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Journal Abstract Search

666 related items for PubMed ID: 23015067

  • 1.
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  • 2. A numerical simulation approach to studying anterior cruciate ligament strains and internal forces among young recreational women performing valgus inducing stop-jump activities.
    Kar J, Quesada PM.
    Ann Biomed Eng; 2012 Aug; 40(8):1679-91. PubMed ID: 22527014
    [Abstract] [Full Text] [Related]

  • 3. Kinematics and electromyography of landing preparation in vertical stop-jump: risks for noncontact anterior cruciate ligament injury.
    Chappell JD, Creighton RA, Giuliani C, Yu B, Garrett WE.
    Am J Sports Med; 2007 Feb; 35(2):235-41. PubMed ID: 17092926
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  • 4. Is knee neuromuscular activity related to anterior cruciate ligament injury risk? A pilot study.
    Smeets A, Malfait B, Dingenen B, Robinson MA, Vanrenterghem J, Peers K, Nijs S, Vereecken S, Staes F, Verschueren S.
    Knee; 2019 Jan; 26(1):40-51. PubMed ID: 30415973
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  • 5. EMG-Informed Musculoskeletal Modeling to Estimate Realistic Knee Anterior Shear Force During Drop Vertical Jump in Female Athletes.
    Navacchia A, Ueno R, Ford KR, DiCesare CA, Myer GD, Hewett TE.
    Ann Biomed Eng; 2019 Dec; 47(12):2416-2430. PubMed ID: 31290036
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  • 6. Age Influences Biomechanical Changes After Participation in an Anterior Cruciate Ligament Injury Prevention Program.
    Thompson-Kolesar JA, Gatewood CT, Tran AA, Silder A, Shultz R, Delp SL, Dragoo JL.
    Am J Sports Med; 2018 Mar; 46(3):598-606. PubMed ID: 29281799
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  • 7. Sagittal plane biomechanics cannot injure the ACL during sidestep cutting.
    McLean SG, Huang X, Su A, Van Den Bogert AJ.
    Clin Biomech (Bristol, Avon); 2004 Oct; 19(8):828-38. PubMed ID: 15342155
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  • 9. Effect of fatigue on knee kinetics and kinematics in stop-jump tasks.
    Chappell JD, Herman DC, Knight BS, Kirkendall DT, Garrett WE, Yu B.
    Am J Sports Med; 2005 Jul; 33(7):1022-9. PubMed ID: 15983125
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  • 10. Jump landing strategies in male and female college athletes and the implications of such strategies for anterior cruciate ligament injury.
    Fagenbaum R, Darling WG.
    Am J Sports Med; 2003 Jul; 31(2):233-40. PubMed ID: 12642258
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  • 11. Biomechanical measures of neuromuscular control and valgus loading of the knee predict anterior cruciate ligament injury risk in female athletes: a prospective study.
    Hewett TE, Myer GD, Ford KR, Heidt RS, Colosimo AJ, McLean SG, van den Bogert AJ, Paterno MV, Succop P.
    Am J Sports Med; 2005 Apr; 33(4):492-501. PubMed ID: 15722287
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  • 13. Contributions of the soleus and gastrocnemius muscles to the anterior cruciate ligament loading during single-leg landing.
    Mokhtarzadeh H, Yeow CH, Hong Goh JC, Oetomo D, Malekipour F, Lee PV.
    J Biomech; 2013 Jul 26; 46(11):1913-20. PubMed ID: 23731572
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  • 14. Effect of knee flexion angle on ground reaction forces, knee moments and muscle co-contraction during an impact-like deceleration landing: implications for the non-contact mechanism of ACL injury.
    Podraza JT, White SC.
    Knee; 2010 Aug 26; 17(4):291-5. PubMed ID: 20303276
    [Abstract] [Full Text] [Related]

  • 15. Acute Effects of Static Stretching of Hamstring on Performance and Anterior Cruciate Ligament Injury Risk During Stop-Jump and Cutting Tasks in Female Athletes.
    Ruan M, Zhang Q, Wu X.
    J Strength Cond Res; 2017 May 26; 31(5):1241-1250. PubMed ID: 28118311
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  • 17. Two-dimensional motion analysis of dynamic knee valgus identifies female high school athletes at risk of non-contact anterior cruciate ligament injury.
    Numata H, Nakase J, Kitaoka K, Shima Y, Oshima T, Takata Y, Shimozaki K, Tsuchiya H.
    Knee Surg Sports Traumatol Arthrosc; 2018 Feb 26; 26(2):442-447. PubMed ID: 28840276
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  • 18. Elevated gastrocnemius forces compensate for decreased hamstrings forces during the weight-acceptance phase of single-leg jump landing: implications for anterior cruciate ligament injury risk.
    Morgan KD, Donnelly CJ, Reinbolt JA.
    J Biomech; 2014 Oct 17; 47(13):3295-302. PubMed ID: 25218505
    [Abstract] [Full Text] [Related]

  • 19. Estimation of ligament loading and anterior tibial translation in healthy and ACL-deficient knees during gait and the influence of increasing tibial slope using EMG-driven approach.
    Shao Q, MacLeod TD, Manal K, Buchanan TS.
    Ann Biomed Eng; 2011 Jan 17; 39(1):110-21. PubMed ID: 20683675
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