Wu Zhengwang, Park Sang Hyun, Guo Yanrong, Gao Yaozong, Shen Dinggang
Department of Radiology and BRIC, UNC at Chapel Hill, Chapel Hill, NC, USA.
Mach Learn Med Imaging. 2016 Oct;10019:237-245. doi: 10.1007/978-3-319-47157-0_29. Epub 2016 Oct 1.
This paper proposes a novel method of using regression-guided deformable models for brain regions of interest (ROIs) segmentation. Different from conventional deformable segmentation, which often deforms shape model locally and thus sensitive to initialization, we propose to learn a regressor to explicitly guide the shape deformation, thus eventually improves the performance of ROI segmentation. The regressor is learned via two steps, (1) a joint classification and regression random forest (CRRF) and (2) an auto-context model. The CRRF predicts each voxel's deformation to the nearest point on the ROI boundary as well as each voxel's class label (e.g., ROI background). The auto-context model further refines all voxel's deformations (i.e., deformation field) and class labels (i.e., label maps) by considering the neighboring structures. Compared to the conventional random forest regressor, the proposed regressor provides more accurate deformation field estimation and thus more robust in guiding deformation of the shape model. Validated in segmentation of 14 midbrain ROIs from the IXI dataset, our method outperforms the state-of-art multi-atlas label fusion and classification methods, and also significantly reduces the computation cost.
本文提出了一种使用回归引导的可变形模型进行脑感兴趣区域(ROI)分割的新方法。与传统的可变形分割不同,传统的可变形分割通常在局部使形状模型变形,因此对初始化敏感,我们建议学习一个回归器来明确引导形状变形,从而最终提高ROI分割的性能。回归器通过两个步骤学习,(1)联合分类和回归随机森林(CRRF)以及(2)自动上下文模型。CRRF预测每个体素到ROI边界上最近点的变形以及每个体素的类别标签(例如,ROI背景)。自动上下文模型通过考虑相邻结构进一步细化所有体素的变形(即变形场)和类别标签(即标签图)。与传统的随机森林回归器相比,所提出的回归器提供了更准确的变形场估计,因此在引导形状模型变形方面更稳健。在来自IXI数据集的14个中脑ROI的分割中得到验证,我们的方法优于当前最先进的多图谱标签融合和分类方法,并且还显著降低了计算成本。
