个性化椎体模型开发

2021 IEEE 25th International Conference on Intelligent Engineering Systems (INES) Pub Date : 2021-07-07 DOI:10.1109/INES52918.2021.9512908

Sándor Bazsó, Á. Viola, B. Benyó

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引用次数: 1

摘要

老年人易患骨质疏松症，增加了椎体损伤尤其是压缩性椎体骨折的风险。几何建模可以帮助识别椎体的参数，并可用于分析和改进椎体骨折矫正干预措施。在这项研究中，我们将提出一个可定制的椎体几何模型，能够描述脊柱的所有部分。除了可定制模型外，还介绍了几种优化方法，使患者特定几何模型的定义变得容易。建议的建模方法的准确性在20个椎骨的公共数据集上进行了评估。该模型的Dice系数平均为91.9±2.56%，Hausdorff距离为2.28±0.67 mm，与同类问题的文献结果相比，具有较高的准确性。该模型在临床研究中的适用性也得到了验证。

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Personalisable vertebral body model development

Elderly people frequently suffer from osteoporosis, increasing the risk of vertebral injuries, especially compression vertebral fracture. Geometric modelling can help identifying the parameters of the vertebral body and can be used to analyse and improve the vertebral fracture correction interventions.In this study we will suggest a customisable geometrical model of the vertebral body able to describe all the segments of the spinal column. Beside the customizable model, several optimisation methods are introduced to make easy the definition of the patient specific geometric model.The accuracy of the suggested modelling methodology is evaluated on a public dataset of 20 vertebrae. The Dice coefficient was in average 91.9 ± 2.56%, the Hausdorff distance was 2.28±0.67 mm on the 95% of the model which is considered to be very accurate compared to results published in papers dealing with similar problems. The applicability of the proposed model for clinical studies has been also validated.

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来源期刊

2021 IEEE 25th International Conference on Intelligent Engineering Systems (INES)

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