Examining the Relationship Between Foot Length and Ankle Muscle Strength in Swimmers

Yıl 2021, Cilt: 23 Sayı: 3, 314 - 319, 30.12.2021

Bihter Akınoğlu Osman Alper Şener Adnan Hasanoğlu Tuğba Kocahan

Öz

The aim of this study is to examine the relationship between foot length and isokinetic muscle strength of the ankle plantar and dorsiflexor muscles in swimmers. A total of 53 competitive swimmers, 18 women and 35 men, were included in the study. The athletes’ foot length was assessed by calipers, and their ankle plantar and dorsiflexor muscle strength was evaluated with an isokinetic dynamometer. Spearman correlation analysis was used to examine the relationship between athletes' foot length and ankle isokinetic muscle strength. There was a moderate relationship between the foot length of the athletes and the isokinetic muscle strength of the ankle plantar and dorsiflexor muscles at an angular velocity of 60 ° / sec (r = 450/347; p <0.05); there was a moderate correlation between the isokinetic strength of the ankle plantar flexor muscles at 180 ° / sec angular velocity (r = 403; p <0.05); It was determined that there was no relationship between the isokinetic muscle strength of the ankle dorsi flexor muscles at an angular velocity of 180 ° / sec (r: 0.145; p> 0.05). As a result of our study, it was determined that the strength of the ankle plantar and dorsi flexor muscles increased as the foot length increased in swimmers. Based on this result, the idea that foot length can affect ankle muscle strength in swimmers has emerged. However, some studies are needed to examine the effect of this relationship on swimming performance.

Anahtar Kelimeler

Anthropometry, Isokinetic, Sports, Athlete

Kaynakça

• REFERENCES 1. Aydos L, Taş M, Akyüz M, Uzun A. Genç elit güreşçilerde kuvvetle bazi antropometrik paremetrelerin ilişkisinin incelenmesi. Beden Eğitimi ve Spor Bilimleri Dergisi, 2009;11(4):1-10.
• 2. Barbosa AC, Castro FDS, Dopsaj M, Cunha SA, Júnior OA. Acute responses of biomechanical parameters to different sizes of hand paddles in front-crawl stroke. Journal of Sports Sciences, 2013;31(9):1015-1023.
• 3. Bonato M, Maggioni M, Rossi C, Rampichini S, La Torre A, Merati G. Relationship between anthropometric or functional characteristics and maximal serve velocity. The Journal of Sports Medicine and Physical Fitness, 55(10), 1157-65.
• 4. Bond D, Goodson L, Oxford SW, Nevill AM, Duncan MJ. The association between anthropometric variables, functional movement screen scores and 100 m freestyle swimming performance in youth swimmers. Sports, 2015;3(1):1-11.
• 5. Brzycki M. Strength testing predicting a one-rep max from reps-to-fatigue. Journal of Physical Education, Recreation & Dance, 1993;64(1):88-90.
• 6. Cengizel E, Dölek BE. Investigation of the Relationship between Maximal Strength and Swimming Performance in Adolescent Swimmers. International Journal of Applied Exercise Physiology, 2020;9(3):89-97.
• 7. Chen G, Liu L, Yu J. A comparative study on strength between American college male and female students in Caucasian and Asian populations. Sport Science Review, 2012;21(3-4):153.
• 8. Çıkmaz S, Taşkınalp O, Uluçam E, Yılmaz A, Çakıroğlu M. Futbolcularda gövde ile ilgili antropometrik ölçüler ve oranlar. Balkan Medical Journal, 2005;2005(1):32-36.
• 9. Crowley E, Harrison AJ, Lyons M. The impact of resistance training on swimming performance: A systematic review. Sports Medicine, 2017;47(11):2285-2307.
• 10. Dellagrana RA, Guglielmo LG, Santos BV, Hernandez SG, da Silva SG, de Campos W. Physiological, anthropometric, strength, and muscle power characteristics correlates with running performance in young runners. The Journal of Strength and Conditioning Research. 2015;29(6):1584-1591.
• 11. Ergun N, Pehlivan M. Çocuk jimnastikçilerimizden antropometrik ölçümler ve fiziksel uygunluk testleriyle elde edilen yapısal özellikler. Spor Hekimliği Dergisi, 1998;23(4):103-119.
• 12. Ferraz R, Branquinho L, Loupo R, Neiva H, Marinho DA. The relationship between anthropometric characteristics and sports performance in national-level young swimmers. European Journal of Human Movement, 2020;45.
• 13. Figueiredo P, Silva A, Sampaio A, Vilas-Boas JP, Fernandes RJ. Front crawl sprint performance: A cluster analysis of biomechanics, energetics, coordinative, and anthropometric determinants in young swimmers. Motor Control, 2016;20(3):209-221.
• 14. Girold S, Calmels P, Maurin D, Milhau N, Chatard J. Assisted and resisted sprint training in swimming. Journal of Strength and Conditioning Research, 2006;20(3):547-554.
• 15. Han J, Waddington G, Anson J, Adams R. Level of competitive success achieved by elite athletes and multi-joint proprioceptive ability. Journal of Science and Medicine in Sport, 2015;18(1):77-81.
• 16. Hermassi S, Chelly MS, Wagner H, Fieseler G, Schulze S, Delank K-S, et al. Relationships between maximal strength of lower limb, anthropometric characteristics and fundamental explosive performance in handball players. Sportverletzung· Sportschaden, 2019;33(02):96-103.
• 17. Keiner M, Wirth K, Fuhrmann S, Kunz M, Hartmann H, Haff GG. The Influence of Upper- and Lower-Body Maximum Strength on Swim Block Start, Turn, and Overall Swim Performance in Sprint Swimming. J Strength Cond Res. 2019 Aug 15. doi: 10.1519/JSC.0000000000003229. Epub ahead of print.
• 18. Knechtle B, Baumann B, Knechtle P, Rosemann T. What influences race performance in male open-water ultra-endurance swimmers: anthropometry or training? Human Movement, 2010;11(1):91-95.
• 19. Knechtle B, Knechtle P, Kohler G. No correlation of anthropometry and race performance in ultra-endurance swimmers at a 12-hours-swim. Anthropologischer Anzeiger, 2008:73-79.
• 20. Lätt E, Jürimäe J, Mäestu J, Purge P, Rämson R, Haljaste K, et al. Physiological, biomechanical and anthropometrical predictors of sprint swimming performance in adolescent swimmers. Journal of Sports Science & Medicine. 2010;9(3):398-404.
• 21. Lum D, Barbosa TM. Effects of strength training on olympic time-based sport performance: A systematic review and meta-analysis of randomized controlled trials. International Journal of Sports Physiology and Performance, 2019;14(10):1318-1330.
• 22. Mezzaroba PV, Machado FA. Effect of age, anthropometry, and distance in stroke parameters of young swimmers. International Journal of Sports Physiology and Performance. 2014;9(4):702-706.
• 23. Odráška L, Krč H, Grznár Lu, Čillík I. Effect of resistance isokinetic training on power and speed development in a group of competitive swimmers. Journal of Physical Education and Sport, 2020;20(2):599-604.
• 24. Oliveira M, Henrique RS, Queiroz DR, Salvina M, Melo WV, Moura dos Santos MA. Anthropometric variables, propulsive force and biological maturation: A mediation analysis in young swimmers. European Journal of Sport Science, 2020:1-8.
• 25. Pinos AJ, Bentley DJ, Logan-Sprenger HM. The effects of anaerobic swim ergometer training on sprint performance in adolescent swimmers. International Journal of Sports Physiology and Performance, 2021;1(aop):1-6.
• 26. Pourrahim Ghouroghchi A, Pahlevani M. The investigation of relationship between anthropometrical and physiological parameters of elite young boys in breaststroke and butterfly swimming. International Journal of Pediatrics, 2021;9(1):12749-12761.
• 27. Proloy K, Kumar KJ. Relationship of leg length foot length and leg strength on young male. International Journal of Applied Research, 2016;2(6):39-40.
• 28. Tüzen B, Müniroğlu S, Tanilkan K. Kisa mesafe yüzücülerinin 30 metre sürat koşusu dereceleri ile 50 metre serbest stil yüzme derecelerinin karşilaştirilmasi. Spormetre Beden Eğitimi ve Spor Bilimleri Dergisi, 2005;3(3):97-99.
• 29. Sammoud S, Nevill AM, Negra Y, Bouguezzi R, Chaabene H, Hachana Y. Allometric associations between body size, shape, and 100-m butterfly speed performance. The Journal of Sports Medicine and Physical Fitness, 2017; 58 (5): 630-637.
• 30. Şenel Ö, Atalay N, Çolakoğlu FF. Türk milli badminton takiminin antropometrik, vücut kompozisyonu ve bazi performans özellikleri. Gazi Beden Eğitimi ve Spor Bilimleri Dergisi, 1998;3(2):15-20.
• 31. Şenol M, Gülmez İ. Fonksiyonel Egzersiz Bandı (TRX) ve Vücut Ağırlığı Kullanılarak Uygulanan Direnç Antrenmanlarının Yüzme Performansına Etkisi. İstanbul Üniversitesi Spor Bilimleri Dergisi, 2017;7(1):62-75.
• 32. Şeyma İ, Saygın Ö. Genç yüzücülerde antropometrik, fizyolojik ve fiziksel özelliklerin müsabaka performansına etkisinin araştırılması. Uluslararası Spor Egzersiz ve Antrenman Bilimi Dergisi, 2019; 5(4):183-191.
• 33. Suchomel TJ, Nimphius S, Stone MH. The importance of muscular strength in athletic performance. Sports Medicine, 2016;46(10):1419-1449.
• 34. Turhan A, Sertbaş K, Aksoy M, Özgür T, Özgür B. Dominant ve diğer ekstremite kulaç parametrelerinin 9-10 yaş yüzücülerin kritik yüzme hizina etkisi. Spor ve Rekreasyon Araştırmaları Dergisi, 188-202.
• 35. Willems TM, Cornelis JA, De Deurwaerder LE, Roelandt F, De Mits S. The effect of ankle muscle strength and flexibility on dolphin kick performance in competitive swimmers. Human Movement Science, 2014;36:167-176.