Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides

Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides

Abstract Background The purpose of this study was to perform a derotational osteotomy at the distal femur, as is done in cases of patellofemoral instability, and demonstrate the predictability of three-dimensional (3D) changes on axes in a cadaveric model by the use of a new mathematical approach. M...

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Main Authors: Florian B. Imhoff, Joscha Schnell, Alejandro Magaña, Theresa Diermeier, Bastian Scheiderer, Sepp Braun, Andreas B. Imhoff, Robert A. Arciero, Knut Beitzel
Format: Article
Language:English
Published: BMC 2018-07-01
Series:BMC Musculoskeletal Disorders
Online Access:http://link.springer.com/article/10.1186/s12891-018-2140-5
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spelling doaj-b624e5dcb2cb4e68b94aac2f1a28a15e2020-11-24T21:15:54ZengBMCBMC Musculoskeletal Disorders1471-24742018-07-0119111210.1186/s12891-018-2140-5Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guidesFlorian B. Imhoff0Joscha Schnell1Alejandro Magaña2Theresa Diermeier3Bastian Scheiderer4Sepp Braun5Andreas B. Imhoff6Robert A. Arciero7Knut Beitzel8Department of Orthopaedic Sports Medicine, Technical University MunichDepartment of Mechanical Engineering, Institute for Machine Tools and Industrial Management, Technical University MunichDepartment of Mechanical Engineering, Institute for Machine Tools and Industrial Management, Technical University MunichDepartment of Orthopaedic Sports Medicine, Technical University MunichDepartment of Orthopaedic Sports Medicine, Technical University MunichDepartment of Orthopaedic Sports Medicine, Technical University MunichDepartment of Orthopaedic Sports Medicine, Technical University MunichDepartment of Orthopaedic Surgery, University of ConnecticutDepartment of Orthopaedic Sports Medicine, Technical University MunichAbstract Background The purpose of this study was to perform a derotational osteotomy at the distal femur, as is done in cases of patellofemoral instability, and demonstrate the predictability of three-dimensional (3D) changes on axes in a cadaveric model by the use of a new mathematical approach. Methods Ten human cadaveric femurs, with increased antetorsion, underwent a visually observed derotational osteotomy at the distal femur by 20°, as is commonly done in clinics. For surgery, a single cut osteotomy with a defined cutting angle was calculated and given using a simple 3D-printed cutting guide per specimen, based on a newly-created trigonometrical model. To simulate post-operative straight frontal alignment in a normal range, a goal for the mechanical lateral distal femur angle (mLDFA) was set to 87.0° for five specimens (87-goal group) and 90.0° for five specimens (90-goal group). Specimens underwent pre- and post-operative radiographic analysis with CT scan for torsion and frontal plane x-ray for alignment measurements of mLDFA and anatomical mechanical angle (AMA). Results Performed derotation showed a mean of 19.69° ±1.08°SD (95% CI: 18.91° to 20.47°). Regarding frontal alignment, a mean mLDFA of 86.9° ±0.66°SD (87-goal-group) and 90.42° ±0.25° SD (90-goal group), was observed (p = 0.008). Overall, the mean difference between intended mLDFA-goal and post-operatively achieved mLDFA was 0.14° ±0.56° SD (95% CI: -0.26° to 0.54°). Conclusion A preoperative calculated angle for single cut derotational osteotomy at the distal femur leads to a clinically precise post-operative result on torsion and frontal alignment when using this approach.http://link.springer.com/article/10.1186/s12891-018-2140-5
collection DOAJ
language English
format Article
sources DOAJ
author Florian B. Imhoff
Joscha Schnell
Alejandro Magaña
Theresa Diermeier
Bastian Scheiderer
Sepp Braun
Andreas B. Imhoff
Robert A. Arciero
Knut Beitzel
spellingShingle Florian B. Imhoff
Joscha Schnell
Alejandro Magaña
Theresa Diermeier
Bastian Scheiderer
Sepp Braun
Andreas B. Imhoff
Robert A. Arciero
Knut Beitzel
Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides
BMC Musculoskeletal Disorders
author_facet Florian B. Imhoff
Joscha Schnell
Alejandro Magaña
Theresa Diermeier
Bastian Scheiderer
Sepp Braun
Andreas B. Imhoff
Robert A. Arciero
Knut Beitzel
author_sort Florian B. Imhoff
title Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides
title_short Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides
title_full Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides
title_fullStr Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides
title_full_unstemmed Single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3D-printed cutting guides
title_sort single cut distal femoral osteotomy for correction of femoral torsion and valgus malformity in patellofemoral malalignment - proof of application of new trigonometrical calculations and 3d-printed cutting guides
publisher BMC
series BMC Musculoskeletal Disorders
issn 1471-2474
publishDate 2018-07-01
description Abstract Background The purpose of this study was to perform a derotational osteotomy at the distal femur, as is done in cases of patellofemoral instability, and demonstrate the predictability of three-dimensional (3D) changes on axes in a cadaveric model by the use of a new mathematical approach. Methods Ten human cadaveric femurs, with increased antetorsion, underwent a visually observed derotational osteotomy at the distal femur by 20°, as is commonly done in clinics. For surgery, a single cut osteotomy with a defined cutting angle was calculated and given using a simple 3D-printed cutting guide per specimen, based on a newly-created trigonometrical model. To simulate post-operative straight frontal alignment in a normal range, a goal for the mechanical lateral distal femur angle (mLDFA) was set to 87.0° for five specimens (87-goal group) and 90.0° for five specimens (90-goal group). Specimens underwent pre- and post-operative radiographic analysis with CT scan for torsion and frontal plane x-ray for alignment measurements of mLDFA and anatomical mechanical angle (AMA). Results Performed derotation showed a mean of 19.69° ±1.08°SD (95% CI: 18.91° to 20.47°). Regarding frontal alignment, a mean mLDFA of 86.9° ±0.66°SD (87-goal-group) and 90.42° ±0.25° SD (90-goal group), was observed (p = 0.008). Overall, the mean difference between intended mLDFA-goal and post-operatively achieved mLDFA was 0.14° ±0.56° SD (95% CI: -0.26° to 0.54°). Conclusion A preoperative calculated angle for single cut derotational osteotomy at the distal femur leads to a clinically precise post-operative result on torsion and frontal alignment when using this approach.
url http://link.springer.com/article/10.1186/s12891-018-2140-5
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