Preliminary Report on the Train the Brain Project, Part I: Sensorimotor Neural Correlates of Anterior Cruciate Ligament Injury Risk Biomechanics

Dustin  R Grooms; Jed  A Diekfuss; Alexis  B Slutsky-Ganesh; Jonathan  D Ellis; Cody  R Criss; Staci  M Thomas; Christopher  A DiCesare; Phil Wong; Manish Anand; Joseph Lamplot; Janet  E Simon; Gregory  D Myer; Alexis Ganesh

Preliminary Report on the Train the Brain Project, Part I: Sensorimotor Neural Correlates of Anterior Cruciate Ligament Injury Risk Biomechanics

Dustin R Grooms
, Jed A Diekfuss
, Alexis B Slutsky-Ganesh
, Jonathan D Ellis
, Cody R Criss
, Staci M Thomas
, Christopher A DiCesare
, Phil Wong
, Manish Anand
, Joseph Lamplot
, Janet E Simon
, Gregory D Myer
, Alexis Ganesh

Kinesiology

Research output: Contribution to journal › Article › peer-review

Abstract

Anterior cruciate ligament injury commonly occurs via noncontact motor coordination errors that result in excessive multiplanar loading during athletic movements. Preventing motor coordination errors requires neural sensorimotor integration activity to support knee-joint neuromuscular control, but the underlying neural mechanisms driving injury-risk motor control are not well understood.

Original language	English
Pages (from-to)	902-910
Journal	Unknown journal
Volume	57
Issue number	9-10
State	Published - 2022

Cite this

Grooms, D. R., Diekfuss, J. A., Slutsky-Ganesh, A. B., Ellis, J. D., Criss, C. R., Thomas, S. M., DiCesare, C. A., Wong, P., Anand, M., Lamplot, J., Simon, J. E., Myer, G. D., & Ganesh, A. (2022). Preliminary Report on the Train the Brain Project, Part I: Sensorimotor Neural Correlates of Anterior Cruciate Ligament Injury Risk Biomechanics. Unknown journal, 57(9-10), 902-910.

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title = "Preliminary Report on the Train the Brain Project, Part I: Sensorimotor Neural Correlates of Anterior Cruciate Ligament Injury Risk Biomechanics",

abstract = "Anterior cruciate ligament injury commonly occurs via noncontact motor coordination errors that result in excessive multiplanar loading during athletic movements. Preventing motor coordination errors requires neural sensorimotor integration activity to support knee-joint neuromuscular control, but the underlying neural mechanisms driving injury-risk motor control are not well understood.",

author = "Grooms, \{Dustin R\} and Diekfuss, \{Jed A\} and Slutsky-Ganesh, \{Alexis B\} and Ellis, \{Jonathan D\} and Criss, \{Cody R\} and Thomas, \{Staci M\} and DiCesare, \{Christopher A\} and Phil Wong and Manish Anand and Joseph Lamplot and Simon, \{Janet E\} and Myer, \{Gregory D\} and Alexis Ganesh",

year = "2022",

language = "English",

volume = "57",

pages = "902--910",

journal = "Unknown journal",

number = "9-10",

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T1 - Preliminary Report on the Train the Brain Project, Part I: Sensorimotor Neural Correlates of Anterior Cruciate Ligament Injury Risk Biomechanics

AU - Grooms, Dustin R

AU - Diekfuss, Jed A

AU - Slutsky-Ganesh, Alexis B

AU - Ellis, Jonathan D

AU - Criss, Cody R

AU - Thomas, Staci M

AU - DiCesare, Christopher A

AU - Wong, Phil

AU - Anand, Manish

AU - Lamplot, Joseph

AU - Simon, Janet E

AU - Myer, Gregory D

AU - Ganesh, Alexis

PY - 2022

Y1 - 2022

N2 - Anterior cruciate ligament injury commonly occurs via noncontact motor coordination errors that result in excessive multiplanar loading during athletic movements. Preventing motor coordination errors requires neural sensorimotor integration activity to support knee-joint neuromuscular control, but the underlying neural mechanisms driving injury-risk motor control are not well understood.

AB - Anterior cruciate ligament injury commonly occurs via noncontact motor coordination errors that result in excessive multiplanar loading during athletic movements. Preventing motor coordination errors requires neural sensorimotor integration activity to support knee-joint neuromuscular control, but the underlying neural mechanisms driving injury-risk motor control are not well understood.

M3 - Article

VL - 57

SP - 902

EP - 910

JO - Unknown journal

JF - Unknown journal

IS - 9-10

ER -

Preliminary Report on the Train the Brain Project, Part I: Sensorimotor Neural Correlates of Anterior Cruciate Ligament Injury Risk Biomechanics

Abstract

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