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基于 CT 的合成碘图生成使用条件去噪扩散概率模型。

CT-based synthetic iodine map generation using conditional denoising diffusion probabilistic model.

机构信息

Department of Radiation Oncology and Winship Cancer Institute, Emory University, Atlanta, Georgia, USA.

Department of Medical Physics, Memorial Sloan Kettering Cancer Center, New York, New York, USA.

出版信息

Med Phys. 2024 Sep;51(9):6246-6258. doi: 10.1002/mp.17258. Epub 2024 Jun 18.

DOI:10.1002/mp.17258
PMID:38889368
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11489029/
Abstract

BACKGROUND

Iodine maps, derived from image-processing of contrast-enhanced dual-energy computed tomography (DECT) scans, highlight the differences in tissue iodine intake. It finds multiple applications in radiology, including vascular imaging, pulmonary evaluation, kidney assessment, and cancer diagnosis. In radiation oncology, it can contribute to designing more accurate and personalized treatment plans. However, DECT scanners are not commonly available in radiation therapy centers. Additionally, the use of iodine contrast agents is not suitable for all patients, especially those allergic to iodine agents, posing further limitations to the accessibility of this technology.

PURPOSE

The purpose of this work is to generate synthetic iodine map images from non-contrast single-energy CT (SECT) images using conditional denoising diffusion probabilistic model (DDPM).

METHODS

One-hundered twenty-six head-and-neck patients' images were retrospectively investigated in this work. Each patient underwent non-contrast SECT and contrast DECT scans. Ground truth iodine maps were generated from contrast DECT scans using commercial software syngo.via installed in the clinic. A conditional DDPM was implemented in this work to synthesize iodine maps. Three-fold cross-validation was conducted, with each iteration selecting the data from 42 patients as the test dataset and the remainder as the training dataset. Pixel-to-pixel generative adversarial network (GAN) and CycleGAN served as reference methods for evaluating the proposed DDPM method.

RESULTS

The accuracy of the proposed DDPM was evaluated using three quantitative metrics: mean absolute error (MAE) (1.039 ± 0.345 mg/mL), structural similarity index measure (SSIM) (0.89 ± 0.10) and peak signal-to-noise ratio (PSNR) (25.4 ± 3.5 db) respectively. Compared to the reference methods, the proposed technique showcased superior performance across the evaluated metrics, further validated by the paired two-tailed t-tests.

CONCLUSION

The proposed conditional DDPM framework has demonstrated the feasibility of generating synthetic iodine map images from non-contrast SECT images. This method presents a potential clinical application, which is providing accurate iodine contrast map in instances where only non-contrast SECT is accessible.

摘要

背景

碘图是通过对比增强双能计算机断层扫描(DECT)扫描的图像处理得出的,突出了组织碘摄取的差异。它在放射学中有多种应用,包括血管成像、肺评估、肾脏评估和癌症诊断。在放射肿瘤学中,它可以帮助设计更准确和个性化的治疗计划。然而,DECT 扫描仪在放射治疗中心并不常见。此外,碘对比剂的使用并不适合所有患者,特别是对碘剂过敏的患者,这进一步限制了这项技术的可及性。

目的

本研究旨在使用条件去噪扩散概率模型(DDPM)从非对比单能量 CT(SECT)图像生成合成碘图图像。

方法

本研究回顾性调查了 126 例头颈部患者的图像。每位患者均行非对比 SECT 和对比 DECT 扫描。碘图的真实值是通过临床安装的商业软件 syngo.via 从对比 DECT 扫描中生成的。本研究中实施了条件 DDPM 来合成碘图。进行了三折交叉验证,每次迭代都从 42 名患者的数据中选择测试数据集,其余数据作为训练数据集。像素到像素生成对抗网络(GAN)和 CycleGAN 被用作评估所提出的 DDPM 方法的参考方法。

结果

使用三个定量指标评估了所提出的 DDPM 的准确性:平均绝对误差(MAE)(1.039±0.345mg/mL)、结构相似性指数测量(SSIM)(0.89±0.10)和峰值信噪比(PSNR)(25.4±3.5dB)。与参考方法相比,所提出的技术在评估指标上表现出了更好的性能,这进一步通过配对双侧 t 检验得到了验证。

结论

所提出的条件 DDPM 框架已经证明了从非对比 SECT 图像生成合成碘图图像的可行性。该方法为在仅可获得非对比 SECT 的情况下提供准确的碘对比图提供了一种潜在的临床应用。