Abstract
Purpose
Utilization of 3D-printed patient-specific surgical guides is a promising navigation approach for orthopedic surgery. However, navigation errors can arise if the guide is not correctly positioned at the planned bone location, compromising the surgical outcome. Quantitative measurements of guide positioning errors are rarely reported and have never been related to guide design and underlying bone anatomy. In this study, the positioning accuracy of a standard and an extended guide design with lateral extension is evaluated at different fitting locations (distal, mid-shaft and proximal) on the volar side of the radius.
Methods
Four operators placed the surgical guides on 3D-printed radius models obtained from the CT scans of six patients. For each radius model, every operator positioned two guide designs on the three fitting locations. The residual positioning error was quantified with a CT-based image analysis method in terms of the mean target registration error (mTRE), total translation error ( \(\Delta T\) ) and total rotation error ( \(\Delta R\) ) by comparing the actual guide position with the preoperatively planned position. Three generalized linear regression models were constructed to evaluate if the fitting location and the guide design affected mTRE, \(\Delta T\) and \(\Delta R\) .
Results
mTRE, \(\Delta T\) and \(\Delta R\) were significantly higher for mid-shaft guides ( \(p=0.0001,\,p= 0.0001\,\hbox {and} p=0.001\) ) compared to distal guides. The guide extension significantly improved the target registration and translational accuracy in all the volar radius locations ( \(p=0.001\) ). However, in the mid-shaft region, the guide extension yielded an increased total rotational error ( \(p= 0.0001\) ).
Conclusion
Our study demonstrates that positioning accuracy depends on the fitting location and on the guide design. In distal and proximal radial regions, the accuracy of guides with lateral extension is higher than standard guides and is therefore recommended for future use.
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