174.
  • Promsri, A., Haid, T., & Federolf, P. (2020). Complexity, composition, and control of bipedal balancing movements as the postural control system adapts to unstable support surfaces or altered feet positions. Neurosci, 430, 113-124.
  • Promsri, A., Haid, T., Werner, I., & Federolf, P. (2020). Leg dominance effects on postural control when performing challenging balance exercises. Brain Sci, 10(3), 128.
  • Przybyla, A., Coelho, C. J., Akpinar, S., Kirazci, S., & Sainburg, R. L. (2013). Sensorimotor performance asymmetries predict hand selection. Neurosci, 228, 349-360.
  • Ramirez-Campillo, R., Burgos, C. H, Henriquez-Olguin, C, Andrade, DC, Martinez, C, Alvarez, C, Castro-Sepulveda, M, Marques, MC, Izquierdo, M. (2015). Effect of unilateral, bilateral, and combined plyometric training on explosive and endurance performance of young soccer players. J Strength Cond Res, 29, 1317–1328.
  • Rein, S, Fabian, T, Weindel, S, Schneiders, W, & Zwipp, H. (2011). The influence of playing level on functional ankle stability in soccer players. Arch Orthop Trauma Surg, 131, 1043-1052.
  • Schorderet, C., Hilfiker, R., & Allet, L. (2021). The role of the dominant leg while assessing balance performance. A systematic review and meta-analysis. Gait & posture, 84, 66-78.
  • Shumway-Cook A., & Woollacott M. (1995). Motor control: theory and practical applications. Baltimore: Williams & Wilkins.
  • Shumway-Cook, A., & Horak, F. B. (1986). Assessing the influence of sensory interaction on balance: Suggestion from the field. Physical Therapy, 66(10), 1548-1550.
  • Soysal, A. Ş., Arhan, E., Aktürk, A., & Handan, C. A. N. (2007). Hand dominance and factors determining hand dominance. Turk J Pediatr Dis, 1(2), 60-68.
  • Spry, S., Zebas, C., & Visser, M. (1993). What is leg dominance? Biomechanics in Sport XI. Proceedings of the XI Symposium of the International Society of Biomechanics in Sports. MA: Amherst.
  • Tan, U. (1985). Left-right differences in the Hoffmann reflex recovery curve associated with handedness in normal subjects. J Psychophysiol, 3(1), 75-78.
  • Tat, H. (1999). Effects of lateralization on the handgrip strength and reaction time of male and females. Master Thesis, Ondokuz Mayıs University, Institute of Health Sciences, Samsun, Türkiye.
  • Teixeira, L.A., Oliveira, D.L., Romano, R.G., & Correa, S.C. (2011). Leg preference and interlateral asymmetry of balance stability in soccer players. Res Q Exerc Sport, 82, 21-27.
  • Velotta, J., Weyer, J., Ramirez, A., Winstead, J., Bahamonde, R. (2011). Relationship between leg dominance tests and type of task. J Sport Sci, 11, 1035-1038.
  • Vuillerme, N., Pinsault, N., & Vaillant, J. (2005). Postural control during quiet standing following cervical muscular fatigue: effects of changes in sensory inputs. Neurosci Lett, 378, 135–139.
  • Whittington, J. E., & Richards, P. N. (1987). The stability of children's laterality prevalences and their relationship to measures of performance. Br J Educ Psychol, 57(1), 45-55.
  • Yanci, J., & Camara, J. (2016). Bilateral and unilateral vertical ground reaction forces and leg asymmetries in soccer players. Biol Sport, 33(2), 179-183.
  • Yazıcı, A.G., Özdemir, K., & Engin, A.O. (2020). The investigation of problem-solving abilities of right- and left-handed athletes according to some variables. Int J Sport Exerc Psychol, 2(2), 67-74.
There are 53 citations in total.

Details

Primary Language English
Subjects Sports Science and Exercise
Journal Section Original Research Articles
Authors

Yağmur Kocaoğlu 0000-0001-6811-4205

Yakup Girgin 0000-0001-8662-4735

Publication Date March 30, 2023
Submission Date November 12, 2022
Acceptance Date March 29, 2023
Published in Issue Year 2023

Cite

APA Kocaoğlu, Y., & Girgin, Y. (2023). Effects of foot preference on postural control in soccer players. Turkish Journal of Kinesiology, 9(1), 67-76. https://doi.org/10.31459/turkjkin.1203374

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