针对特定患者的3D模型有助于为股骨头骨骺滑脱的三平面股骨近端截骨术进行手术规划。

Patient-specific 3D models aid planning for triplane proximal femoral osteotomy in slipped capital femoral epiphysis.

作者信息

Cherkasskiy L, Caffrey J P, Szewczyk A F, Cory E, Bomar J D, Farnsworth C L, Jeffords M, Wenger D R, Sah R L, Upasani V V

机构信息

Department of Bioengineering, University of California-San Diego, 9500 Gilman Drive MC 0412, La Jolla, CA 92093-0412, USA.

Rady Children's Hospital, 3020 Children's Way, MC 5062, San Diego, CA 92123, USA.

出版信息

J Child Orthop. 2017 Apr;11(2):147-153. doi: 10.1302/1863-2548-11-170277.

DOI:10.1302/1863-2548-11-170277

PMID:28529664

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5421346/

Abstract

PURPOSE

Slipped capital femoral epiphysis (SCFE) can result in a complex three-dimensional (3D) deformity of the proximal femur. A three-plane proximal femoral osteotomy (TPFO) has been described to improve hip mechanics. The purpose of this study was to evaluate the benefits of using 3D print technology to aid in surgical planning.

PATIENTS AND METHODS

Fifteen children treated with TPFO for symptomatic proximal femoral deformity due to SCFE were included in this study. Ten patients were treated by a single surgeon with (model group, n = 5) or without (no-model group, n = 5) a 3D model for pre-operative planning, and compared with patients treated by two senior partners without the use of a model (senior group, n = 5) to evaluate for a learning curve. Peri-operative data including patient body mass index (BMI), surgical time and fluoroscopy time were recorded.

RESULTS

Children in all three groups had similar BMIs at the time of the TPFO. Post-operative radiographic parameters were equally improved in all three groups. On average, surgical time decreased by 45 minutes and 38 minutes, and fluoroscopy time decreased by 50% and 25%, in the model group compared with the no-model and senior groups, respectively.

CONCLUSIONS

Patient-specific 3D models aid in surgical planning for complex 3D orthopaedic deformities by enabling practice of osteotomies. Results suggest that 3D models may decrease surgical time and fluoroscopy time while allowing for similar deformity correction. These models may be especially useful to overcome steep learning curves for complex procedures or in trainee education through mock surgical procedures.

摘要

目的

股骨头骨骺滑脱（SCFE）可导致股骨近端复杂的三维（3D）畸形。已描述了一种三平面股骨近端截骨术（TPFO）来改善髋关节力学。本研究的目的是评估使用3D打印技术辅助手术规划的益处。

患者与方法

本研究纳入了15例因SCFE导致有症状的股骨近端畸形而接受TPFO治疗的儿童。10例患者由一名外科医生治疗，其中5例（模型组）使用3D模型进行术前规划，5例（无模型组）不使用3D模型，将其与由两名资深医生治疗且未使用模型的患者（资深组，n = 5）进行比较，以评估学习曲线。记录围手术期数据，包括患者体重指数（BMI）、手术时间和透视时间。

结果

所有三组儿童在接受TPFO时的BMI相似。所有三组的术后影像学参数均得到同等改善。与无模型组和资深组相比，模型组的手术时间平均分别减少了45分钟和38分钟，透视时间分别减少了50%和25%。

结论

针对患者的3D模型通过实现截骨术的预演，有助于复杂3D骨科畸形的手术规划。结果表明，3D模型可能会减少手术时间和透视时间，同时实现相似的畸形矫正。这些模型对于克服复杂手术的陡峭学习曲线或通过模拟手术程序进行实习医生教育可能特别有用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d7c7/5421346/9ffff2189e37/jco-11-147-g001.jpg

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针对特定患者的3D模型有助于为股骨头骨骺滑脱的三平面股骨近端截骨术进行手术规划。

Patient-specific 3D models aid planning for triplane proximal femoral osteotomy in slipped capital femoral epiphysis.

作者信息

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出版信息

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PATIENTS AND METHODS

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CONCLUSIONS

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患者与方法

结果

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