一种利用微观结构和解剖学信息对人类脑连接进行精确活体图谱绘制的新方法。

A new method for accurate in vivo mapping of human brain connections using microstructural and anatomical information.

作者信息

Schiavi Simona, Ocampo-Pineda Mario, Barakovic Muhamed, Petit Laurent, Descoteaux Maxime, Thiran Jean-Philippe, Daducci Alessandro

机构信息

Department of Computer Science, University of Verona, Verona, Italy.

Signal Processing Lab (LTS5), École Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.

出版信息

Sci Adv. 2020 Jul 29;6(31):eaba8245. doi: 10.1126/sciadv.aba8245. eCollection 2020 Jul.

DOI:10.1126/sciadv.aba8245

PMID:32789176

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7399649/

Abstract

Diffusion magnetic resonance imaging is a noninvasive imaging modality that has been extensively used in the literature to study the neuronal architecture of the brain in a wide range of neurological conditions using tractography. However, recent studies highlighted that the anatomical accuracy of the reconstructions is inherently limited and challenged its appropriateness. Several solutions have been proposed to tackle this issue, but none of them proved effective to overcome this fundamental limitation. In this work, we present a novel processing framework to inject into the reconstruction problem basic prior knowledge about brain anatomy and its organization and evaluate its effectiveness using both simulated and real human brain data. Our results indicate that our proposed method dramatically increases the accuracy of the estimated brain networks and, thus, represents a major step forward for the study of connectivity.

摘要

扩散磁共振成像（Diffusion magnetic resonance imaging）是一种非侵入性成像方式，在文献中已被广泛用于使用纤维束成像技术研究多种神经疾病中大脑的神经元结构。然而，最近的研究强调，重建的解剖学准确性存在内在局限性，并对其适用性提出了挑战。已经提出了几种解决方案来解决这个问题，但没有一种被证明能有效克服这一基本限制。在这项工作中，我们提出了一个新颖的处理框架，将关于大脑解剖结构及其组织的基本先验知识注入到重建问题中，并使用模拟和真实人类大脑数据评估其有效性。我们的结果表明，我们提出的方法显著提高了估计脑网络的准确性，因此代表了连接性研究向前迈出的重要一步。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42af/7399649/45002064a559/aba8245-F1.jpg

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一种利用微观结构和解剖学信息对人类脑连接进行精确活体图谱绘制的新方法。

A new method for accurate in vivo mapping of human brain connections using microstructural and anatomical information.

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