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Sports Medicine

Erschienen in:

01.09.2014 | Review Article

Applied Physiology of Female Soccer: An Update

verfasst von: Naomi Datson, Andrew Hulton, Helena Andersson, Tracy Lewis, Matthew Weston, Barry Drust, Warren Gregson

Erschienen in: Sports Medicine | Ausgabe 9/2014

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Abstract

The popularity and professionalism of female soccer has increased markedly in recent years, with elite players now employed on either a professional or semi-professional basis. The previous review of the physiological demands of female soccer was undertaken two decades ago when the sport was in its relative infancy. Increased research coupled with greater training and competition demands warrants an updated review to consider the effect on physical performance and injury patterns. The physical demands of match-play along with the influence of factors such as the standard of competition, playing position and fatigue have been explored. Total distance covered for elite female players is approximately 10 km, with 1.7 km completed at high-speed (>18 km·h⁻¹). Elite players complete 28 % more high-speed running and 24 % more sprinting than moderate-level players. Decrements in high-speed running distance have been reported between and within halves, which may indicate an inability to maintain high-intensity activity. Although the physical capacity of female players is the most thoroughly researched area, comparisons are difficult due to differing protocols. Elite players exhibit maximal oxygen uptake (VO_2max) values of 49.4–57.6 mL·kg⁻¹·min⁻¹, Yo Yo Intermittent Endurance test level 2 (YYIE2) scores of 1,774 ± 532 m [mean ± standard deviation (SD)] and 20 m sprint times of 3.17 ± 0.03 s (mean ± SD). Reasons for the increased prevalence of anterior cruciate ligament injuries in females (2–6 times greater than males) are discussed, with anatomical, biomechanical loading and neuromuscular activation differences being cited in the literature. This review presents an in-depth contemporary examination of the applied physiology of the female soccer player.

Davis JA, Brewer J. Applied physiology of female soccer players. Sports Med. 1993;16(3):180–9.PubMed

Fahmy M. Increase participation and competitions. In: 5th FIFA women’s football symposium. FIFA. 2011. http://www.fifa.com/mm/document/footballdevelopment/women/01/51/51/64/presentation_increaseparticipation_e.pdf. Accessed 19 Aug 2013.

Reilly T. An ergonomics model of the soccer training process. J Sports Sci. 2005;23(6):561–72.PubMed

Randers M, Mujika I, Hewitt A, et al. Application of four different match analysis systems: a comparative study. J Sports Sci. 2010;28(2):171–82.PubMed

Di Salvo V, Gregson W, Atkinson G, et al. Analysis of high intensity activity in Premier League soccer. Int J Sports Med. 2009;30:205–12.PubMed

Harley JA, Lovell RJ, Barnes CA, et al. The interchangeability of global positioning system and semiautomated video-based performance data during elite soccer match play. J Strength Cond Res. 2011;25(8):2334–6.PubMed

Bradley PS, Sheldon W, Wooster B, et al. High-intensity running in English FA Premier League soccer matches. J Sports Sci. 2009;27(2):159–68.PubMed

Di Salvo V, Baron R, González-Haro C, et al. Sprinting analysis of elite soccer players during European Champions League and UEFA cup matches. J Sports Sci. 2010;28(14):1489–94.PubMed

Vescovi JD. Sprint profile of professional female soccer players during competitive matches: Female Athletes in Motion (FAiM) study. J Sports Sci. 2012;30(12):1259–65.PubMed

10.

Andersson HÅ, Randers MB, Heiner-Møller A, et al. Elite female soccer players perform more high-intensity running when playing in international games compared with domestic league games. J Strength Cond Res. 2010;24(4):912–9.PubMed

11.

Gabbett TJ, Mulvey MJ. Time-motion analysis of small-sided training games and competition in elite women soccer players. J Strength Cond Res. 2008;22(2):543–52.PubMed

12.

Krustrup P, Andersson H, Mohr M, et al. Match activities and fatigue development of elite female soccer players at different levels of competition. In: Reilly T, Korkusuz F, editors. Science and football VI. New York: Routledge; 2008. p. 205–11.

13.

Hewitt A, Withers R, Lyons K. Match analyses of Australian international female soccer players using an athlete tracking device. In: Reilly T, Korkusuz F, editors. Science and football VI. New York: Routledge; 2008. p. 224–8.

14.

Mohr M, Krustrup P, Andersson H, et al. Match activities of elite women soccer players at different performance levels. J Strength Cond Res. 2008;22(2):341–9.PubMed

15.

Gabbett TJ, Wig H, Spencer M. Repeated high-intensity running and sprinting in elite women’s soccer competition. Int J Sports Physiol Perform. 2013;8(2):130–8.PubMed

16.

Mohr M, Krustrup P, Bangsbo J. Match performance of high-standard soccer players with special reference to development of fatigue. J Sports Sci. 2003;21(7):519–28.PubMed

17.

Mohr M, Ellingsgaard H, Andersson H, et al. Physical demands in high-level female soccer—applications of fitness tests to evaluate match performance. J Sports Sci. 2004;22(6):552–3.

18.

Krustrup P, Mohr M, Ellingsgaard H, et al. Physical demands during an elite female soccer game: importance of training status. Med Sci Sports Exerc. 2005;37(7):1242–8.PubMed

19.

Gregson W, Drust B, Atkinson G, et al. Match-to-match variability of high-speed activities in Premier League soccer. Int J Sports Med. 2010;31(04):237–42.PubMed

20.

Andersson H, Raastad T, Nilsson J, et al. Neuromuscular fatigue and recovery in elite female soccer. Med Sci Sports Exerc. 2008;40(2):372–80.PubMed

21.

Krustrup P, Zebis M, Jensen JM, et al. Game-induced fatigue patterns in elite female soccer. J Strength Cond Res. 2010;24(2):437–41.PubMed

22.

Spencer M, Bishop D, Dawson B, et al. Physiological and metabolic responses of repeated-sprint activities: specific to field-based team sports. Sports Med. 2005;35(12):1025–44.PubMed

23.

Abt G, Lovell R. The use of individualized speed and intensity thresholds for determining the distance run at high-intensity in professional soccer. J Sports Sci. 2009;27(9):893–8.PubMed

24.

Vescovi JD. Sprint speed characteristics of high-level American female soccer players: Female Athletes in Motion (FAiM) study. J Sci Med Sport. 2012;15(5):474–8.PubMed

25.

Helgerud J, Engen LC, Wisloff U, et al. Aerobic endurance training improves soccer performance. Med Sci Sports Exerc. 2001;33(11):1925–31.PubMed

26.

Reilly T. Energetics of high-intensity exercise (soccer) with particular reference to fatigue. J Sports Sci. 1997;15(3):257–63.PubMed

27.

Andersson H, Karlsen A, Blomhoff R, et al. Plasma antioxidant responses and oxidative stress following a soccer game in elite female players. Scand J Med Sci Sports. 2010;20(4):600–8.PubMed

28.

Stolen T, Chamari K, Castagna C, et al. Physiology of soccer: an update. Sports Med. 2005;35(6):501–36.PubMed

29.

Hoare DG, Warr CR. Talent identification and women’s soccer: an Australian experience. J Sports Sci. 2000;18(9):751–8.PubMed

30.

Bunc V, Psotta R. Functional characteristics of elite Czech female soccer players. J Sports Sci. 2004;22(6):528.

31.

Gravina L, Ruiz F, Lekue JA, et al. Metabolic impact of a soccer match on female players. J Sports Sci. 2011;29(12):1345–52.PubMed

32.

Mujika I, Santisteban J, Impellizzeri FM, et al. Fitness determinants of success in men’s and women’s football. J Sports Sci. 2009;27(2):107–14.PubMed

33.

Ingebrigtsen J, Dillern T, Shalfawi SAI. Aerobic capacities and anthropometric characteristics of elite female soccer players. J Strength Cond Res. 2011;25(12):3352–7.PubMed

34.

Can F, Yilmaz I, Erden Z. Morphological characteristics and performance variables of women soccer players. J Strength Cond Res. 2004;18(3):480–5.PubMed

35.

Sedano S, Vaeyens R, Philippaerts RM, et al. Anthropometric and anaerobic fitness profile of elite and non-elite female soccer players. J Sports Med Phys Fit. 2009;49(4):387–94.

36.

Castagna C, Castellini E. Vertical jump performance in Italian male and female national teams soccer players. J Strength Cond Res. 2013;27(4):1156–61.PubMed

37.

Vescovi JD, Brown TD, Murray TM. Positional characteristics of physical performance in division I college female soccer players. J Sports Med Phys Fit. 2006;46(2):221–6.

38.

Todd MK, Scott D, Chisnall PJ. Fitness characteristics of English female soccer players: an analysis by position and playing standard. In: Spinks W, Reilly T, Murphy A, editors. Science and football IV. New York: Routledge; 2002. p. 374–81.

39.

Wells C, Reilly T. Influence of playing position on fitness and performance measures in female soccer players. In: Spinks W, Reilly T, Murphy A, editors. New York: Routledge; 2002. pp. 369–73.

40.

Siegler J, Gaskill S, Ruby B. Changes evaluated in soccer-specific power endurance either with or without a 10-week, in-season, intermittent, high-intensity training protocol. J Strength Cond Res. 2003;17(2):379–87.PubMed

41.

McCurdy KW, Walker JL, Langford GA, et al. The relationship between kinematic determinants of jump and sprint performance in division I women soccer players. J Strength Cond Res. 2010;24(12):3200–8.PubMed

42.

Sjökvist J, Laurent MC, Richardson M, et al. Recovery from high-intensity training sessions in female soccer players. J Strength Cond Res. 2011;25(6):1726–35.PubMed

43.

Tumilty D, Darby S. Physiological characteristics of Australian female soccer players. J Sports Sci. 1992;10:145.

44.

Polman R, Walsh D, Bloomfield J, et al. Effective conditioning of female soccer players. J Sports Sci. 2004;22(2):191–203.PubMed

45.

Ramsbottom R, Brewer J, Williams C. A progressive shuttle run test to estimate maximal oxygen uptake. Br J Sports Med. 1988;22(4):141–4.PubMedCentralPubMed

46.

Castagna C, Impellizzeri FM, Manzi V, et al. The assessment of maximal aerobic power with the multistage fitness test in young women soccer players. J Strength Cond Res. 2010;24(6):1488–94.PubMed

47.

Rhodes E, Mosher R. Aerobic and anaerobic characteristics of elite female university soccer players. J Sports Sci. 1992;10:143–4.

48.

Davis JA, Brewer J. Physiological characteristics of an international female soccer squad. J Sports Sci. 1992;10:142–3.

49.

Jensen K, Larsson B. Variations in physical capacity among the Danish national soccer team for women during a period of supplemental training. J Sports Sci. 1992;10:144.

50.

Castagna C, Abt G, D’Ottavio S. Competitive-level differences in Yo-Yo intermittent recovery and twelve minute run test performance in soccer referees. J Strength Cond Res. 2005;19(4):805–9.PubMed

51.

Krustrup P, Bangsbo J. Physiological demands of top-class soccer refereeing in relation to physical capacity: effect of intense intermittent exercise training. J Sports Sci. 2001;19(11):881–91.PubMed

52.

Castagna C, Impellizzeri FM, Belardinelli R, et al. Cardiorespiratory responses to Yo-Yo intermittent endurance test in nonelite youth soccer players. J Strength Cond Res. 2006;20(2):326–30.PubMed

53.

Bradley PS, Bendiksen M, Dellal A, et al. The application of the Yo-Yo intermittent endurance level 2 test to elite female soccer populations. Scand J Med Sci Sports. 2014;24(1):43–54.PubMed

54.

Scott D, Andersson H. Women soccer. In: Williams M, editor. Science and soccer: developing elite players. London: Routledge; 2012. p. 237–57.

55.

Vescovi JD, Mcguigan MR. Relationships between sprinting, agility, and jump ability in female athletes. J Sports Sci. 2008;26(1):97–107.PubMed

56.

Tumilty D. Protocols for the physiological assessment of male and female soccer players. In: Gore CJ, editor. Physiological tests for elite athletes. Champaign: Human Kinetics; 2000. p. 356–62.

57.

Gabbett TJ. The development of a test of repeated-sprint ability for elite women’s soccer players. J Strength Cond Res. 2010;24(5):1191–4.PubMed

58.

Bangsbo J. The physiology of soccer-with special reference to intense intermittent exercise. Acta Physiol Scand. 1994;619:1–155.

59.

Arnason A, Sigurdsson SB, Gudmundsson A, et al. Physical fitness, injuries and team performance in soccer. Med Sci Sports Exerc. 2001;36(2):278–85.

60.

Vescovi JD, Rupf R, Brown TD, et al. Physical performance characteristics of high-level female soccer players 12–21 years of age. Scand J Med Sci Sports. 2011;21(5):670–8.PubMed

61.

Rhea MR, Lavinge DM, Robbins P, et al. Metabolic conditioning among soccer players. J Strength Cond Res. 2009;23(3):800–6.PubMed

62.

Little T, Williams AG. Suitability of soccer training drills for endurance training. J Strength Cond Res. 2006;20(2):316–9.PubMed

63.

Clark JE. The use of an 8-week mixed-intensity interval endurance-training program improves the aerobic fitness of female soccer players. J Strength Cond Res. 2010;24(7):1773–81.PubMed

64.

Upton DE. The effect of assisted and resisted sprint training on acceleration and velocity in division I female soccer athletes. J Strength Cond Res. 2011;25(10):2645–52.PubMed

65.

Bartolini JA, Brown LE, Coburn JW, et al. Optimal elastic cord assistance for sprinting in collegiate women soccer players. J Strength Cond Res. 2011;25(5):1263–70.PubMed

66.

Campo SS, Vaeyens R, Philippaerts RM, et al. Effects of lower-limb plyometric training on body composition, explosive strength and kicking speed in female soccer players. J Strength Cond Res. 2009;23(6):1714–22.

67.

Grieco CR, Cortes N, Greska EK, et al. Effects of a combined resistance-plyometric training program on muscular strength, running economy, and VO_{2 peak} in division 1 female soccer players. J Strength Cond Res. 2012;26(9):2570–6.PubMed

68.

Chimera NJ, Swanik KA, Swanik CB, et al. Effects of plyometric training on muscle-activation strategies and performance in female athletes. J Athl Train. 2004;39(1):24–31.PubMedCentralPubMed

69.

Oosthuyse T, Bosch AN. The effect of the menstrual cycle on exercise metabolism: implications for exercise performance in eumenorrhoeic women. Sports Med. 2010;40(3):207–27.PubMed

70.

Burrows M, Peters CE. The influence of oral contraceptives on athletic performance in female athletes. Sports Med. 2007;37(7):557–74.PubMed

71.

Janse de Jonge XAK. Effects of the menstrual cycle on exercise performance. Sports Med. 2003;33(11):833–51.PubMed

72.

Alentorn-Geli E, Myer GD, Silvers HJ, et al. Prevention of non-contact anterior cruciate ligament injuries in soccer players. Part 1: mechanisms of injury and underlying risk factors. Knee Surg Sports Traumatol Arthrosc. 2009;17(7):705–29.PubMed

73.

Renstrom P, Ljungqvist A, Arendt E, et al. Non-contact ACL injuries in female athletes: an International Olympic Committee current concepts statement. Br J Sports Med. 2008;42(6):394–412.PubMedCentralPubMed

74.

Vescovi JD. The menstrual cycle and anterior cruciate ligament injury risk: implications of menstrual cycle variability. Sports Med. 2011;41(2):91–101.PubMed

75.

Reilly T. The menstrual cycle and human performance: an overview. Biol Rhythm Res. 2000;31(1):29–40.

76.

Loucks AB. Effects of exercise training on the menstrual cycle: existence and mechanisms. Med Sci Sports Exerc. 1990;22(3):275–80.PubMed

77.

Warren MP, Perlroth NE. The effects of intense exercise on the female reproductive system. J Endocrinol. 2001;170(1):3–11.PubMed

78.

De Souza MJ, Maguire MS, Rubin KR, et al. Effects of menstrual phase and amenorrhea on exercise performance in runners. Med Sci Sports Exerc. 1990;22(5):575–80.PubMed

79.

Beidleman BA, Rock PB, Muza SR, et al. Exercise VE and physical performance at altitude are not affected by menstrual cycle phase. J Appl Physiol. 1999;86(5):1519–26.PubMed

80.

Stachenfeld NS, Silva C, Keefe DL. Estrogen modifies the temperature effects of progesterone. J Appl Physiol. 2000;88(5):1643–9.PubMed

81.

Williams TJ, Krahenbuhl GS. Menstrual cycle phase and running economy. Med Sci Sports Exerc. 1997;29(12):1609–18.PubMed

82.

JansedeJonge XAK, Thompson MW, Chuter VH, et al. Exercise performance over the menstrual cycle in temperate and hot, humid conditions. Med Sci Sports Exerc. 2012;44(11):2190–8.

83.

Pivarnik JM, Marichal CJ, Spillman T, et al. Menstrual cycle phase affects temperature regulation during endurance exercise. J Appl Physiol. 1992;72(2):543–8.PubMed

84.

Hessemer V, Bruck K. Influence of menstrual cycle on thermoregulatory, metabolic, and heart rate responses to exercise at night. J Appl Physiol. 1985;59(6):1911–7.PubMed

85.

Smekal G, von Duvillard SP, Frigo P, et al. Menstrual cycle: no effect on exercise cardiorespiratory variables or blood lactate concentration. Med Sci Sports Exerc. 2007;39(7):1098–106.PubMed

86.

Dean TM, Perreault L, Mazzeo RS, et al. No effect of menstrual cycle phase on lactate threshold. J Appl Physiol. 2003;95(6):2537–43.PubMed

87.

Zderic TW, Coggan AR, Ruby BC. Glucose kinetics and substrate oxidation during exercise in the follicular and luteal phases. J Appl Physiol. 2001;90(2):447–53.PubMed

88.

Tsampoukos A, Peckham EA, James R, et al. Effect of menstrual cycle phase on sprinting performance. Eur J Appl Physiol. 2010;109(4):659–67.PubMed

89.

Sunderland C, Nevill M. Effect of the menstrual cycle on performance of intermittent, high-intensity shuttle running in a hot environment. Eur J Appl Physiol. 2003;88(4–5):345–52.PubMed

90.

Maia H Jr, Casoy J. Non-contraceptive health benefits of oral contraceptives. Eur J Contracept Reprod Health Care. 2008;13(1):17–24.PubMed

91.

Rechichi C, Dawson B, Goodman C. Athletic performance and the oral contraceptive. Int J Sports Physiol Perform. 2009;4(2):151–62.PubMed

92.

Rechichi C, Dawson B. Effect of oral contraceptive cycle phase on performance in team sport players. J Sci Med Sport. 2009;12(1):190–5.PubMed

93.

Casazza GA, Suh S-H, Miller BF, et al. Effects of oral contraceptives on peak exercise capacity. J Appl Physiol. 2002;93(5):1698–702.PubMed

94.

Lebrun CM, Petit MA, McKenzie DC, et al. Decreased maximal aerobic capacity with use of a triphasic oral contraceptive in highly active women: a randomised controlled trial. Br J Sports Med. 2003;37(4):315–20.PubMedCentralPubMed

95.

Brooks JHM, Fuller CW. The influence of methodological issues on the results and conclusions from epidemiological studies of sports injuries: illustrative examples. Sports Med. 2006;36(6):459–72.PubMed

96.

Ostenberg A, Roos H. Injury risk factors in female European football. A prospective study of 123 players during one season. Scand J Med Sci Sports. 2000;10(5):279–85.PubMed

97.

Söderman K, Pietilä T, Alfredson H, et al. Anterior cruciate ligament injuries in young females playing soccer at senior levels. Scand J Med Sci Sports. 2002;12(2):65–8.PubMed

98.

Soligard T, Grindem H, Bahr R, et al. Are skilled players at greater risk of injury in female youth football? Br J Sports Med. 2010;44(15):1118–23.PubMed

99.

Junge A, Dvorak J. Soccer injuries. Sports Med. 2004;34(13):929–38.PubMed

100.

Junge A, Dvorak J. Injuries in female football players in top-level international tournaments. Br J Sports Med. 2007;41(Suppl 1):i3–7.PubMedCentralPubMed

101.

Jacobson I, Tegner Y. Injuries among Swedish female elite football players: a prospective population study. Scand J Med Sci Sports. 2007;17(1):84–91.PubMed

102.

Tegnander A, Olsen OE, Moholdt TT, et al. Injuries in Norwegian female elite soccer: a prospective one-season cohort study. Knee Surg Sports Traumatol Arthrosc. 2008;16(2):194–8.PubMed

103.

Le Gall F, Carling C, Reilly T. Injuries in young elite female soccer players: an 8-season prospective study. Am J Sports Med. 2008;36(2):276–84.PubMed

104.

Faude O. Injuries in female soccer players: a prospective study in the German national league. Am J Sports Med. 2005;33(11):1694–700.PubMed

105.

Giza E, Mithöfer K, Farrell L, et al. Injuries in women’s professional soccer. Br J Sports Med. 2005;39(4):212–6.PubMedCentralPubMed

106.

Hägglund M, Waldén M, Ekstrand J. UEFA injury study—an injury audit of European Championships 2006 to 2008. Br J Sports Med. 2009;43(7):483–9.PubMed

107.

Engström B, Johansson C, Törnkvist H. Soccer injuries among elite female players. Am J Sports Med. 1991;19(4):372–5.PubMed

108.

Söderman K, Adolphson J, Lorentzon R, et al. Injuries in adolescent female players in European football: a prospective study over one outdoor soccer season. Scand J Med Sci Sports. 2001;11(5):299–304.PubMed

109.

Hawkins RD, Fuller CW. A prospective epidemiological study of injuries in four English professional football clubs. Br J Sports Med. 1999;33(3):196–203.PubMedCentralPubMed

110.

Hägglund M, Waldén M, Bahr R, et al. Methods for epidemiological study of injuries to professional football players: developing the UEFA model. Br J Sports Med. 2005;39(6):340–6.PubMedCentralPubMed

111.

Ekstrand J, Hilding J. The incidence and differential diagnosis of acute groin injuries in male soccer players. Scand J Med Sci Sports. 2007;9(2):98–103.

112.

Hägglund M, Waldén M, Atroshi I. Preventing knee injuries in adolescent female football players—design of a cluster randomized controlled trial. BMC Musculoskelet Disord. 2009;10(1):75.PubMedCentralPubMed

113.

Waldén M, Hägglund M, Magnusson H, et al. Anterior cruciate ligament injury in elite football: a prospective three-cohort study. Knee Surg Sports Traumatol Arthrosc. 2011;19(1):11–9.PubMed

114.

Wild CY, Steele JR, Munro BJ. Why do girls sustain more anterior cruciate ligament injuries than boys? Sports Med. 2012;42(9):733–49.PubMed

115.

Gottlob CA, Baker CL. Anterior cruciate ligament reconstruction: socioeconomic issues and cost effectiveness. Am J Orthop. 2000;29(6):472–6.PubMed

116.

Hewett TE. Anterior cruciate ligament injuries in female athletes: part 1, mechanisms and risk factors. Am J Sports Med. 2006;34(2):299–311.PubMed

117.

Steffen K, Andersen TE, Krosshaug T, et al. ECSS position statement 2009: prevention of acute sports injuries. Eur J Sport Sci. 2010;10(4):223–36.

118.

Myer GD, Ford KR, Paterno MV, et al. The effects of generalized joint laxity on risk of anterior cruciate ligament injury in young female athletes. Am J Sports Med. 2008;36(6):1073–80.PubMedCentralPubMed

119.

Shambaugh JP, Klein A, Herbert JH. Structural measures as predictors of injury in basketball players. Med Sci Sports Exerc. 1991;23(5):522–7.PubMed

120.

Silvers HJ, Mandelbaum BR. Prevention of anterior cruciate ligament injury in the female athlete. Br J Sports Med. 2007;41(Suppl 1):i52–9.PubMedCentralPubMed

121.

Malinzak RA, Colby SM, Kirkendall DT, et al. A comparison of knee joint motion patterns between men and women in selected athletic tasks. Clin Biomech. 2001;16(5):438–45.

122.

Yu B, McClure SB, Onate JA, et al. Age and gender effects on lower extremity kinematics of youth soccer players in a stop-jump task. Am J Sports Med. 2005;33(9):1356–64.PubMed

123.

Ryder SH, Johnson RJ. Prevention of ACL injuries. J Sport Rehabil. 1997;6(2):80–96.

124.

Faunø P, Wulff Jakobsen B. Mechanism of anterior cruciate ligament injuries in soccer. Int J Sports Med. 2006;27(1):75–9.PubMed

125.

Hewett TE, Zazulak BT, Myer GD. Effects of the menstrual cycle on anterior cruciate ligament injury risk: a systematic review. Am J Sports Med. 2007;35(4):659–68.PubMed

126.

Hewett TE. Neuromuscular and hormonal factors associated with knee injuries in female athletes. Strategies for intervention. Sports Med. 2000;29(5):313–27.PubMed

127.

Nielsen JM, Hammar M. Sports injuries and oral contraceptive use. Sports Med. 1991;12(3):152–60.

128.

Martineau PA, Al-Jassir F, Lenczner E, et al. Effect of the oral contraceptive pill on ligamentous laxity. Clin J Sport Med. 2004;14(5):281–6.PubMed

129.

Bennell K, White S, Crossley K. The oral contraceptive pill: a revolution for sportswomen? Br J Sports Med. 1999;33(4):231–8.PubMedCentralPubMed

130.

Möller-Nielsen J, Hammar M. Women’s soccer injuries in relation to the menstrual cycle and oral contraceptive use. Med Sci Sports Exerc. 1989;21(2):126–9.PubMed

131.

Andersson H, Ekblom B, Krustrup P. Elite football on artificial turf versus natural grass: movement patterns, technical standards, and player impressions. J Sports Sci. 2008;26(2):113–22.PubMed

132.

Tamer K, Gunay M, Tiryaki G, et al. Physiological characteristics of Turkish female soccer players. In: Reilly T, Bangsbo J, Hughes M, editors. Science and football III. London: E and FN Spon; 1997. p. 37–9.

133.

Evangelista M, Pandolfi O, Fanton F, et al. A functional model of female soccer players: analysis of functional characteristics. J Sports Sci. 1992;10:165.

Titel: Applied Physiology of Female Soccer: An Update
verfasst von: Naomi Datson
Andrew Hulton
Helena Andersson
Tracy Lewis
Matthew Weston
Barry Drust
Warren Gregson
Publikationsdatum: 01.09.2014
Verlag: Springer International Publishing
Erschienen in: Sports Medicine / Ausgabe 9/2014
Print ISSN: 0112-1642
Elektronische ISSN: 1179-2035
DOI: https://doi.org/10.1007/s40279-014-0199-1

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