Automated analysis of trapeziometacarpal joint kinematics using four-dimensional computed tomography

Benyameen Keelson; Kjell Van Royen; Tjeerd Arnaldo Jager; Nico Buls; Thierry Scheerlinck; Erik Cattrysse

doi:10.1177/17531934241229948

Automated analysis of trapeziometacarpal joint kinematics using four-dimensional computed tomography

Benyameen Keelson, Kjell Van Royen, Tjeerd Arnaldo Jager, Nico Buls, Thierry Scheerlinck, Erik Cattrysse

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

Abstract

The aim of this study was to develop an automated approach model to define in vivo kinematics of the trapeziometacarpal (TMC) joint using four-dimensional computed tomography. A total of 15 healthy volunteers were included and their TMC joint kinematics were studied during a retropulsion-opposition-retropulsion movement. We used cardan angles estimated from transformation matrices using a ZYX-decomposition and analysed the motion of the thumb metacarpal relative to the trapezium, the thumb metacarpal relative to the index metacarpal, and the trapezium relative to the index metacarpal. The study also included an analysis of the joint hysteresis effect and a joint proximity model that estimated the joint contact area during a retropulsion-opposition-retropulsion movement. The automated approach significantly decreased the time needed to analyse each case and makes this model applicable for further research on TMC kinematics.

Original language	English
Journal	The Journal of Hand Surgery (European Volume)
Volume	49
Issue number	3
DOIs	https://doi.org/10.1177/17531934241229948
Publication status	Published - 31 Jan 2024

Bibliographical note

Funding Information:
The authors disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This research was funded by the interdisciplinary research project grant (IRP10) from the Vrije Universiteit Brussel (VUB).

Publisher Copyright:
© The Author(s) 2024.

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title = "Automated analysis of trapeziometacarpal joint kinematics using four-dimensional computed tomography",

abstract = "The aim of this study was to develop an automated approach model to define in vivo kinematics of the trapeziometacarpal (TMC) joint using four-dimensional computed tomography. A total of 15 healthy volunteers were included and their TMC joint kinematics were studied during a retropulsion-opposition-retropulsion movement. We used cardan angles estimated from transformation matrices using a ZYX-decomposition and analysed the motion of the thumb metacarpal relative to the trapezium, the thumb metacarpal relative to the index metacarpal, and the trapezium relative to the index metacarpal. The study also included an analysis of the joint hysteresis effect and a joint proximity model that estimated the joint contact area during a retropulsion-opposition-retropulsion movement. The automated approach significantly decreased the time needed to analyse each case and makes this model applicable for further research on TMC kinematics.",

author = "Benyameen Keelson and {Van Royen}, Kjell and Jager, {Tjeerd Arnaldo} and Nico Buls and Thierry Scheerlinck and Erik Cattrysse",

note = "Funding Information: The authors disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This research was funded by the interdisciplinary research project grant (IRP10) from the Vrije Universiteit Brussel (VUB). Publisher Copyright: {\textcopyright} The Author(s) 2024.",

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AU - Keelson, Benyameen

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AU - Jager, Tjeerd Arnaldo

AU - Buls, Nico

AU - Scheerlinck, Thierry

AU - Cattrysse, Erik

N1 - Funding Information: The authors disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This research was funded by the interdisciplinary research project grant (IRP10) from the Vrije Universiteit Brussel (VUB). Publisher Copyright: © The Author(s) 2024.

PY - 2024/1/31

Y1 - 2024/1/31

N2 - The aim of this study was to develop an automated approach model to define in vivo kinematics of the trapeziometacarpal (TMC) joint using four-dimensional computed tomography. A total of 15 healthy volunteers were included and their TMC joint kinematics were studied during a retropulsion-opposition-retropulsion movement. We used cardan angles estimated from transformation matrices using a ZYX-decomposition and analysed the motion of the thumb metacarpal relative to the trapezium, the thumb metacarpal relative to the index metacarpal, and the trapezium relative to the index metacarpal. The study also included an analysis of the joint hysteresis effect and a joint proximity model that estimated the joint contact area during a retropulsion-opposition-retropulsion movement. The automated approach significantly decreased the time needed to analyse each case and makes this model applicable for further research on TMC kinematics.

AB - The aim of this study was to develop an automated approach model to define in vivo kinematics of the trapeziometacarpal (TMC) joint using four-dimensional computed tomography. A total of 15 healthy volunteers were included and their TMC joint kinematics were studied during a retropulsion-opposition-retropulsion movement. We used cardan angles estimated from transformation matrices using a ZYX-decomposition and analysed the motion of the thumb metacarpal relative to the trapezium, the thumb metacarpal relative to the index metacarpal, and the trapezium relative to the index metacarpal. The study also included an analysis of the joint hysteresis effect and a joint proximity model that estimated the joint contact area during a retropulsion-opposition-retropulsion movement. The automated approach significantly decreased the time needed to analyse each case and makes this model applicable for further research on TMC kinematics.

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JO - The Journal of Hand Surgery (European Volume)

JF - The Journal of Hand Surgery (European Volume)

SN - 1753-1934

IS - 3

ER -

Automated analysis of trapeziometacarpal joint kinematics using four-dimensional computed tomography

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