Reliability of Markerless Motion Capture Systems for Assessing Movement Screenings

Background: Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track 3-dimensional motion. Purpose: To determine the reliability of movement screenings assessed using a markerless motion capture system when comparin...

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Published inOrthopaedic journal of sports medicine Vol. 12; no. 3; p. 23259671241234339
Main Authors Hauenstein, Jonathan D., Huebner, Alan, Wagle, John P., Cobian, Emma R., Cummings, Joseph, Hills, Caroline, McGinty, Megan, Merritt, Mandy, Rosengarten, Sam, Skinner, Kyle, Szemborski, Michael, Wojtkiewicz, Leigh
Format Journal Article
LanguageEnglish
Published Los Angeles, CA SAGE Publications 01.03.2024
Sage Publications Ltd
Subjects
Kinematics
Motion capture
Original Research
kinematic variables
interrater reliability
intrarater reliability
markerless motion capture
movement screening
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Abstract Background: Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track 3-dimensional motion. Purpose: To determine the reliability of movement screenings assessed using a markerless motion capture system when comparing the results of multiple systems and multiple collection periods. Study Design: Descriptive laboratory study. Methods: The inter- and intrarater reliability of a commercially available markerless motion capture system were investigated in 21 recreationally active participants aged between 18 and 22 years. A total of 39 kinematic variables arising from 10 fundamental upper and lower body movements typical of a screening procedure in sports performance were considered. The data were statistically analyzed in terms of relative error via the intraclass correlation coefficient (ICC) and absolute error via the residual standard error (RSE). Results: Both inter- and intrarater reliability ICCs were at least moderate across all variables (ICC, >0.50), with most movements and corresponding variables having excellent reliability (ICC, >0.90). Although maximum knee valgus angles were the kinematic variables with the lowest interrater reliability (ICCs, 0.59-0.82) and moderate relative agreement, there was agreement in absolute terms with an RSE of <1.3°. Conclusion: Findings indicated that markerless motion capture provides reliable measurements of joint position during a movement screen, which allows for a more objective evaluation of the direction and subsequent success of interventions. However, practitioners should consider relative and absolute agreements when applying information provided by these systems. Clinical Relevance: Markerless motion capture systems may assist clinicians by reliably assessing movement screenings using different systems over different collection periods.
AbstractList BackgroundMovement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track 3-dimensional motion.PurposeTo determine the reliability of movement screenings assessed using a markerless motion capture system when comparing the results of multiple systems and multiple collection periods.Study DesignDescriptive laboratory study.MethodsThe inter- and intrarater reliability of a commercially available markerless motion capture system were investigated in 21 recreationally active participants aged between 18 and 22 years. A total of 39 kinematic variables arising from 10 fundamental upper and lower body movements typical of a screening procedure in sports performance were considered. The data were statistically analyzed in terms of relative error via the intraclass correlation coefficient (ICC) and absolute error via the residual standard error (RSE).ResultsBoth inter- and intrarater reliability ICCs were at least moderate across all variables (ICC, >0.50), with most movements and corresponding variables having excellent reliability (ICC, >0.90). Although maximum knee valgus angles were the kinematic variables with the lowest interrater reliability (ICCs, 0.59-0.82) and moderate relative agreement, there was agreement in absolute terms with an RSE of <1.3°.ConclusionFindings indicated that markerless motion capture provides reliable measurements of joint position during a movement screen, which allows for a more objective evaluation of the direction and subsequent success of interventions. However, practitioners should consider relative and absolute agreements when applying information provided by these systems.Clinical RelevanceMarkerless motion capture systems may assist clinicians by reliably assessing movement screenings using different systems over different collection periods.
Background: Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track 3-dimensional motion. Purpose: To determine the reliability of movement screenings assessed using a markerless motion capture system when comparing the results of multiple systems and multiple collection periods. Study Design: Descriptive laboratory study. Methods: The inter- and intrarater reliability of a commercially available markerless motion capture system were investigated in 21 recreationally active participants aged between 18 and 22 years. A total of 39 kinematic variables arising from 10 fundamental upper and lower body movements typical of a screening procedure in sports performance were considered. The data were statistically analyzed in terms of relative error via the intraclass correlation coefficient (ICC) and absolute error via the residual standard error (RSE). Results: Both inter- and intrarater reliability ICCs were at least moderate across all variables (ICC, >0.50), with most movements and corresponding variables having excellent reliability (ICC, >0.90). Although maximum knee valgus angles were the kinematic variables with the lowest interrater reliability (ICCs, 0.59-0.82) and moderate relative agreement, there was agreement in absolute terms with an RSE of <1.3°. Conclusion: Findings indicated that markerless motion capture provides reliable measurements of joint position during a movement screen, which allows for a more objective evaluation of the direction and subsequent success of interventions. However, practitioners should consider relative and absolute agreements when applying information provided by these systems. Clinical Relevance: Markerless motion capture systems may assist clinicians by reliably assessing movement screenings using different systems over different collection periods.
Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track 3-dimensional motion. To determine the reliability of movement screenings assessed using a markerless motion capture system when comparing the results of multiple systems and multiple collection periods. Descriptive laboratory study. The inter- and intrarater reliability of a commercially available markerless motion capture system were investigated in 21 recreationally active participants aged between 18 and 22 years. A total of 39 kinematic variables arising from 10 fundamental upper and lower body movements typical of a screening procedure in sports performance were considered. The data were statistically analyzed in terms of relative error via the intraclass correlation coefficient (ICC) and absolute error via the residual standard error (RSE). Both inter- and intrarater reliability ICCs were at least moderate across all variables (ICC, >0.50), with most movements and corresponding variables having excellent reliability (ICC, >0.90). Although maximum knee valgus angles were the kinematic variables with the lowest interrater reliability (ICCs, 0.59-0.82) and moderate relative agreement, there was agreement in absolute terms with an RSE of <1.3°. Findings indicated that markerless motion capture provides reliable measurements of joint position during a movement screen, which allows for a more objective evaluation of the direction and subsequent success of interventions. However, practitioners should consider relative and absolute agreements when applying information provided by these systems. Markerless motion capture systems may assist clinicians by reliably assessing movement screenings using different systems over different collection periods.
Background: Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track 3-dimensional motion. Purpose: To determine the reliability of movement screenings assessed using a markerless motion capture system when comparing the results of multiple systems and multiple collection periods. Study Design: Descriptive laboratory study. Methods: The inter- and intrarater reliability of a commercially available markerless motion capture system were investigated in 21 recreationally active participants aged between 18 and 22 years. A total of 39 kinematic variables arising from 10 fundamental upper and lower body movements typical of a screening procedure in sports performance were considered. The data were statistically analyzed in terms of relative error via the intraclass correlation coefficient (ICC) and absolute error via the residual standard error (RSE). Results: Both inter- and intrarater reliability ICCs were at least moderate across all variables (ICC, >0.50), with most movements and corresponding variables having excellent reliability (ICC, >0.90). Although maximum knee valgus angles were the kinematic variables with the lowest interrater reliability (ICCs, 0.59-0.82) and moderate relative agreement, there was agreement in absolute terms with an RSE of <1.3°. Conclusion: Findings indicated that markerless motion capture provides reliable measurements of joint position during a movement screen, which allows for a more objective evaluation of the direction and subsequent success of interventions. However, practitioners should consider relative and absolute agreements when applying information provided by these systems. Clinical Relevance: Markerless motion capture systems may assist clinicians by reliably assessing movement screenings using different systems over different collection periods.
Author McGinty, Megan
Skinner, Kyle
Hauenstein, Jonathan D.
Huebner, Alan
Rosengarten, Sam
Wagle, John P.
Merritt, Mandy
Hills, Caroline
Cobian, Emma R.
Cummings, Joseph
Szemborski, Michael
Wojtkiewicz, Leigh
AuthorAffiliation Department of Applied and Computational Mathematics and Statistics, University of Notre Dame, Notre Dame, Indiana, USA
Baltimore Ravens, Under Armour Performance Center, Owings Mills, Maryland, USA
University of Notre Dame, Sports Performance, Notre Dame, Indiana, USA
University of Notre Dame, Data & Analytics, Notre Dame, Indiana, USA
Investigation performed at the University of Notre Dame, Notre Dame, Indiana, USA
AuthorAffiliation_xml – name: University of Notre Dame, Sports Performance, Notre Dame, Indiana, USA
– name: Baltimore Ravens, Under Armour Performance Center, Owings Mills, Maryland, USA
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– name: University of Notre Dame, Data & Analytics, Notre Dame, Indiana, USA
– name: Department of Applied and Computational Mathematics and Statistics, University of Notre Dame, Notre Dame, Indiana, USA
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/38476162$$D View this record in MEDLINE/PubMed
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Issue 3
Keywords kinematic variables
interrater reliability
intrarater reliability
markerless motion capture
movement screening
Language English
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Snippet Background: Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track...
Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track 3-dimensional...
Background: Movement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track...
BackgroundMovement screenings are commonly used to detect unfavorable movement patterns. Markerless motion capture systems have been developed to track...
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StartPage 23259671241234339
SubjectTerms Kinematics
Motion capture
Original Research
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Title Reliability of Markerless Motion Capture Systems for Assessing Movement Screenings
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Volume 12
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