Minimizing the Translation Error in the Application of an Oblique Single-Cut Rotation Osteotomy: Where to Cut?

Objective: An oblique single cut rotation osteotomy enables correcting angular bone alignment in the coronal, sagittal, and transverse planes, with just a single oblique osteotomy, and by rotating one bone segment in the osteotomy plane. However, translational malalignment is likely to exist if the...

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Published in:IEEE transactions on biomedical engineering 2018-04, Vol.65 (4), p.821-827
Main Authors: Dobbe, Johannes G. G., Strackee, Simon D., Streekstra, Geert J.
Format: Article
Language:English
Subjects:
3-D planning
Algorithms
Alignment
Biocompatibility
Blood
Bones
Computer-aided surgery
double-cut osteotomy
Humans
Image segmentation
Imaging, Three-Dimensional - methods
Medical personnel
oblique osteotomy
Optimization
Osteotomy
Osteotomy - methods
Planning
Radius - diagnostic imaging
Radius - surgery
Radius Fractures - diagnostic imaging
Radius Fractures - surgery
Rotation
Solid modeling
Surgeons
Surgery
Surgery, Computer-Assisted - methods
Translation
Translations
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creator Dobbe, Johannes G. G.
Strackee, Simon D.
Streekstra, Geert J.
description Objective: An oblique single cut rotation osteotomy enables correcting angular bone alignment in the coronal, sagittal, and transverse planes, with just a single oblique osteotomy, and by rotating one bone segment in the osteotomy plane. However, translational malalignment is likely to exist if the bone is curved or deformed and the location of the oblique osteotomy is not obvious. Methods: In this paper, we investigate how translational malalignment depends on the osteotomy location. We further propose and evaluate by simulation in 3-D, a method that minimizes translational malalignment by varying the osteotomy location and by sliding the distal bone segment with respect to the proximal bone segment within the oblique osteotomy plane. The method is finally compared to what three surgeons achieve by manually selecting the osteotomy location in 3-D virtual space without planning in-plane translations. Results: The minimization method optimized for length better than the surgeons did, by 3.2 mm on average, range (0.1, 9.4) mm, in 82% of the cases. A better translation in the axial plane was achieved by 4.1 mm on average, range (0.3, 14.4) mm, in 77% of the cases. Conclusion: The proposed method generally performs better than subjectively choosing an osteotomy position along the bone axis. Significance: The proposed method is considered a valuable tool for future alignment planning of an oblique single-cut rotation osteotomy since it helps minimizing translational malalignment.
doi_str_mv 10.1109/TBME.2017.2721498
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The method is finally compared to what three surgeons achieve by manually selecting the osteotomy location in 3-D virtual space without planning in-plane translations. Results: The minimization method optimized for length better than the surgeons did, by 3.2 mm on average, range (0.1, 9.4) mm, in 82% of the cases. A better translation in the axial plane was achieved by 4.1 mm on average, range (0.3, 14.4) mm, in 77% of the cases. Conclusion: The proposed method generally performs better than subjectively choosing an osteotomy position along the bone axis. 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G.</au><au>Strackee, Simon D.</au><au>Streekstra, Geert J.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Minimizing the Translation Error in the Application of an Oblique Single-Cut Rotation Osteotomy: Where to Cut?</atitle><jtitle>IEEE transactions on biomedical engineering</jtitle><stitle>TBME</stitle><addtitle>IEEE Trans Biomed Eng</addtitle><date>2018-04-01</date><risdate>2018</risdate><volume>65</volume><issue>4</issue><spage>821</spage><epage>827</epage><pages>821-827</pages><issn>0018-9294</issn><eissn>1558-2531</eissn><coden>IEBEAX</coden><abstract>Objective: An oblique single cut rotation osteotomy enables correcting angular bone alignment in the coronal, sagittal, and transverse planes, with just a single oblique osteotomy, and by rotating one bone segment in the osteotomy plane. However, translational malalignment is likely to exist if the bone is curved or deformed and the location of the oblique osteotomy is not obvious. Methods: In this paper, we investigate how translational malalignment depends on the osteotomy location. We further propose and evaluate by simulation in 3-D, a method that minimizes translational malalignment by varying the osteotomy location and by sliding the distal bone segment with respect to the proximal bone segment within the oblique osteotomy plane. The method is finally compared to what three surgeons achieve by manually selecting the osteotomy location in 3-D virtual space without planning in-plane translations. Results: The minimization method optimized for length better than the surgeons did, by 3.2 mm on average, range (0.1, 9.4) mm, in 82% of the cases. A better translation in the axial plane was achieved by 4.1 mm on average, range (0.3, 14.4) mm, in 77% of the cases. Conclusion: The proposed method generally performs better than subjectively choosing an osteotomy position along the bone axis. 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source IEEE Xplore All Conference Series
subjects 3-D planning
Algorithms
Alignment
Biocompatibility
Blood
Bones
Computer-aided surgery
double-cut osteotomy
Humans
Image segmentation
Imaging, Three-Dimensional - methods
Medical personnel
oblique osteotomy
Optimization
Osteotomy
Osteotomy - methods
Planning
Radius - diagnostic imaging
Radius - surgery
Radius Fractures - diagnostic imaging
Radius Fractures - surgery
Rotation
Solid modeling
Surgeons
Surgery
Surgery, Computer-Assisted - methods
Translation
Translations
title Minimizing the Translation Error in the Application of an Oblique Single-Cut Rotation Osteotomy: Where to Cut?
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