A reconfigurable high-speed Stereo-Radiography system for sub-millimeter measurement of in vivo joint kinematics

John C. Ivester; Adam J. Cyr; Michael D. Harris; Martin J. Kulis; Paul J. Rullkoetter; Kevin B. Shelburne

doi:10.1115/1.4030778

A reconfigurable high-speed Stereo-Radiography system for sub-millimeter measurement of in vivo joint kinematics

John C. Ivester
, Adam J. Cyr
, Michael D. Harris
, Martin J. Kulis
, Paul J. Rullkoetter
, Kevin B. Shelburne

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

46 Scopus citations

Abstract

Relative motions within normal and pathological joints of the human body can occur on the sub-millimeter and sub-degree scale. Dynamic radiography can be used to create a rapid sequence of images from which measurements of bone motion can be extracted, but available systems have limited speed and accuracy, limit normal subject movement, and do not easily integrate into existing traditional motion capture laboratories. A highspeed stereo radiography (HSSR) system is described that addresses these limitations. The custom radiography system was placed on a standalone reconfigurable gantry structure designed to allow freedom of subject movement while integrating into an existing motion capture laboratory. Validation of the system and measurement of knee kinematics of subjects during gait confirmed the ability to record joint motion with high accuracy and high-speed.

Original language	English
Article number	041009
Journal	Journal of Medical Devices, Transactions of the ASME
Volume	9
Issue number	4
DOIs	https://doi.org/10.1115/1.4030778
State	Published - 2015

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title = "A reconfigurable high-speed Stereo-Radiography system for sub-millimeter measurement of in vivo joint kinematics",

abstract = "Relative motions within normal and pathological joints of the human body can occur on the sub-millimeter and sub-degree scale. Dynamic radiography can be used to create a rapid sequence of images from which measurements of bone motion can be extracted, but available systems have limited speed and accuracy, limit normal subject movement, and do not easily integrate into existing traditional motion capture laboratories. A highspeed stereo radiography (HSSR) system is described that addresses these limitations. The custom radiography system was placed on a standalone reconfigurable gantry structure designed to allow freedom of subject movement while integrating into an existing motion capture laboratory. Validation of the system and measurement of knee kinematics of subjects during gait confirmed the ability to record joint motion with high accuracy and high-speed.",

author = "Ivester, \{John C.\} and Cyr, \{Adam J.\} and Harris, \{Michael D.\} and Kulis, \{Martin J.\} and Rullkoetter, \{Paul J.\} and Shelburne, \{Kevin B.\}",

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AU - Ivester, John C.

AU - Cyr, Adam J.

AU - Harris, Michael D.

AU - Kulis, Martin J.

AU - Rullkoetter, Paul J.

AU - Shelburne, Kevin B.

PY - 2015

Y1 - 2015

N2 - Relative motions within normal and pathological joints of the human body can occur on the sub-millimeter and sub-degree scale. Dynamic radiography can be used to create a rapid sequence of images from which measurements of bone motion can be extracted, but available systems have limited speed and accuracy, limit normal subject movement, and do not easily integrate into existing traditional motion capture laboratories. A highspeed stereo radiography (HSSR) system is described that addresses these limitations. The custom radiography system was placed on a standalone reconfigurable gantry structure designed to allow freedom of subject movement while integrating into an existing motion capture laboratory. Validation of the system and measurement of knee kinematics of subjects during gait confirmed the ability to record joint motion with high accuracy and high-speed.

AB - Relative motions within normal and pathological joints of the human body can occur on the sub-millimeter and sub-degree scale. Dynamic radiography can be used to create a rapid sequence of images from which measurements of bone motion can be extracted, but available systems have limited speed and accuracy, limit normal subject movement, and do not easily integrate into existing traditional motion capture laboratories. A highspeed stereo radiography (HSSR) system is described that addresses these limitations. The custom radiography system was placed on a standalone reconfigurable gantry structure designed to allow freedom of subject movement while integrating into an existing motion capture laboratory. Validation of the system and measurement of knee kinematics of subjects during gait confirmed the ability to record joint motion with high accuracy and high-speed.

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JF - Journal of Medical Devices, Transactions of the ASME

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ER -

A reconfigurable high-speed Stereo-Radiography system for sub-millimeter measurement of in vivo joint kinematics

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