Application of a Denoising High-Resolution Deep Convolutional Neural Network to Improve Conspicuity of CSF-Venous Fistulas on Photon-Counting CT Myelography

IF 3.1 3区医学 Q2 CLINICAL NEUROLOGY

American Journal of Neuroradiology Pub Date : 2024-01-01 DOI:10.3174/ajnr.a8097

Ajay A. Madhavan, Jeremy K. Cutsforth-Gregory, Waleed Brinjikji, John C. Benson, Felix E. Diehn, Ian T. Mark, Jared T. Verdoorn, Zhongxing Zhou, Lifeng Yu

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引用次数: 0

Abstract

SUMMARY:

Photon-counting detector CT myelography is a recently described technique that has several advantages for the detection of CSF-venous fistulas, one of which is improved spatial resolution. To maximally leverage the high spatial resolution of photon-counting detector CT, a sharp kernel and a thin section reconstruction are needed. Sharp kernels and thin slices often result in increased noise, degrading image quality. Here, we describe a novel deep-learning-based algorithm used to denoise photon-counting detector CT myelographic images, allowing the sharpest and thinnest quantitative reconstruction available on the scanner to be used to enhance diagnostic image quality. Currently, the algorithm requires 4–6 hours to create diagnostic, denoised images. This algorithm has the potential to increase the sensitivity of photon-counting detector CT myelography for detecting CSF-venous fistulas, and the technique may be valuable for institutions attempting to optimize photon-counting detector CT myelography imaging protocols.

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应用去噪高分辨率深度卷积神经网络提高光子计数 CT 骨髓造影中 CSF 静脉瘘的清晰度

摘要：光子计数探测器 CT 髓造影是最近描述的一种技术，它在检测 CSF-静脉瘘方面有几个优点，其中之一是提高了空间分辨率。为了最大限度地利用光子计数探测器 CT 的高空间分辨率，需要使用锐利的内核和薄切片重建。锐核和薄切片通常会导致噪声增加，从而降低图像质量。在此，我们介绍一种基于深度学习的新型算法，用于对光子计数探测器 CT 髓图图像进行去噪，从而利用扫描仪上最清晰、最薄的定量重建来提高诊断图像质量。目前，该算法需要 4–6 小时来创建诊断性去噪图像。该算法有可能提高光子计数探测器CT脊髓造影检测CSF-静脉瘘的灵敏度，该技术对试图优化光子计数探测器CT脊髓造影成像方案的机构可能很有价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American Journal of Neuroradiology 医学-核医学

CiteScore

7.10

自引率

5.70%

发文量

506

审稿时长

2 months

期刊介绍： The mission of AJNR is to further knowledge in all aspects of neuroimaging, head and neck imaging, and spine imaging for neuroradiologists, radiologists, trainees, scientists, and associated professionals through print and/or electronic publication of quality peer-reviewed articles that lead to the highest standards in patient care, research, and education and to promote discussion of these and other issues through its electronic activities.