多排螺旋 CT 数据构建前臂三维骨表面模型的准确性分析。

Accuracy analysis of three-dimensional bone surface models of the forearm constructed from multidetector computed tomography data.

机构信息

Department of Orthopaedic Surgery, Osaka University Graduate School of Medicine, 2-2 Yamada-oka, Suita, Osaka, Japan.

出版信息

Int J Med Robot. 2009 Dec;5(4):452-7. doi: 10.1002/rcs.277.

DOI:10.1002/rcs.277

PMID:19722285

Abstract

BACKGROUND

We developed an original computer program that simulates upper limb reconstruction surgery using three-dimensional (3D) bone models constructed from computed tomography (CT) data. However, the accuracy of a bone model has not been clarified, and radiation exposure from CT scanning posed a concern. The purpose of this study was to investigate the appropriate CT parameters required to reduce radiation exposure while maintaining the accuracy of 3D models of the forearm bones.

METHODS

Twelve dry forearm bones were used to investigate the accuracy of 3D bone models created from two different CT parameters. The accuracy was evaluated by measuring: (a) the discrepancy between the models constructed from low- and normal-dose CT parameters; (b) the error between actual surface data derived by a contact-type coordinate measuring machine and a 3D bone model; and (c) the difference between a 3D bone model constructed from a bare dry bone and a model constructed from the same bone embedded in a radio-opaque soft tissue substitute. CT dose index (CTDI) and dose-length product (DLP) were recorded to evaluate the radiation exposure.

RESULTS

The mean error between bone models constructed from two different CT parameters was 0.04 mm. CTDI and DLP for the normal-radiation dose condition were 9.3 and 563 mGy/cm and those for the low-radiation dose condition were 0.3 and 18 mGy/cm, respectively. The mean error between the bone models and scanning data from contact measurement was 0.45 mm. The mean error between a 3D model constructed from a dry bone and that constructed from the same bone embedded in a radio-opaque soft tissue substitute was 0.06 mm.

CONCLUSIONS

3D bone models constructed from low-radiation dose CT data demonstrated the same level of accuracy as those constructed from normal-radiation dose data. The present simulation system can produce 3D bone models with one-thirtieth of the normal radiation dose in the forearm.

摘要

背景

我们开发了一个原创的计算机程序，使用从计算机断层扫描（CT）数据构建的三维（3D）骨骼模型模拟上肢重建手术。然而，骨骼模型的准确性尚未得到明确，并且 CT 扫描的辐射暴露令人担忧。本研究的目的是研究减少辐射暴露的同时保持前臂骨骼 3D 模型准确性所需的适当 CT 参数。

方法

使用 12 根干前臂骨研究了从两种不同 CT 参数创建的 3D 骨骼模型的准确性。通过以下方式评估准确性：（a）低剂量和正常剂量 CT 参数构建的模型之间的差异；（b）接触式坐标测量机获得的实际表面数据与 3D 骨骼模型之间的误差；（c）从裸干骨构建的 3D 骨骼模型与从相同骨嵌入放射不透明软组织替代物构建的模型之间的差异。记录 CT 剂量指数（CTDI）和剂量长度乘积（DLP）以评估辐射暴露。

结果

两种不同 CT 参数构建的骨骼模型之间的平均误差为 0.04 毫米。正常辐射剂量条件下的 CTDI 和 DLP 分别为 9.3 和 563 mGy/cm，低辐射剂量条件下的 CTDI 和 DLP 分别为 0.3 和 18 mGy/cm。骨骼模型与接触测量扫描数据之间的平均误差为 0.45 毫米。从干骨构建的 3D 模型与嵌入放射不透明软组织替代物中的相同骨构建的模型之间的平均误差为 0.06 毫米。

结论

从低辐射剂量 CT 数据构建的 3D 骨骼模型具有与正常辐射剂量数据构建的模型相同的准确性。本模拟系统可以在前臂产生正常辐射剂量的三十分之一的 3D 骨骼模型。

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多排螺旋 CT 数据构建前臂三维骨表面模型的准确性分析。

Accuracy analysis of three-dimensional bone surface models of the forearm constructed from multidetector computed tomography data.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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