Department of Computer Science, Université de Sherbrooke, Sherbrooke, Québec, Canada.
Department of Biomedical Engineering and Health Systems, KTH Royal Institute of Technology, Stockholm, Sweden.
Magn Reson Imaging. 2019 Dec;64:37-48. doi: 10.1016/j.mri.2019.04.013. Epub 2019 May 9.
Supervised machine learning (ML) algorithms have recently been proposed as an alternative to traditional tractography methods in order to address some of their weaknesses. They can be path-based and local-model-free, and easily incorporate anatomical priors to make contextual and non-local decisions that should help the tracking process. ML-based techniques have thus shown promising reconstructions of larger spatial extent of existing white matter bundles, promising reconstructions of less false positives, and promising robustness to known position and shape biases of current tractography techniques. But as of today, none of these ML-based methods have shown conclusive performances or have been adopted as a de facto solution to tractography. One reason for this might be the lack of well-defined and extensive frameworks to train, evaluate, and compare these methods. In this paper, we describe several datasets and evaluation tools that contain useful features for ML algorithms, along with the various methods proposed in the recent years. We then discuss the strategies that are used to evaluate and compare those methods, as well as their shortcomings. Finally, we describe the particular needs of ML tractography methods and discuss tangible solutions for future works.
监督机器学习(ML)算法最近被提议作为传统轨迹追踪方法的替代方法,以解决其中的一些弱点。它们可以是基于路径的、无局部模型的,并且可以轻松地合并解剖学先验知识,以便做出上下文和非局部决策,这有助于跟踪过程。基于 ML 的技术因此显示了对现有白质束更大空间范围的有希望的重建、对更少假阳性的有希望的重建以及对当前轨迹追踪技术的已知位置和形状偏差的稳健性。但是到目前为止,这些基于 ML 的方法都没有显示出明确的性能,也没有被采纳为轨迹追踪的实际解决方案。其中一个原因可能是缺乏定义明确和广泛的框架来训练、评估和比较这些方法。在本文中,我们描述了几个包含 ML 算法有用特征的数据集和评估工具,以及近年来提出的各种方法。然后,我们讨论了用于评估和比较这些方法的策略及其缺点。最后,我们描述了 ML 轨迹追踪方法的特殊需求,并讨论了未来工作的可行解决方案。
