Electromagnetic tracking for femoral derotation osteotomy—an in vivo study

Geisbüsch, Andreas; Auer, Christoph; Dickhaus, Hartmut; Putz, Cornelia; Dreher, Thomas

doi:10.1002/jor.23579

Journal Orthopaedic Research

2017

DOI: 10.1002/jor.23579

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Electromagnetic tracking for femoral derotation osteotomy—an in vivo study

Andreas Geisbüsch

Christoph Auer

Hartmut Dickhaus

et al.

Abstract: Femoral derotation osteotomy delivers good to excellent results in the treatment of rotational gait abnormalities and especially in internal rotation gait. The outcome of the procedure has been evaluated in numerous short- and long-term studies. Although reasons for recurrence and over-/under-correction have been unveiled in earlier studies the mechanisms are still not fully understood. False intra-operative assessment of the derotation angle may contribute to imprecise outcomes. In a recent saw-bone study we … Show more

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Cited by 7 publications

(1 citation statement)

References 26 publications

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“…As an attempt to improve intraoperative precision and objectively control the derotation osteotomy, an electromagnetic bone tracking (EMT) system was introduced. 27,28 Studies indicated feasibility both in vitro and in vivo and showed that the conventional measurement with a goniometer and derotational K-wires, which is used in many orthopedic centers, is prone to measurement errors and bias. Electromagnetic tracking on the other hand delivers precise and objective data on the intraoperative course and is able to visualize the derotation in real-time.…”

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Femoral derotation osteotomy—Does intraoperative electromagnetic tracking reflect the dynamic outcome?

Geisbüsch

Götze

Putz

et al. 2021

Journal Orthopaedic Research

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Femoral derotation osteotomy (FDO) is a well-established procedure for the correction of internal rotation gait in children with cerebral palsy. Various studies have demonstrated good results for FDO both in short-term and long-term evaluation with some describing recurrence and over-or under-corrections. The present study evaluates the use of an objective intraoperative derotation measurement through electromagnetic tracking. We report the static and dynamic results of 11 cases with internal rotation gait (8 male, 3 female, mean age 22.2 years), that underwent FDO with intraoperative electromagnetic tracking and conventional goniometric measurement of the correction. The dynamic and static changes were assessed through three-dimensional gait analysis after a mean of 12 months after surgery and rotational imaging preoperative and after a mean of eleven days postoperatively. Mean hip rotation in stance significantly decreased from 20.9°(SD 5.9) to 5.8°(SD 4.7°) after FDO. The mean amount of derotation quantified by electromagnetic tracking was 23.2°(16.5°-28.8°) and 25.1°(20.0°-33.0°) for goniometric measurement. Both measurement modalities showed small differences to rotational imaging (electromagnetic bone tracking [EMT]: 0.72°; goniometer: 1.19°) but a large deviation when compared to three-dimensional gait analysis (EMT: 8.5°, goniometer: 9.1°). In comparison to the static changes and EMT measurement, the dynamic changes measured during 3-D-gait analysis reflected only 66% of the actual derotation performed during surgery. Although electromagnetic tracking allows a precise intraoperative assessment of the derotation during FDO, the amount of intraoperative correction is not reflected in the improvements in three-dimensional gait analysis.

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mentioning

confidence: 99%

Femoral derotation osteotomy—Does intraoperative electromagnetic tracking reflect the dynamic outcome?

Geisbüsch

Götze

Putz

et al. 2021

Journal Orthopaedic Research

Self Cite

View full text Add to dashboard Cite

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Electromagnetic bone segment tracking in multiplanar osteotomies: A saw bone study

Geisbüsch,

Gramer,

Dreher

et al. 2024

Journal Orthopaedic Research

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Computer assisted orthopedic surgery is used to improve precision. Electro‐magnetic tracking has been shown to improve precision in mono‐planar derotational osteotomies. However, studies are lacking to investigate its use in multiplanar osteotomies. For this purpose, 60 complex (derotation and extension) osteotomies were performed in standardized sawbones. Correction amount was randomly planned before the procedures. In 30 bones, the amount of correction was determined intraoperatively using conventional goniometric measurement while in the other 30 bones electro‐magnetic tracking was used to guide the amount of correction. CT‐scans were done before and after the procedures in all bones and the amount of correction was determined to compare the precision of the two techniques. Electromagnetic tracking resulted in a precision of 2.25° ± 1.77° for derotation and 1.38° ± 1.29° for extension, while precision for the conventional method was significantly lower. There was a significant relationship between goniometer measurement deviation and the absolute angle change for derotation and extension measurements with larger deviations for greater angle changes. For the electro‐magnetic tracking, this correlation was observed only for derotation measurement. Electro‐magnetic tracking represents an accurate method to control complex, multiplanar corrective osteotomies with superior precision in comparison to conventional goniometric measurement. Further research is needed to investigate the in‐vivo accuracy and the effects on clinical outcome.

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Development of a novel non-contact intra-operative measurement system for guiding femoral derotation osteotomies

et al. 2020

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Electromagnetic tracking for femoral derotation osteotomy—an in vivo study

Cited by 7 publications

References 26 publications

Femoral derotation osteotomy—Does intraoperative electromagnetic tracking reflect the dynamic outcome?

Femoral derotation osteotomy—Does intraoperative electromagnetic tracking reflect the dynamic outcome?

Electromagnetic bone segment tracking in multiplanar osteotomies: A saw bone study

Development of a novel non-contact intra-operative measurement system for guiding femoral derotation osteotomies

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