Fall - United States Special Operations Command
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Fall - United States Special Operations Command
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52. Myer GD, Ford KR, Barber Foss KD, Liu C, Nick TG, Hewett<br />
TE. (2009). The relationship of hamstrings and quadriceps<br />
strength to anterior cruciate ligament injury in female athletes.<br />
Clin J Sport Med, Jan; 19(1):3-8.<br />
53. Croisier JL, Ganteaume S, Binet J, Genty M, Ferret JM.<br />
(2008). Strength imbalances and prevention of hamstring injury<br />
in professional soccer players: A prospective study. Am J<br />
Sports Med, Aug;36(8):1469-1475.<br />
54. Orchard J, Marsden J, Lord S, Garlick D. (1997). Preseason<br />
hamstring muscle weakness associated with hamstring muscle<br />
injury in Australian footballers. Am J Sports Med, Jan-Feb;<br />
25(1):81-85.<br />
55. Yeung SS, Suen AM, Yeung EW. (2009). A prospective cohort<br />
study of hamstring injuries in competitive sprinters: Pre<br />
season muscle imbalance as a possible risk factor. Br J Sports<br />
Med, Aug;43(8):589-594.<br />
56. Tyler TF, McHugh MP, Mirabella MR, Mullaney MJ,<br />
Nicholas SJ. (2006). Risk factors for noncontact ankle sprains<br />
in high school football players: The role of previous ankle<br />
sprains and body mass index. Am J Sports Med. Mar;34<br />
(3):471-475.<br />
57. McGuine TA, Keene JS. (2006). The effect of a balance training<br />
program on the risk of ankle sprains in high school athletes.<br />
Am J Sports Med, Jul; 34(7):1103-1111.<br />
58. McHugh MP, Tyler TF, Tetro DT, Mullaney MJ, Nicholas SJ.<br />
(2006). Risk factors for noncontact ankle sprains in high<br />
school athletes: The role of hip strength and balance ability.<br />
Am J Sports Med, Mar; 34(3):464-470.<br />
59. Rozzi SL, Lephart SM, Fu FH.(1999). Effects of muscular fatigue<br />
on knee joint laxity and neuromuscular characteristics of<br />
male and female athletes. Journal of Athletic Training, 34(2):<br />
106-114.<br />
60. Rozzi SL, Lephart SM, Gear WS, Fu FH. (1999). Knee joint<br />
laxity and neuromuscular characteristics of male and female<br />
soccer and basketball players. Am J Sports Med, 27(3):312-<br />
319.<br />
61. Soderman K, Alfredson H, Pietila T, Werner S. (2001). Risk<br />
factors for leg injuries in female soccer players: A prospec-<br />
Warrior Model for Human Performance and Injury Prevention:<br />
Eagle Tactical Athlete Program (ETAP) Part I<br />
tive investigation during one out-door season.[comment].<br />
Knee Surgery, Sports Traumatology, Arthroscopy, 9(5):313-<br />
321.<br />
62. Abt JP, Sell TC, Laudner KG, et al. (2007). Neuromuscular<br />
and biomechanical characteristics do not vary across the menstrual<br />
cycle. Knee Surg Sports Traumatol Arthrosc, Jul;<br />
15(7):901-907.<br />
63. McKeon PO, Hertel J. (2008). Systematic review of postural<br />
control and lateral ankle instability, part I: Can deficits be detected<br />
with instrumented testing. J Athl Train, May-Jun;<br />
43(3):293-304.<br />
64. McGuine TA, Greene JJ, Best T, Leverson G. (2000). Balance<br />
as a predictor of ankle injuries in high school basketball players.<br />
Clinical Journal of Sport Medicine, 10(4):239-244.<br />
65. Willems TM, Witvrouw E, Delbaere K, Mahieu N, De Bourdeaudhuij<br />
I, De Clercq D. (2005). Intrinsic risk factors for inversion<br />
ankle sprains in male subjects: A prospective study.<br />
Am J Sports Med, Mar;33(3):415-423.<br />
66. Hewett TE, Myer GD, Ford KR, Heidt Jr. RS, Colosimo MV,<br />
Succop P. (2005). Biomechanical measures of neuromuscular<br />
control and valgus loading of the knee predict anterior cruciate<br />
ligament injury risk in female athletes: A prospective<br />
study. American Journal of Sports Medicine, 33(4):492-501.<br />
67. Markolf KL, Mensch JS, Amstutz HC. (1976). Stiffness and<br />
laxity of the knee-the contributions of the supporting structures.<br />
A quantitative in vitro study. J Bone Joint Surg [Am],<br />
58(5):583-594.<br />
68. Markolf KL, Burchfield DM, Shapiro MM, Shepard MF, Finerman<br />
GA, Slauterbeck JL.(1995). Combined knee loading<br />
states that generate high anterior cruciate ligament forces. J<br />
Orthop Res,13(6):930-935.<br />
69. Sakane M, Fox RJ, Woo SL, Livesay GA, Li G, Fu FH. (1997).<br />
In situ forces in the anterior cruciate ligament and its bundles<br />
in response to anterior tibial loads. J Orthop Res, 15(2):285-<br />
293.<br />
70. Fleming BC, Renstrom PA, Beynnon BD, et al. (2001/2). The<br />
effect of weightbearing and external loading on anterior cru<br />
ciate ligament strain. J of Biomechanics, 34(2):163-170.<br />
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