White Matter Abnormalities in Major Depression Biotypes Identified by Diffusion Tensor Imaging.

Sugai Liang; Qiang Wang; Xiangzhen Kong; Wei Deng; Xiao Yang; Xiaojing LI; Zhong Zhang; Jian Zhang; Chengcheng Zhang; Xin-min LI; Xiaohong MA; Junming Shao; Andrew J Greenshaw; Tao LI

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White Matter Abnormalities in Major Depression Biotypes Identified by Diffusion Tensor Imaging.

Author: Sugai LIANG ¹ ; Qiang WANG ¹ ; Xiangzhen KONG ² ; Wei DENG ¹ ; Xiao YANG ¹ ; Xiaojing LI ¹ ; Zhong ZHANG ³ ; Jian ZHANG ¹ ; Chengcheng ZHANG ¹ ; Xin-Min LI ⁴ ; Xiaohong MA ¹ ; Junming SHAO ³ ; Andrew J GREENSHAW ⁴ ; Tao LI ⁵
Author Information

1. Mental Health Centre, West China Hospital, Sichuan University, Chengdu, 610041, China.
2. Language and Genetics Department, Max Planck Institute for Psycholinguistics, 6525 XD, Nijmegen, Netherlands.
3. Big Data Research Center, School of Computer Science and Engineering, University of Electronic Science and Technology of China, Chengdu, 611731, China.
4. Department of Psychiatry, University of Alberta, Edmonton, T6G 2B7, Canada.
5. Mental Health Centre, West China Hospital, Sichuan University, Chengdu, 610041, China. xuntao26@hotmail.com.
Publication Type:Journal Article
Keywords: Biotype; Diffusion tensor imaging; Heterogeneity; Hierarchal clustering; Major depressive disorder
From: Neuroscience Bulletin 2019;35(5):867-876
CountryChina
Language:English
Abstract: Identifying data-driven biotypes of major depressive disorder (MDD) has promise for the clarification of diagnostic heterogeneity. However, few studies have focused on white-matter abnormalities for MDD subtyping. This study included 116 patients with MDD and 118 demographically-matched healthy controls assessed by diffusion tensor imaging and neurocognitive evaluation. Hierarchical clustering was applied to the major fiber tracts, in conjunction with tract-based spatial statistics, to reveal white-matter alterations associated with MDD. Clinical and neurocognitive differences were compared between identified subgroups and healthy controls. With fractional anisotropy extracted from 20 fiber tracts, cluster analysis revealed 3 subgroups based on the patterns of abnormalities. Patients in each subgroup versus healthy controls showed a stepwise pattern of white-matter alterations as follows: subgroup 1 (25.9% of patient sample), widespread white-matter disruption; subgroup 2 (43.1% of patient sample), intermediate and more localized abnormalities in aspects of the corpus callosum and left cingulate; and subgroup 3 (31.0% of patient sample), possible mild alterations, but no statistically significant tract disruption after controlling for family-wise error. The neurocognitive impairment in each subgroup accompanied the white-matter alterations: subgroup 1, deficits in sustained attention and delayed memory; subgroup 2, dysfunction in delayed memory; and subgroup 3, no significant deficits. Three subtypes of white-matter abnormality exist in individuals with major depression, those having widespread abnormalities suffering more neurocognitive impairments, which may provide evidence for parsing the heterogeneity of the disorder and help optimize type-specific treatment approaches.