Full-Head Segmentation of MRI with Abnormal Brain Anatomy: Model and Data Release

TL;DR

This paper introduces a deep learning model for whole-head MRI segmentation that performs well on abnormal anatomies and releases a new benchmark dataset for this task.

Contribution

The authors developed a MultiAxial network for robust head segmentation and publicly released a diverse dataset including abnormal brain anatomies.

Findings

Achieved a Dice score of 0.88 on whole-head segmentation.

Outperformed standard tools like Multipriors and SPM12.

Performed well on abnormal and de-identified images.

Abstract

Purpose: The goal of this work was to develop a deep network for whole-head segmentation including clinical MRIs with abnormal anatomy, and compile the first public benchmark dataset for this purpose. We collected 98 MRIs with volumetric segmentation labels for a diverse set of human subjects including normal, as well as abnormal anatomy in clinical cases of stroke and disorders of consciousness. Approach: Training labels were generated by manually correcting initial automated segmentations for skin/scalp, skull, CSF, gray matter, white matter, air cavity and extracephalic air. We developed a MultiAxial network consisting of three 2D U-Net that operate independently in sagittal, axial and coronal planes and are then combined to produce a single 3D segmentation. Results: The MultiAxial network achieved a test-set Dice scores of 0.88+-0.04 (median +- interquartile range) on whole head segmentation including gray and white matter. This compared to 0.86 +- 0.04 for Multipriors and 0.79 +- 0.10 for SPM12, two standard tools currently available for this task. The MultiAxial network gains in robustness by avoiding the need for coregistration with an atlas. It performed well in regions with abnormal anatomy and on images that have been de-identified. It enables more accurate and robust current flow modeling when incorporated into ROAST, a widely-used modeling toolbox for transcranial electric stimulation.Conclusions: We are releasing a new state-of-the-art tool for whole-head MRI segmentation in abnormal anatomy, along with the largest volume of labeled clinical head MRIs including labels for non-brain structures. Together the model and data may serve as a benchmark for future efforts.