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HAND
Published in: HAND 2/2010

01-06-2010 | Original Article

Complex Radius Shaft Malunion: Osteotomy with Computer-Assisted Planning

Authors: Andreas Schweizer, Philipp Fürnstahl, Matthias Harders, Gábor Székely, Ladislav Nagy

Published in: HAND | Issue 2/2010

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Abstract

We report about two cases with a combined axial and angular malunion of the radius shaft with functional loss of pro-supination. For the preoperative planning, a computer simulation was developed that allows the quantification of the malunion by comparing the 3-d surface model of the impaired bone with the contralateral anatomy. The proximal parts of the left and right radii are superimposed, while the different positions of the distal parts are used to quantify the malunion. This task is performed fully automatically which reduces the overall planning time. The osteotomies were performed according to the results of the computer-aided planning. The first case showed 1 year postoperatively an increase of pronation from 40° to 70° at expense of supination from 95° to 90°. The patient was practically pain-free and reported functional improvement. The second case showed 6 months postoperatively an improvement of supination from 15° to 40° and of pronation from 50° to 60°. The computer-assisted operation planning facilitated the quantification of combined axial and angular malunions which were difficult to detect on plain radiographs.
Literature
1.
Beliakov G, Ugon J. Implementation of novel methods of global and nonsmooth optimization: GANSO programming library. Optimization. 2007;56:543–6.CrossRef
2.
Bindra RR, Cole RJ, Yamaguchi K, Evanoff BA, Pilgram TK, Gilula LA, et al. Quantification of the radial torsion angle with computerized tomography in cadaver specimens. J Bone Jt Surg Am. 1997;79:833–7.
3.
Blackburn N, Ziv I, Rang M. Correction of the malunited forearm fracture. Clin Orthop Relat Res. 1984;188:54–7.PubMed
4.
Chen Y, Medioni G. Object modelling by registration of multiple range images. Image Vis Comput. 1992;10:145–55.CrossRef
5.
Dumont CE, Thalmann R, Macy JC. The effect of rotational malunion of the radius and the ulna on supination and pronation. J Bone Jt Surg Br. 2002;84:1070–4.CrossRef
6.
Dumont CE, Pfirrmann CW, Ziegler D, Nagy L. Assessment of radial and ulnar torsion profiles with cross-sectional magnetic resonance imaging. A study of volunteers. J Bone Jt Surg Am. 2006;88:1582–8.CrossRef
7.
Dumont CE, Nagy L, Ziegler D, Pfirrmann CW. Fluoroscopic and magnetic resonance cross-sectional imaging assessments of radial and ulnar torsion profiles in volunteers. J Hand Surg (Am). 2007;32:501–9.CrossRef
8.
Fürnstahl P, Fuchs T, Schweizer A, Nagy L, Székely G, Harders M. Automatic and robust forearm segmentation using graph cuts. Paper presented at the Biomedical Imaging: From Nano to Macro, 2008. ISBI 2008. 5th IEEE International Symposium on, Paris, France, 2008.
9.
Fürnstahl P, Schweizer A, Nagy L, Székely G, Harders M. Computer-aided osteotomy planning. Proceedings of The 9th Computer Assisted Orthopaedic Surgery (CAOS), Livermore CA, Wing Span Press; 2009. p. 427–430.
10.
Harders M, Barlit A, Gerber C, Hodler J, Székely G. An optimized surgical planning environment for complex proximal humerus fractures, MICCAI Workshop on Interaction in Medical Image Analysis and Visualization; 2007.
11.
Lawrence C, Zhou JL, Tits A. User’s guide for CFSQP Version 2.5; 1997.
12.
Lorensen WE, Cline HE. Marching cubes: a high resolution 3D surface construction algorithm, In: SIGGRAPH ’87: Proceedings of the 14th annual conference on Computer graphics and interactive techniques; 1987.
13.
Matthews LS, Kaufer H, Garver DF, Sonstegard DA. The effect on supination-pronation of angular malalignment of fractures of both bones of the forearm. J Bone Jt Surg Am. 1982;64:14–7.
14.
Meier R, Prommersberger KJ, Lanz U. Surgical correction of malunited fractures of the forearm in children. Z Orthop Ihre Grenzgeb. 2003;141:328–35.CrossRefPubMed
15.
Meyer DC, Siebenrock KA, Schiele B, Gerber C. A new methodology for the planning of single-cut corrective osteotomies of mal-aligned long bones. Clin Biomech (Bristol, Avon). 2005;20:223–7.CrossRef
16.
Murase T, Oka K, Moritomo H, Goto A, Yoshikawa H, Sugamoto K. Three-dimensional corrective osteotomy of malunited fractures of the upper extremity with use of a computer simulation system. J Bone Jt Surg Am. 2008;90:2375–89.CrossRef
17.
Nagy L, Jankauskas L, Dumont CE. Correction of forearm malunion guided by the preoperative complaint. Clin Orthop Relat Res. 2008;466:1419–28.CrossRefPubMed
18.
Neubauer A, Bühler K, Wegenkittl R, Rauchberger A, Rieger M. Advanced virtual corrective osteotomy. Paper presented at the CARS 2005: Computer Assisted Radiology and Surgery; 2005.
19.
Price CT, Knapp DR. Osteotomy for malunited forearm shaft fractures in children. J Pediatr Orthop. 2006;26:193–6.PubMed
20.
Roberts JA. Angulation of the radius in children’s fractures. J Bone Jt Surg Br. 1986;68:751–4.
21.
Sangeorzan BP, Judd RP, Sangeorzan BJ. Mathematical analysis of single-cut osteotomy for complex long bone deformity. J Biomech. 1989;22:1271–8.CrossRefPubMed
22.
Schroeder W, Martin KBL. Image and vision computing (www.​vtk.​org). The Visualization Toolkit, 3rd edition, Kitware Inc.; 2004.
23.
Tarr RR, Garfinkel AI, Sarmiento A. The effects of angular and rotational deformities of both bones of the forearm. An in vitro study. J Bone Jt Surg Am. 1984;66:65–70.
24.
Trousdale RT, Linscheid RL. Operative treatment of malunited fractures of the forearm. J Bone Jt Surg Am. 1995;77:894–902.
25.
van Geenen RC, Besselaar PP. Outcome after corrective osteotomy for malunited fractures of the forearm sustained in childhood. J Bone Jt Surg Br. 2007;89:236–9.
Metadata
Title
Complex Radius Shaft Malunion: Osteotomy with Computer-Assisted Planning
Authors
Andreas Schweizer
Philipp Fürnstahl
Matthias Harders
Gábor Székely
Ladislav Nagy
Publication date
01-06-2010
Publisher
Springer-Verlag
Published in
HAND / Issue 2/2010
Print ISSN: 1558-9447
Electronic ISSN: 1558-9455
DOI
https://doi.org/10.1007/s11552-009-9233-4

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