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本文引用的文献

1
Reduced Structural Connectivity in Frontostriatal White Matter Tracts in the Associative Loop in Schizophrenia.精神分裂症关联环额-纹状体白质束结构连接减少。
Am J Psychiatry. 2017 Nov 1;174(11):1102-1111. doi: 10.1176/appi.ajp.2017.16091046. Epub 2017 Sep 15.
2
Schizophrenia risk from complex variation of complement component 4.补体成分4的复杂变异导致精神分裂症的风险。
Nature. 2016 Feb 11;530(7589):177-83. doi: 10.1038/nature16549. Epub 2016 Jan 27.
3
Sexual dimorphic abnormalities in white matter geometry common to schizophrenia and non-psychotic high-risk subjects: Evidence for a neurodevelopmental risk marker?精神分裂症和非精神病性高危受试者共有的白质几何结构中的性二态异常:神经发育风险标志物的证据?
Hum Brain Mapp. 2016 Jan;37(1):254-61. doi: 10.1002/hbm.23026. Epub 2015 Oct 15.
4
Estimates of projection overlap and zones of convergence within frontal-striatal circuits.额皮质-纹状体回路中的预测重叠和汇聚区域的估计。
J Neurosci. 2014 Jul 16;34(29):9497-505. doi: 10.1523/JNEUROSCI.5806-12.2014.
5
White matter tract abnormalities between rostral middle frontal gyrus, inferior frontal gyrus and striatum in first-episode schizophrenia.首发精神分裂症患者额中回、额下回和纹状体之间的白质束异常。
Schizophr Res. 2013 Apr;145(1-3):1-10. doi: 10.1016/j.schres.2012.11.028. Epub 2013 Feb 13.
6
A volumetric MRI study of limbic, associative and sensorimotor striatal subregions in schizophrenia.精神分裂症患者边缘、联合和感觉运动纹状体亚区的容积 MRI 研究。
Schizophr Res. 2013 Apr;145(1-3):11-9. doi: 10.1016/j.schres.2012.08.032. Epub 2013 Feb 4.
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The complement system: an unexpected role in synaptic pruning during development and disease.补体系统:在发育和疾病过程中突触修剪中的意外作用。
Annu Rev Neurosci. 2012;35:369-89. doi: 10.1146/annurev-neuro-061010-113810.
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Aberrant cortical gyrification in schizophrenia: a surface-based morphometry study.精神分裂症中的皮质脑回异常:一项基于表面的形态测量学研究。
J Psychiatry Neurosci. 2012 Nov;37(6):399-406. doi: 10.1503/jpn.110119.
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Reduced pallidal output causes dystonia.苍白球输出减少导致肌张力障碍。
Front Syst Neurosci. 2011 Nov 28;5:89. doi: 10.3389/fnsys.2011.00089. eCollection 2011.
10
Fractional anisotropy and radial diffusivity: diffusion measures of white matter abnormalities in the anterior limb of the internal capsule in schizophrenia.各向异性分数和径向弥散度:精神分裂症内囊前肢白质异常的弥散测量指标。
Schizophr Res. 2012 Apr;136(1-3):55-62. doi: 10.1016/j.schres.2011.09.009. Epub 2011 Oct 20.

精神分裂症中额眶皮质投射的连接错误。

Miswiring of Frontostriatal Projections in Schizophrenia.

机构信息

Clinical Neuroscience Division, Laboratory of Neuroscience, Department of Psychiatry, VA Boston Healthcare System, Brockton Division, Brockton, MA, Harvard Medical School, Boston, MA.

Psychiatry Neuroimaging Laboratory, Department of Psychiatry, Brigham and Women's Hospital, Harvard Medical School, Boston, MA.

出版信息

Schizophr Bull. 2020 Jul 8;46(4):990-998. doi: 10.1093/schbul/sbz129.

DOI:10.1093/schbul/sbz129
PMID:31990358
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7342176/
Abstract

We investigated brain wiring in chronic schizophrenia and healthy controls in frontostriatal circuits using diffusion magnetic resonance imaging tractography in a novel way. We extracted diffusion streamlines in 27 chronic schizophrenia and 26 healthy controls connecting 4 frontal subregions to the striatum. We labeled the projection zone striatal surface voxels into 2 subtypes: dominant-input from a single cortical subregion, and, functionally integrative, with mixed-input from diverse cortical subregions. We showed: 1) a group difference for total striatal surface voxel number (P = .045) driven by fewer mixed-input voxels in the left (P  = .007), but not right, hemisphere; 2) a group by hemisphere interaction for the ratio quotient between voxel subtypes (P  = .04) with a left (P  = .006), but not right, hemisphere increase in schizophrenia, also reflecting fewer mixed-input voxels; and 3) fewer mixed-input voxel counts in schizophrenia (P  = .045) driven by differences in left hemisphere limbic (P  = .007) and associative (P  = .01), but not sensorimotor, striatum. These results demonstrate a less integrative pattern of frontostriatal structural connectivity in chronic schizophrenia. A diminished integrative pattern yields a less complex input pattern to the striatum from the cortex with less circuit integration at the level of the striatum. Further, as brain wiring occurs during early development, aberrant brain wiring could serve as a developmental biomarker for schizophrenia.

摘要

我们以一种新颖的方式使用弥散磁共振成像轨迹技术研究了慢性精神分裂症患者和健康对照者的额纹状体回路的大脑连接。我们从 27 名慢性精神分裂症患者和 26 名健康对照者中提取了连接 4 个额区到纹状体的弥散流线。我们将投射区纹状体表面体素分为 2 个亚型:来自单个皮质区的主要输入,以及来自不同皮质区的混合输入的功能整合。我们表明:1)总纹状体表面体素数量的组间差异(P=0.045)是由左侧(P=0.007)而不是右侧混合输入体素较少驱动的;2)体素亚型的比率商存在组-半球交互作用(P=0.04),左侧(P=0.006)而非右侧半球的精神分裂症患者增加,也反映了混合输入体素较少;3)精神分裂症患者的混合输入体素计数较少(P=0.045),这是由左侧边缘(P=0.007)和联合(P=0.01)但不是感觉运动纹状体的差异驱动的。这些结果表明,慢性精神分裂症患者的额纹状体结构连接模式的整合性较差。整合模式的减少导致来自皮质的纹状体的输入模式较不复杂,纹状体水平的回路整合较少。此外,由于大脑连接发生在早期发育过程中,异常的大脑连接可能作为精神分裂症的发育生物标志物。