在护理现场规划并打印的3D打印骨折复位导板显示出高度准确性——一项猪模型可行性研究。

3D printed fracture reduction guides planned and printed at the point of care show high accuracy - a porcine feasibility study.

作者信息

Hecker Andreas, Eberlein Sophie C, Klenke Frank M

机构信息

Department of Orthopaedic Surgery and Traumatology, Inselspital, Bern University Hospital, University of Bern, Freiburgstrasse 4, 3010, Bern, Switzerland.

出版信息

J Exp Orthop. 2022 Sep 27;9(1):99. doi: 10.1186/s40634-022-00535-2.

DOI:10.1186/s40634-022-00535-2

PMID:36166163

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9515260/

Abstract

PURPOSE

After surgical treatment of comminuted diaphyseal femoral and tibial fractures, relevant malalignment, especially rotational errors occur in up to 40-50%. This either results in a poor clinical outcome or requires revision surgery. This study aims to evaluate the accuracy of reduction if surgery is supported by 3D guides planned and printed at the point of care.

METHODS

Ten porcine legs underwent computed tomography (CT) and 3D models of femur and tibia were built. Reduction guides were virtually constructed and fitted to the proximal and distal metaphysis. The guides were 3D printed using medically approved resin. Femoral and tibial comminuted diaphyseal fractures were simulated and subsequently reduced using the 3D guides. Postoperative 3D bone models were reconstructed to compare the accuracy to the preoperative planning.

RESULTS

Femoral reduction showed a mean deviation ± SD from the plan of 1.0 mm ± 0.9 mm for length, 0.9° ± 0.7° for varus/valgus, 1.2° ± 0.9° for procurvatum/recurvatum and 2.0° ± 1.7° for rotation. Analysis of the tibial reduction revealed a mean deviation ± SD of 2.4 mm ± 1.6 mm for length, 1.0° ± 0.6° for varus/valgus, 1.3° ± 1.4° for procurvatum/recurvatum and 2.9° ± 2.2° for rotation.

CONCLUSIONS

This study shows high accuracy of reduction with 3D guides planned and printed at the point of care. Applied to a clinical setting, this technique has the potential to avoid malreduction and consecutive revision surgery in comminuted diaphyseal fractures.

LEVEL OF EVIDENCE

Basic Science.

摘要

目的

在对股骨干和胫骨干粉碎性骨折进行手术治疗后，高达40%至50%的患者会出现相关的对线不良，尤其是旋转误差。这要么导致临床效果不佳，要么需要进行翻修手术。本研究旨在评估在床旁规划并打印的3D导板辅助下手术复位的准确性。

方法

对10条猪腿进行计算机断层扫描（CT），并构建股骨和胫骨的3D模型。在虚拟环境中构建复位导板，并将其适配于近端和远端干骺端。使用医学认可的树脂对导板进行3D打印。模拟股骨和胫骨干粉碎性骨折，随后使用3D导板进行复位。术后重建3D骨模型，以将准确性与术前规划进行比较。

结果

股骨复位显示，长度与计划的平均偏差±标准差为1.0毫米±0.9毫米，内翻/外翻为0.9°±0.7°，前凸/后凸为1.2°±0.9°，旋转为2.0°±1.7°。胫骨复位分析显示，长度与计划的平均偏差±标准差为2.4毫米±1.6毫米，内翻/外翻为1.0°±0.6°，前凸/后凸为1.3°±1.4°，旋转为2.9°±2.2°。

结论

本研究表明，在床旁规划并打印的3D导板具有很高的复位准确性。应用于临床时，该技术有可能避免粉碎性骨干骨折的复位不良和后续翻修手术。

证据水平

基础科学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4736/9515260/4959c73ba5a6/40634_2022_535_Fig1_HTML.jpg

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在护理现场规划并打印的3D打印骨折复位导板显示出高度准确性——一项猪模型可行性研究。

3D printed fracture reduction guides planned and printed at the point of care show high accuracy - a porcine feasibility study.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

LEVEL OF EVIDENCE

目的

方法

结果

结论

证据水平

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