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脊柱畸形手术术前规划模拟器

Preoperative planning simulator for spinal deformity surgeries.

作者信息

Aubin C E, Labelle H, Chevrefils C, Desroches G, Clin J, Eng A Boivin M

机构信息

Ecole Polytechnique de Montréal, Department of Mechanical Engineering, Montreal, Quebec H3C 3A7, Canada.

出版信息

Spine (Phila Pa 1976). 2008 Sep 15;33(20):2143-52. doi: 10.1097/BRS.0b013e31817bd89f.

DOI:10.1097/BRS.0b013e31817bd89f
PMID:18794755
Abstract

STUDY DESIGN

Proof of concept of a spine surgery simulator (S3) for the assessment of scoliosis instrumentation configuration strategies.

OBJECTIVE

To develop and assess a surgeon-friendly spine surgery simulator that predicts the correction of a scoliotic spine as a function of the patient characteristics and instrumentation variables.

SUMMARY OF BACKGROUND DATA

There is currently no clinical tool sufficiently user-friendly, reliable and refined for the preoperative planning and prediction of correction using different instrumentation configurations.

METHODS

A kinetic model using flexible mechanisms has been developed to represent patient-specific spine geometry and flexibility, and to simulate individual substeps of correction with an instrumentation system. The surgeon-friendly simulator interface allows interactive specification of the instrumentation components, surgical correction maneuvers and display of simulation results.

RESULTS

The simulations of spinal instrumentation procedures of 10 scoliotic cases agreed well with postoperative results and the expected behavior of the instrumented spine (average Cobb angle differences of 3.5 degrees to 4.6 degrees in the frontal plane and of 3.6 degrees to 4.7 degrees in the sagittal plane). Forces generated at the implant-vertebra link were mostly below reported pull-out values, with more important values at the extremities of the instrumentation.

CONCLUSION

The spine surgery simulator S3 has proven its technical feasibility and clinical relevance to assist in the preoperative planning of instrumentation strategies for the correction of scoliotic deformities.

摘要

研究设计

用于评估脊柱侧弯内固定配置策略的脊柱手术模拟器(S3)的概念验证。

目的

开发并评估一种对外科医生友好的脊柱手术模拟器,该模拟器可根据患者特征和内固定变量预测脊柱侧弯的矫正情况。

背景数据总结

目前尚无足够用户友好、可靠且精细的临床工具用于术前规划以及预测使用不同内固定配置时的矫正情况。

方法

已开发出一种使用柔性机制的动力学模型,以呈现患者特定的脊柱几何形状和柔韧性,并使用内固定系统模拟矫正的各个子步骤。对外科医生友好的模拟器界面允许交互式指定内固定组件、手术矫正操作并显示模拟结果。

结果

对10例脊柱侧弯病例的脊柱内固定手术进行模拟,其结果与术后结果以及内固定脊柱的预期行为高度吻合(额状面平均Cobb角差异为3.5度至4.6度,矢状面为3.6度至4.7度)。植入物与椎体连接处产生的力大多低于报道的拔出值,在器械两端力值更高。

结论

脊柱手术模拟器S3已证明其技术可行性和临床相关性,有助于脊柱侧弯畸形矫正内固定策略的术前规划。

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