Literature DB >> 24323402

A laboratory comparison of computer navigation and individualized guides for distal radius osteotomy.

Burton Ma1, Manuela Kunz, Braden Gammon, Randy E Ellis, David R Pichora.   

Abstract

PURPOSE: This article presents the results of a multiuser, randomized laboratory trial comparing the accuracy and precision of image-based navigation against individualized guides for distal radius osteotomy (DRO).
METHODS: Six surgeons each performed four DROs using image-based navigation and four DROs using individualized guides in a laboratory setting with plastic phantom replicas of radii from patients who had received DRO as treatment for radial deformity. Time required and correction errors of ulnar variance, radial inclination, and volar tilt were measured.
RESULTS: There were no statistically significant differences in the average correction errors. There was a statistically significant difference in the standard deviation of ulnar variance error (2.0 mm for navigation vs. 0.6 mm for guides). There was a statistically significant difference in the standard deviation of radial inclination error ([Formula: see text] for navigation vs. [Formula: see text] for guides). There were statistically significant differences in the times required (705 s for navigation vs. 214 s for guides) and their standard deviations (144 s for navigation vs. 98 s for guides).
CONCLUSIONS: Compared to navigated DRO, individualized guides were easier to use, faster, and produced more precise correction of ulnar variance and radial inclination. The combination of true three-dimensional planning, ease of use, and accurate and precise corrective guidance makes the individualized guide technique a promising approach for performing corrective osteotomy of the distal radius.

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Mesh:

Year:  2013        PMID: 24323402     DOI: 10.1007/s11548-013-0966-8

Source DB:  PubMed          Journal:  Int J Comput Assist Radiol Surg        ISSN: 1861-6410            Impact factor:   2.924


  30 in total

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5.  Computer-assisted planning and navigation for corrective distal radius osteotomy, based on pre- and intraoperative imaging.

Authors:  J G G Dobbe; S D Strackee; A W Schreurs; R Jonges; B Carelsen; J C Vroemen; C A Grimbergen; G J Streekstra
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7.  Computer-assisted and patient-specific 3-D planning and evaluation of a single-cut rotational osteotomy for complex long-bone deformities.

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Review 8.  Malunion of the distal radius.

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Authors:  J G G Dobbe; K J du Pré; L Blankevoort; G J Streekstra; P Kloen
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5.  Improving accuracy of opening-wedge osteotomies of distal radius using a patient-specific ramp-guide technique.

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6.  Application of computer-assisted navigation in mandibular angle osteotomy.

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7.  Application of 3D printed osteotomy guide plate-assisted total knee arthroplasty in treatment of valgus knee deformity.

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8.  A 3D printed cast for minimally invasive transfer of distal radius osteotomy: a cadaver study.

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10.  Positioning error of custom 3D-printed surgical guides for the radius: influence of fitting location and guide design.

Authors:  G Caiti; J G G Dobbe; G J Strijkers; S D Strackee; G J Streekstra
Journal:  Int J Comput Assist Radiol Surg       Date:  2017-11-06       Impact factor: 2.924
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