The accuracy and repeatability of an automatic 2D–3D fluoroscopic image-model registration technique for determining shoulder joint kinematics

Abstract Fluoroscopic imaging, using single plane or dual plane images, has grown in popularity to measure dynamic in vivo human shoulder joint kinematics. However, no study has quantified the difference in spatial positional accuracy between single and dual plane image-model registration applied to...

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Veröffentlicht in:Medical engineering & physics 2012-11, Vol.34 (9), p.1303-1309
Hauptverfasser: Zhu, Zhonglin, Massimini, Daniel F, Wang, Guangzhi, Warner, Jon J.P, Li, Guoan
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Sprache:eng
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Zusammenfassung:Abstract Fluoroscopic imaging, using single plane or dual plane images, has grown in popularity to measure dynamic in vivo human shoulder joint kinematics. However, no study has quantified the difference in spatial positional accuracy between single and dual plane image-model registration applied to the shoulder joint. In this paper, an automatic 2D–3D image-model registration technique was validated for accuracy and repeatability with single and dual plane fluoroscopic images. Accuracy was assessed in a cadaver model, kinematics found using the automatic registration technique were compared to those found using radiostereometric analysis. The in vivo repeatability of the automatic registration technique was assessed during the dynamic abduction motion of four human subjects. The in vitro data indicated that the error in spatial positional accuracy of the humerus and the scapula was less than 0.30 mm in translation and less than 0.58° in rotation using dual plane images. Single plane accuracy was satisfactory for in-plane motion variables, but out-of-plane motion variables on average were approximately 8 times less accurate. The in vivo test indicated that the repeatability of the automatic 2D–3D image-model registration was 0.50 mm in translation and 1.04° in rotation using dual images. For a single plane technique, the repeatability was 3.31 mm in translation and 2.46° in rotation for measuring shoulder joint kinematics. The data demonstrate that accurate and repeatable shoulder joint kinematics can be obtained using dual plane fluoroscopic images with an automatic 2D–3D image-model registration technique; and that out-of-plane motion variables are less accurate than in-plane motion variables using a single plane technique.
ISSN:1350-4533
1873-4030
DOI:10.1016/j.medengphy.2011.12.021