Artificial intelligence for volumetric measurement of cerebral white matter hyperintensities on thick-slice fluid-attenuated inversion recovery (FLAIR) magnetic resonance images from multiple centers

Author:

Kuwabara Masashi1,Ikawa Fusao2,Nakazawa Shinji3,Koshino Saori4,Ishii Daizo1,Kondo Hiroshi1,Hara Takeshi1,Maeda Yuyo1,Sato Ryo3,Kaneko Taiki3,Maeyama Shiyuki3,Shimahara Yuki3,Horie Nobutaka1

Affiliation:

1. Hiroshima University

2. Shimane Prefectural Central Hospital

3. LPIXEL Inc

4. The University of Tokyo Hospital

Abstract

Abstract

We aimed to develop a new artificial intelligence software that can automatically extract and measure the volume of white matter hyperintensities (WMHs) in head magnetic resonance imaging (MRI) using only thick-slice fluid-attenuated inversion recovery (FLAIR) sequences from multiple centers. We enrolled 1,092 participants in Japan, comprising this thick-slice Private Dataset. Based on 207 randomly selected participants, neuroradiologists annotated WMHs using predefined guidelines. The annotated participants were divided into training (n = 138) and test (n = 69) datasets. The WMH segmentation model comprised a U-Net ensemble and was trained using the Private Dataset. Two other models were trained for validation using either both thin- and thick-slice MRI datasets or the thin-slice dataset alone. The voxel-wise Dice similarity coefficient (DSC) was used as the evaluation metric. The model trained using only thick-slice MRI showed a DSC of 0.820 for the test dataset, which is comparable to the accuracy of human readers. The model trained with the additional thin-slice dataset showed only a slightly improved DSC of 0.822. This automatic WMH segmentation model comprising a U-Net ensemble trained on a thick-slice FLAIR MRI dataset is a promising new method. Despite some limitations, this model may be applicable in clinical practice.

Publisher

Research Square Platform LLC

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