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足部和踝关节的负重锥形束CT扫描

Weight-bearing cone beam CT scans in the foot and ankle.

作者信息

Lintz François, de Cesar Netto Cesar, Barg Alexeij, Burssens Arne, Richter Martinus

机构信息

Centre de Chirurgie de la Cheville et du Pied, Clinique de l'Union, France.

Foot and Ankle Surgery Department, Hospital for Special Surgery, New York City, USA.

出版信息

EFORT Open Rev. 2018 May 21;3(5):278-286. doi: 10.1302/2058-5241.3.170066. eCollection 2018 May.

DOI:10.1302/2058-5241.3.170066
PMID:29951267
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5994636/
Abstract

The 3D anatomical complexity of the foot and ankle and the importance of weight-bearing in diagnosis have required the combination of conventional radiographs and medical CT.Conventional plain radiographs (XR) have demonstrated substantial limitations such as perspective, rotational and fan distortion, as well as poor reproducibility of radiographic installations. Conventional CT produces high levels of radiation exposure and does not offer weight-bearing capabilities.The literature investigating biometrics based on 2D XR has inherent limitations due to the technology itself and thereby can focus only on whether measurements are reproducible, when the real question is whether the radiographs are.Low dose weight-bearing cone beam CT (WBCT) combines 3D and weight-bearing as well as 'built in' reliability validated through industry-standardized processes during production and clinical use (quality assurance testing).Research is accumulating to validate measurements based on traditional 2D techniques, and new 3D biometrics are being described and tested.Time- and cost-efficient use in medical imaging will require the use of automatic measurements. Merging WBCT and clinical data will offer new perspectives in terms of research with the help of modern data analysis techniques. Cite this article: 2018;3 DOI: 10.1302/2058-5241.3.170066.

摘要

足踝部的三维解剖结构复杂性以及负重状态在诊断中的重要性,使得传统X线片和医学CT需要联合使用。传统的普通X线片(XR)已显示出诸多显著局限性,如透视、旋转和扇形畸变,以及X线摄影设备的可重复性差。传统CT会产生高水平的辐射暴露,且不具备负重成像能力。基于二维X线片研究生物特征识别的文献由于技术本身存在固有局限性,因此只能关注测量是否可重复,而真正的问题是X线片本身是否可重复。低剂量负重锥形束CT(WBCT)结合了三维成像和负重成像,以及在生产和临床使用过程中通过行业标准化流程验证的“内置”可靠性(质量保证测试)。越来越多的研究在验证基于传统二维技术的测量方法,同时新的三维生物特征识别方法也在不断被描述和测试。在医学成像中实现高效省时且经济的应用将需要采用自动测量方法。借助现代数据分析技术,融合WBCT和临床数据将为研究提供新的视角。引用本文:2018;3 DOI:10.1302/2058 - 5241.3.170066 。

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