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Julia
Ford
Author
Graduate School
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
Spring 2017
2017
Kinesiology
eng
Master of Arts
Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
Julia
Ford
Author
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
Spring 2017
2017
Kinesiology
eng
Master of Arts
Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact
Biomechanics
This study sought to determine functional movement assessments’ ability to
predict head impact biomechanics in collegiate football players. Participants underwent
preseason functional movement assessment screenings and wore instrumented helmets for the
ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing
Error Scoring System (LESS) would have greater linear and rotational acceleration and
increased frequency of severe head impacts as compared to those who perform well on the
movement assessments. We also hypothesized that players who sustained high impact
frequencies throughout the season will demonstrate a decline in movement assessment
performance, as measure by Fusionetics and LESS.
Spring 2017
2017
Kinesiology
eng
Master of Arts
Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting
institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
Spring 2017
2017
Kinesiology
eng
Master of Arts
Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017-05
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin A.
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin A.
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
University of North Carolina at Chapel Hill
Degree granting institution
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Exercise and Sport Science
Jason
Mihalik
Thesis advisor
Darin A.
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Julia
Ford
Creator
Department of Exercise and Sport Science
College of Arts and Sciences
Functional Movement Assessment as a Predictor of Head Impact Biomechanics
This study sought to determine functional movement assessments’ ability to predict head impact biomechanics in collegiate football players. Participants underwent preseason functional movement assessment screenings and wore instrumented helmets for the ensuing season. We hypothesized that players who perform poorly on Fusionetics and Landing Error Scoring System (LESS) would have greater linear and rotational acceleration and increased frequency of severe head impacts as compared to those who perform well on the movement assessments. We also hypothesized that players who sustained high impact frequencies throughout the season will demonstrate a decline in movement assessment performance, as measure by Fusionetics and LESS.
2017
Kinesiology
eng
Master of Arts
Masters Thesis
University of North Carolina at Chapel Hill Graduate School
Degree granting institution
Jason
Mihalik
Thesis advisor
Darin A.
Padua
Thesis advisor
Kody
Campbell
Thesis advisor
text
2017-05
Ford_unc_0153M_16852.pdf
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