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基于新型人工智能的扩展视野CT重建评估。

Evaluation of novel AI-based extended field-of-view CT reconstructions.

作者信息

Fonseca Gabriel Paiva, Baer-Beck Matthias, Fournie Eric, Hofmann Christian, Rinaldi Ilaria, Ollers Michel C, van Elmpt Wouter J C, Verhaegen Frank

机构信息

Department of Radiation Oncology (MAASTRO), GROW School for Oncology and Developmental Biology, Maastricht University Medical Centre+, Maastricht, 6229 ET, The Netherlands.

Siemens Healthcare GmbH, Forchheim, Germany.

出版信息

Med Phys. 2021 Jul;48(7):3583-3594. doi: 10.1002/mp.14937. Epub 2021 May 31.

DOI:10.1002/mp.14937
PMID:33978240
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8362147/
Abstract

PURPOSE

Modern computed tomography (CT) scanners have an extended field-of-view (eFoV) for reconstructing images up to the bore size, which is relevant for patients with higher BMI or non-isocentric positioning due to fixation devices. However, the accuracy of the image reconstruction in eFoV is not well known since truncated data are used. This study introduces a new deep learning-based algorithm for extended field-of-view reconstruction and evaluates the accuracy of the eFoV reconstruction focusing on aspects relevant for radiotherapy.

METHODS

A life-size three-dimensional (3D) printed thorax phantom, based on a patient CT for which eFoV was necessary, was manufactured and used as reference. The phantom has holes allowing the placement of tissue mimicking inserts used to evaluate the Hounsfield unit (HU) accuracy. CT images of the phantom were acquired using different configurations aiming to evaluate geometric and HU accuracy in the eFoV. Image reconstruction was performed using a state-of-the-art reconstruction algorithm (HDFoV), commercially available, and the novel deep learning-based approach (HDeepFoV). Five patient cases were selected to evaluate the performance of both algorithms on patient data. There is no ground truth for patients so the reconstructions were qualitatively evaluated by five physicians and five medical physicists.

RESULTS

The phantom geometry reconstructed with HDFoV showed boundary deviations from 1.0 to 2.5 cm depending on the volume of the phantom outside the regular scan field of view. HDeepFoV showed a superior performance regardless of the volume of the phantom within eFOV with a maximum boundary deviation below 1.0 cm. The maximum HU (absolute) difference for soft issue inserts is below 79 and 41 HU for HDFoV and HDeepFoV, respectively. HDeepFoV has a maximum deviation of -18 HU for an inhaled lung insert while HDFoV reached a 229 HU difference. The qualitative evaluation of patient cases shows that the novel deep learning approach produces images that look more realistic and have fewer artifacts.

CONCLUSION

To be able to reconstruct images outside the sFoV of the CT scanner there is no alternative than to use some kind of extrapolated data. In our study, we proposed and investigated a new deep learning-based algorithm and compared it to a commercial solution for eFoV reconstruction. The deep learning-based algorithm showed superior performance in quantitative evaluations based on phantom data and in qualitative assessments of patient data.

摘要

目的

现代计算机断层扫描(CT)扫描仪具有扩展视野(eFoV),可重建直至孔径大小的图像,这对于因固定装置导致体重指数较高或非等中心定位的患者具有重要意义。然而,由于使用了截断数据,eFoV中图像重建的准确性尚不清楚。本研究引入了一种基于深度学习的新算法用于扩展视野重建,并聚焦于与放射治疗相关的方面评估eFoV重建的准确性。

方法

制作了一个基于需要eFoV的患者CT的真人大小的三维(3D)打印胸部体模,并将其用作参考。该体模有孔,可放置用于评估亨氏单位(HU)准确性的组织模拟插入物。使用不同配置获取体模的CT图像,旨在评估eFoV中的几何和HU准确性。使用一种市售的先进重建算法(HDFoV)和基于深度学习的新方法(HDeepFoV)进行图像重建。选择了5例患者病例来评估这两种算法对患者数据的性能。由于患者没有真实情况,因此由5名医生和5名医学物理学家对重建结果进行定性评估。

结果

用HDFoV重建的体模几何形状显示,边界偏差为1.0至2.5厘米,具体取决于体模在常规扫描视野之外的体积。无论eFOV内体模的体积如何,HDeepFoV均表现出卓越性能,最大边界偏差低于1.0厘米。对于软组织插入物,HDFoV和HDeepFoV的最大HU(绝对值)差异分别低于79和41 HU。对于吸入肺部插入物,HDeepFoV的最大偏差为-18 HU,而HDFoV的差异达到229 HU。对患者病例的定性评估表明,基于深度学习的新方法生成的图像看起来更逼真,伪影更少。

结论

为了能够在CT扫描仪的sFoV之外重建图像,除了使用某种外推数据别无他法。在我们的研究中,我们提出并研究了一种基于深度学习的新算法,并将其与用于eFoV重建的商业解决方案进行了比较。基于深度学习的算法在基于体模数据的定量评估和患者数据的定性评估中均表现出卓越性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d622/8362147/e6ed9cfaff5a/MP-48-3583-g003.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d622/8362147/8550af5727f0/MP-48-3583-g006.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d622/8362147/5aed58edf54f/MP-48-3583-g009.jpg
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