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深部髓质静脉的自动分割与直径测量

Automatic segmentation and diameter measurement of deep medullary veins.

作者信息

Zhou Yichen, Zhao Bingbing, Moore Julia, Zong Xiaopeng

机构信息

School of Biomedical Engineering & State Key Laboratory of Advanced Medical Materials and Devices, ShanghaiTech University, Shanghai, China.

Massachusetts General Hospital, Boston, Massachusetts, USA.

出版信息

Magn Reson Med. 2025 Mar;93(3):1380-1393. doi: 10.1002/mrm.30341. Epub 2024 Oct 31.

DOI:10.1002/mrm.30341
PMID:39481043
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11682923/
Abstract

PURPOSE

As one of the pathogenic factors of cerebral small vessel disease, venous collagenosis may result in the occlusion or stenosis of deep medullary veins (DMVs). Although numerous DMVs can be observed in susceptibility-weighted MRI images, their diameters are usually smaller than the MRI resolution, making it difficult to segment them and quantify their sizes. We aim to automatically segment DMVs and measure their diameters from gradient-echo images.

METHODS

A neural network model was trained for DMV segmentation based on the gradient-echo magnitude and phase images of 20 subjects at 7 T. The diameters of DMVs were obtained by fitting measured complex images with model images that accounted for the DMV-induced magnetic field and point spread function. A phantom study with graphite rods of different diameters was conducted to validate the proposed method. Simulation was carried out to evaluate the voxel-size dependence of measurement accuracy for a typical DMV size.

RESULTS

The automatically segmented DMV masks had Dice similarity coefficients of 0.68 ± 0.03 (voxel level) and 0.83 ± 0.04 (cluster level). The fitted graphite-rod diameters closely matched their true values. In simulation, the fitted diameters closely matched the true value when voxel size was ≤ 0.45 mm, and 92.2% of DMVs had diameters between 90 μm and 200 μm with a peak at about 120 μm, which agreed well with an earlier ex vivo report.

CONCLUSION

The proposed methods enabled efficient and quantitative study of DMVs, which may help illuminate the role of DMVs in the etiopathogenesis of cerebral small vessel disease.

摘要

目的

静脉胶原化作为脑小血管病的致病因素之一,可能导致深部髓静脉(DMV)闭塞或狭窄。尽管在磁敏感加权磁共振成像(MRI)图像中可观察到众多DMV,但其直径通常小于MRI分辨率,难以对其进行分割和大小量化。我们旨在从梯度回波图像中自动分割DMV并测量其直径。

方法

基于20名受试者在7T时的梯度回波幅度和相位图像,训练神经网络模型用于DMV分割。通过将测量的复图像与考虑DMV引起的磁场和点扩散函数的模型图像拟合,获得DMV的直径。进行了不同直径石墨棒的体模研究以验证所提出的方法。进行模拟以评估典型DMV大小下测量精度对体素大小的依赖性。

结果

自动分割的DMV掩码在体素水平的Dice相似系数为0.68±0.03,在聚类水平为0.83±0.04。拟合的石墨棒直径与真实值紧密匹配。在模拟中,当体素大小≤0.45mm时,拟合直径与真实值紧密匹配,92.2%的DMV直径在90μm至200μm之间,峰值约为120μm,这与早期的离体报告结果吻合良好。

结论

所提出的方法能够对DMV进行高效定量研究,这可能有助于阐明DMV在脑小血管病病因发病机制中的作用。

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Quant Imaging Med Surg. 2024 Feb 1;14(2):1916-1929. doi: 10.21037/qims-23-1271. Epub 2024 Jan 23.
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Fast and low-dose medical imaging generation empowered by hybrid deep-learning and iterative reconstruction.
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Cell Rep Med. 2023 Jul 18;4(7):101119. doi: 10.1016/j.xcrm.2023.101119.
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Adv Sci (Weinh). 2023 Sep;10(27):e2301574. doi: 10.1002/advs.202301574. Epub 2023 Jul 12.
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APART-QSM: An improved sub-voxel quantitative susceptibility mapping for susceptibility source separation using an iterative data fitting method.APART-QSM:一种使用迭代数据拟合方法进行磁化率源分离的改进型亚体素定量磁化率成像。
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