Finite centroid and helical axis estimation from noisy landmark measurements in the study of human joint kinematics

Woltring, H. J.; Huiskes, R.; de Lange, A.; Veldpaus, F. E.

Affiliations

¹Biomechanics Section, Laboratory for Experimental Orthopaedics, Faculty of Medicine and Dentistry, University of Nijmegen, P.O. Box 9101, NL-6500 HB Nijmegen, The Netherlands

²Department of Mechanical Engineering, Technical University Eindhoven, P.O. Box 513, NL-5600 MB Eindhoven, The Netherlands

Abstract

Recent work on joint kinematics indicates that the finite centroid (centre of rotation) and the finite helical axis (axis of rotation, screw axis, twist axis) are highly susceptible to measurement errors when they are experimentally determined from landmark position data. This paper presents an analytical model to describe these effects, under isotropic conditions for the measurement errors and for the spatial landmark distribution. It appears that the position and direction errors are inversely proportional to the rotation magnitude, and that they are much more error-prone than the relatively well-determined rotation and translation magnitudes. Furthermore, the direction and rotation magnitude errors are inversely proportional to the landmark distribution radius, and the position and translation magnitude errors are minimal if the mean position of the landmarks coincides with the centroid or helical axis. For the planar centroid, the use of rigid-body constraints results in considerable precision improvement relative to the classical, finite Reuleaux method for centroid reconstruction.

These analytical results can be used to define suitable measurement configurations, and they are used in this paper to explain experimental results on Röntgenphotogrammetrically acquired, in vitro wrist joint movement.

Links

DOI: 10.1016/0021-9290(85)90293-3

PubMed: 4008508

WoS: A1985AKQ7500008

History

Received: 1983-12

Revised: 1984-12-12

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Cited By (33)

Year	Entry
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1988	Veldpaus FE, Woltring HJ, Dortmans JMG. A least-squares algorithm for the equiform transformation from spatial marker co-ordinates. J Biomech. 1988;21(1):45-54.
1988	Blankevoort L, Huiskes R, de Lange A. The envelope of passive knee joint motion. J Biomech. 1988;21(9):705-720.
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2023	Bassett KE, Charles SK, Bruening DA. The signed helical angle: a technique for characterizing midfoot motion during gait. J Biomech. October 2023;159:111791.
1992	Soslowsky LJ, Flatow EL, Bigliani LU, Pawluk RJ, Ateshian GA, Mow VC. Quantitation of in situ contact areas at the glenohumeral joint: a biomechanical study. J Orthop Res. July 1992;10(4):524-534.
2022	Dandridge O, Garner A, Amis AA, Cobb JP, van Arkel RJ. Variation in the patellar tendon moment arm identified with an improved measurement framework. J Orthop Res. April 2022;40(4):799-807.
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