精神分裂症患者的额纹状体-丘脑回路连接和神经松弛素:功能磁共振成像和神经松弛蛋白MRI研究。

IF 3 Q2 PSYCHIATRY
Sunah Choi, Minah Kim, Taekwan Kim, Eun-Jung Choi, Jungha Lee, Sun-Young Moon, Sang Soo Cho, Jongho Lee, Jun Soo Kwon
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引用次数: 0

摘要

多巴胺和额纹状体-丘脑(FST)回路功能连接的变化在精神分裂症中很突出。多巴胺被认为是连接变化的基础,但缺乏这一假设的实验证据。先前的研究使用正电子发射断层扫描(PET)和功能性MRI(fMRI)检查了一些连接中的相关性;然而,PET在扫描患者时有缺点,例如侵入性。过量的多巴胺会诱导神经松弛素(NM)的积累,NM-MRI被认为是多巴胺功能的非侵入性替代指标。我们旨在研究精神分裂症患者网络水平上NM和FST电路连接之间的关系。我们分析了29名精神分裂症患者和63名年龄和性别匹配的健康对照(HC)的黑质NM-MRI和静息态fMRI数据。我们确定了在精神分裂症患者中发现的与HC相比具有异常连接的FST子网络,并研究了构成连接与NM-MRI信号之间的关系。我们发现NM信号(t = -2.12,p = 0.037)和次连接FST子网络(FWER校正p = 0.014)。在精神分裂症患者的低连接子网络中,左下补充运动区-左尾状连接与较高的NM信号(β = -0.38,p = 0.042)。我们证明了NM和FST电路连接性之间的关联。考虑到NM-MRI信号反映了多巴胺功能,我们的研究结果表明,多巴胺是FST电路连接变化的基础,这支持了多巴胺假说。此外,本研究揭示了NM-MRI在多巴胺系统研究中的未来应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Fronto-striato-thalamic circuit connectivity and neuromelanin in schizophrenia: an fMRI and neuromelanin-MRI study.

Fronto-striato-thalamic circuit connectivity and neuromelanin in schizophrenia: an fMRI and neuromelanin-MRI study.

Changes in dopamine and fronto-striato-thalamic (FST) circuit functional connectivity are prominent in schizophrenia. Dopamine is thought to underlie connectivity changes, but experimental evidence for this hypothesis is lacking. Previous studies examined the association in some of the connections using positron emission tomography (PET) and functional MRI (fMRI); however, PET has disadvantages in scanning patients, such as invasiveness. Excessive dopamine induces neuromelanin (NM) accumulation, and NM-MRI is suggested as a noninvasive proxy measure of dopamine function. We aimed to investigate the association between NM and FST circuit connectivity at the network level in patients with schizophrenia. We analysed substantia nigra NM-MRI and resting-state fMRI data from 29 schizophrenia patients and 63 age- and sex-matched healthy controls (HCs). We identified the FST subnetwork with abnormal connectivity found in schizophrenia patients compared to that of HCs and investigated the relationship between constituting connectivity and NM-MRI signal. We found a higher NM signal (t = -2.12, p = 0.037) and a hypoconnected FST subnetwork (FWER-corrected p = 0.014) in schizophrenia patients than in HCs. In the hypoconnected subnetwork of schizophrenia patients, lower left supplementary motor area-left caudate connectivity was associated with a higher NM signal (β = -0.38, p = 0.042). We demonstrated the association between NM and FST circuit connectivity. Considering that the NM-MRI signal reflects dopamine function, our results suggest that dopamine underlies changes in FST circuit connectivity, which supports the dopamine hypothesis. In addition, this study reveals implications for the future use of NM-MRI in investigations of the dopamine system.

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