Investigating the Most Commonly Applied Lactate Recovery Method According to the Positions in Football
Investigating the Most Commonly Applied Lactate Recovery Method According to the Positions in Football
Objective: This study aimed to investigate the most suitable recovery method that can be applied for eliminating blood lactateaccumulated in the blood of football players after training or a match. Furthermore, the effectiveness of the soccer player’s role inthese recovery methods was determined.Methods: Herein, 36 professional or professional candidate football players, which included 12 defenses, 12 midfielders, and 12attackers, were included. Athletes were asked to warm up before the field workout started and then they were subjected to a maximalfield test on an 800-m course. The blood samples taken from the athletes after the field test were evaluated for blood lactate.Then, each athlete was rested with either active, passive, or massage recovery methods, and the blood analyses were repeated andrecorded. Each athlete was evaluated and recorded for 48 h after the same field test by other recovery method.Results: According to the obtained statistics, it was found that the most appropriate method for lactate recovery after maximalexercise was active recovery (p
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- Nevin Ergun, Baltacı G. Spor Yaralanmalarında Fizyoterapi ve Rehabilitasyon
Prensipleri. 4rd ed. H. Ü. Fizik Tedavi ve Rehabilitasyon
Yüksek Okulu Yayınları: Pelikan Yayınevi; 2014.pp.390.
- Reilly T, Drust B, Clarke N. Muscle fatigue during football match-play.
Sports Med 2008; 38: 357-67. [CrossRef]
- Akgül MŞ. Sporcularda hidroterapinin toparlanma üzerine etkisi:
Selçuk Üniversitesi Sağlık Bilimleri Enstitüsü; 2013.
- Robertson A, Watt JM, Galloway S. Effects of leg massage on recovery
from high intensity cycling exercise. Br J Sports Med 2004; 38:
173-6. [CrossRef]
- Tessitore A, Meeusen R, Cortis C, Capranica L. Effects of different recovery
interventions on anaerobic performances following preseason
soccer training. J Strength Cond Res 2007; 21: 745-50. [CrossRef]
- Yavuz A. Elit güreşçilerde laktik asit eliminasyon antremanının etkinliği:
SDÜ Tıp Fakültesi; 2012.
- Baldari C, Videira M, Madeira F, Sergio J, Guidetti L. Lactate removal
during active recovery related to the individual anaerobic and
ventilatory thresholds in soccer players. Eur J Appl Physiol 2004; 93:
224-30. [CrossRef]
- Gümüşdağ H, Egesoy H, Cerit E. Sporda toparlanma stratejileri. Hitit
Üniversitesi Sosyal Bilimler Enstitüsü Dergisi 2015; 8: 1. [CrossRef]
- Monedero J, Donne B. Effect of recovery interventions on lactate
removal and subsequent performance. Int J Sports Med 2000; 21:
593-7. [CrossRef]
- de Lucas RD, Dittrich N, Junior RB, de Souza KM, Guglielmo LGA. Is
the critical running speed related to the intermittent maximal lactate
steady state? J Sports Sci Med 2012; 11: 89-94.
- Norton KI, Craig NP, Olds TS. The evolution of Australian football. J
Sci Med Sport 1999; 2: 389-404. [CrossRef]
- Ali Rasooli S, Koushkie Jahromi M, Asadmanesh A, Salesi M. Influence
of massage, active and passive recovery on swimming performance
and blood lactate. J Sports Med Phys Fitness 2012; 52: 122-7.
- Martin NA, Zoeller RF, Robertson RJ, Lephart SM. The comparative
effects of sports massage, active recovery, and rest in promoting
blood lactate clearance after supramaximal leg exercise. J Athl Train
1998; 33: 30-5.
- Menzies P, Menzies C, McIntyre L, Paterson P, Wilson J, Kemi OJ.
Blood lactate clearance during active recovery after an intense running
bout depends on the intensity of the active recovery. J Sports
Sci 2010; 28: 975-82. [CrossRef]
- Harbili E, İnal AN, Gökbel H, Harbili S, Akkuş H. Yoğun egzersizden
sonra aktif dinlenmenin kan laktat eliminasyonuna etkileri. Genel
Tıp Dergisi 2007; 17: 4.
- Lane KN, Wenger H. Effect of selected recovery conditions on performance
of repeated bouts of intermittent cycling separated by 24
hours. J Strength Cond Res 2004; 18: 855-60. [CrossRef]