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Real-time biofeedback integrated into neuromuscular training reduces high-risk knee biomechanics and increases functional brain connectivity: A preliminary longitudinal investigation.

Diekfuss JA, Grooms DR, Bonnette S, DiCesare CA, Thomas S, MacPherson RP, Ellis JD, Kiefer AW, Riley MA, Schneider DK, Gadd B, Kitchen K, Barber Foss KD, Dudley JA, Yuan W, Myer GD.

Psychophysiology. 2020 Feb 13:e13545. doi: 10.1111/psyp.13545. [Epub ahead of print]


Does brain functional connectivity contribute to musculoskeletal injury? A preliminary prospective analysis of a neural biomarker of ACL injury risk.

Diekfuss JA, Grooms DR, Yuan W, Dudley J, Barber Foss KD, Thomas S, Ellis JD, Schneider DK, Leach J, Bonnette S, Myer GD.

J Sci Med Sport. 2019 Feb;22(2):169-174. doi: 10.1016/j.jsams.2018.07.004. Epub 2018 Jul 10.


Alterations in knee sensorimotor brain functional connectivity contributes to ACL injury in male high-school football players: a prospective neuroimaging analysis.

Diekfuss JA, Grooms DR, Nissen KS, Schneider DK, Foss KDB, Thomas S, Bonnette S, Dudley JA, Yuan W, Reddington DL, Ellis JD, Leach J, Gordon M, Lindsey C, Rushford K, Shafer C, Myer GD.

Braz J Phys Ther. 2019 Jul 17. pii: S1413-3555(18)31043-8. doi: 10.1016/j.bjpt.2019.07.004. [Epub ahead of print]


Real-time biofeedback to target risk of anterior cruciate ligament injury: a technical report for injury prevention and rehabilitation.

Ford KR, DiCesare CA, Myer GD, Hewett TE.

J Sport Rehabil. 2015 May 20;24(2). pii: 2013-0138. doi: 10.1123/jsr.2013-0138. Print 2015 May 1.


Differential neuromuscular training effects on ACL injury risk factors in"high-risk" versus "low-risk" athletes.

Myer GD, Ford KR, Brent JL, Hewett TE.

BMC Musculoskelet Disord. 2007 May 8;8:39.


Real-time optimized biofeedback utilizing sport techniques (ROBUST): a study protocol for a randomized controlled trial.

Taylor JB, Nguyen AD, Paterno MV, Huang B, Ford KR.

BMC Musculoskelet Disord. 2017 Feb 7;18(1):71. doi: 10.1186/s12891-017-1436-1.


Augmented feedback supports skill transfer and reduces high-risk injury landing mechanics: a double-blind, randomized controlled laboratory study.

Myer GD, Stroube BW, DiCesare CA, Brent JL, Ford KR, Heidt RS Jr, Hewett TE.

Am J Sports Med. 2013 Mar;41(3):669-77. doi: 10.1177/0363546512472977. Epub 2013 Jan 31.


The effects of a subsequent jump on the knee abduction angle during the early landing phase.

Ishida T, Koshino Y, Yamanaka M, Ueno R, Taniguchi S, Samukawa M, Saito H, Matsumoto H, Aoki Y, Tohyama H.

BMC Musculoskelet Disord. 2018 Oct 20;19(1):379. doi: 10.1186/s12891-018-2291-4.


Effectiveness of Neuromuscular Training Based on the Neuromuscular Risk Profile.

Hewett TE, Ford KR, Xu YY, Khoury J, Myer GD.

Am J Sports Med. 2017 Jul;45(9):2142-2147. doi: 10.1177/0363546517700128. Epub 2017 Apr 25.


Real-time feedback during drop landing training improves subsequent frontal and sagittal plane knee kinematics.

Nyman E Jr, Armstrong CW.

Clin Biomech (Bristol, Avon). 2015 Nov;30(9):988-94. doi: 10.1016/j.clinbiomech.2015.06.018. Epub 2015 Jun 27.


Effect of a neuromuscular training program on the kinetics and kinematics of jumping tasks.

Chappell JD, Limpisvasti O.

Am J Sports Med. 2008 Jun;36(6):1081-6. doi: 10.1177/0363546508314425. Epub 2008 Mar 21.


Different exercise training interventions and drop-landing biomechanics in high school female athletes.

Pfile KR, Hart JM, Herman DC, Hertel J, Kerrigan DC, Ingersoll CD.

J Athl Train. 2013 Jul-Aug;48(4):450-62. doi: 10.4085/1062-6050-48.4.06. Epub 2013 Jun 14.


Application of a clinic-based algorithm as a tool to identify female athletes at risk for anterior cruciate ligament injury: a prospective cohort study with a nested, matched case-control analysis.

Goetschius J, Smith HC, Vacek PM, Holterman LA, Shultz SJ, Tourville TW, Slauterbeck J, Johnson RJ, Beynnon BD.

Am J Sports Med. 2012 Sep;40(9):1978-84. doi: 10.1177/0363546512456972. Epub 2012 Aug 9.


Effects of Neuromuscular Fatigue on Quadriceps Strength and Activation and Knee Biomechanics in Individuals Post-Anterior Cruciate Ligament Reconstruction and Healthy Adults.

Thomas AC, Lepley LK, Wojtys EM, McLean SG, Palmieri-Smith RM.

J Orthop Sports Phys Ther. 2015 Dec;45(12):1042-50. doi: 10.2519/jospt.2015.5785. Epub 2015 Oct 15.


Effects of an Intervention Program on Lower Extremity Biomechanics in Stop-Jump and Side-Cutting Tasks.

Yang C, Yao W, Garrett WE, Givens DL, Hacke J, Liu H, Yu B.

Am J Sports Med. 2018 Oct;46(12):3014-3022. doi: 10.1177/0363546518793393. Epub 2018 Aug 27.


Functional Performance Among Active Female Soccer Players After Unilateral Primary Anterior Cruciate Ligament Reconstruction Compared With Knee-Healthy Controls.

Fältström A, Hägglund M, Kvist J.

Am J Sports Med. 2017 Feb;45(2):377-385. doi: 10.1177/0363546516667266. Epub 2016 Oct 7.


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 Jr, Colosimo AJ, McLean SG, van den Bogert AJ, Paterno MV, Succop P.

Am J Sports Med. 2005 Apr;33(4):492-501. Epub 2005 Feb 8.


Clinical Efficacy of Jump Training Augmented With Body Weight Support After ACL Reconstruction: A Randomized Controlled Trial.

Elias ARC, Harris KJ, LaStayo PC, Mizner RL.

Am J Sports Med. 2018 Jun;46(7):1650-1660. doi: 10.1177/0363546518759052. Epub 2018 Mar 20.


Visual-Motor Control of Drop Landing After Anterior Cruciate Ligament Reconstruction.

Grooms DR, Chaudhari A, Page SJ, Nichols-Larsen DS, Onate JA.

J Athl Train. 2018 May;53(5):486-496. doi: 10.4085/1062-6050-178-16. Epub 2018 May 11.


A Commentary on Real-Time Biofeedback to Augment Neuromuscular Training for ACL Injury Prevention in Adolescent Athletes.

Kiefer AW, Kushner AM, Groene J, Williams C, Riley MA, Myer GD.

J Sports Sci Med. 2015 Mar 1;14(1):1-8. eCollection 2015 Mar. Review.

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