Using generative adversarial deep learning networks to synthesize cerebrovascular reactivity imaging from pre-acetazolamide arterial spin labeling in moyamoya disease.

IF 2.6 3区医学 Q2 CLINICAL NEUROLOGY Neuroradiology Pub Date : 2025-05-01 Epub Date: 2025-04-04 DOI:10.1007/s00234-025-03605-1

Guangming Zhu, Bin Jiang, Hui Chen, Jeremy J Heit, Micah Etter, G Alex Hishaw, Tobias D Faizy, Gary Steinberg, Max Wintermark

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Abstract

Background: Cerebrovascular reactivity (CVR) assesses vascular health in various brain conditions, but CVR measurement requires a challenge to cerebral perfusion such as the administration of acetazolamide(ACZ), thus limiting widespread use. We determined whether generative adversarial networks (GANs) can create CVR images from baseline pre-ACZ arterial spin labeling (ASL) MRI.

Methods: This study included 203 Moyamoya cases with a total of 3248 pre- and post-ACZ ASL Cerebral Blood Flow (CBF) images. Reference CVRs were generated from these CBF slices. From this set, 2640 slices were used to train a Pixel-to-Pixel GAN consisting of a generator and discriminator network, with the remaining 608 slices reserved as a testing set. Following training, the pre-ACZ CBF in the testing set was introduced to the trained model to generate synthesized CVR. The quality of the synthesized CVR was evaluated with structural similarity index(SSI), spatial correlation coefficient(SCC), and the root mean squared error(RMSE), compared with reference CVR. The segmentations of the low CVR regions were compared using the Dice similarity coefficient (DSC). Reference and synthesized CVRs in single-slice and individual-hemisphere settings were reviewed to assess CVR status, with Cohen's Kappa measuring consistency.

Results: The mean SSIs of the CVR of training and testing sets were 0.943 ± 0.019 and 0.943 ± 0.020. The mean SCCs of the CVR of training and testing sets were 0.988 ± 0.009 and 0.987 ± 0.011. The mean RMSEs of the CVR are 0.077 ± 0.015 and 0.079 ± 0.018. Mean DSC of low CVR area of testing sets was 0.593 ± 0.128. Visual interpretation yielded Cohen's Kappa values of 0.896 and 0.813 for the training and testing sets in the single-slice setting, and 0.781 and 0.730 in the individual-hemisphere setting.

Conclusions: Synthesized CVR by GANs from baseline ASL without challenge may be a useful alternative in detecting vascular deficits in clinical applications when ACZ challenge is not feasible.

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利用生成式对抗深度学习网络从乙酰唑胺前动脉自旋标记合成莫亚莫亚病的脑血管反应性成像。

背景：脑血管反应性（CVR）可评估各种脑状态下的血管健康状况，但CVR测量需要挑战脑灌注，如乙酰唑胺（ACZ）的使用，因此限制了其广泛应用。我们确定生成对抗网络（gan）是否可以从基线前acz动脉自旋标记（ASL） MRI中创建CVR图像。方法：本研究纳入203例烟雾病患者，共3248张acz前后ASL脑血流（CBF）图像。参考cvr由这些CBF切片生成。从这个集合中，2640个切片用于训练由生成器和鉴别器网络组成的像素到像素GAN，剩余的608个切片保留作为测试集。训练结束后，将测试集中的pre-ACZ CBF引入训练模型，生成综合CVR。采用结构相似指数（SSI）、空间相关系数（SCC）和均方根误差（RMSE）对合成CVR的质量进行评价，并与参考CVR进行比较。采用Dice相似系数（DSC）对低CVR区域的分割进行比较。回顾参考CVR和合成CVR在单层和单个半球的设置，以评估CVR状态，用Cohen's Kappa测量一致性。结果：训练集和测试集CVR的平均ssi分别为0.943±0.019和0.943±0.020。训练集和测试集CVR的平均SCCs分别为0.988±0.009和0.987±0.011。CVR的均方根误差分别为0.077±0.015和0.079±0.018。各组低CVR区的平均DSC为0.593±0.128。在单片设置下，训练集和测试集的科恩Kappa值分别为0.896和0.813，在个体半球设置下，科恩Kappa值分别为0.781和0.730。结论：GANs在基线ASL无冲击的情况下合成CVR可能是临床应用中检测血管缺陷的有用替代方法，当ACZ冲击不可行的情况下。

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来源期刊

Neuroradiology 医学-核医学

CiteScore

5.30

自引率

3.60%

发文量

214

审稿时长

4-8 weeks

期刊介绍： Neuroradiology aims to provide state-of-the-art medical and scientific information in the fields of Neuroradiology, Neurosciences, Neurology, Psychiatry, Neurosurgery, and related medical specialities. Neuroradiology as the official Journal of the European Society of Neuroradiology receives submissions from all parts of the world and publishes peer-reviewed original research, comprehensive reviews, educational papers, opinion papers, and short reports on exceptional clinical observations and new technical developments in the field of Neuroimaging and Neurointervention. The journal has subsections for Diagnostic and Interventional Neuroradiology, Advanced Neuroimaging, Paediatric Neuroradiology, Head-Neck-ENT Radiology, Spine Neuroradiology, and for submissions from Japan. Neuroradiology aims to provide new knowledge about and insights into the function and pathology of the human nervous system that may help to better diagnose and treat nervous system diseases. Neuroradiology is a member of the Committee on Publication Ethics (COPE) and follows the COPE core practices. Neuroradiology prefers articles that are free of bias, self-critical regarding limitations, transparent and clear in describing study participants, methods, and statistics, and short in presenting results. Before peer-review all submissions are automatically checked by iThenticate to assess for potential overlap in prior publication.