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ComBat Harmonization: Empirical Bayes versus fully Bayes approaches.ComBat 调和:经验贝叶斯与完全贝叶斯方法比较。
Neuroimage Clin. 2023;39:103472. doi: 10.1016/j.nicl.2023.103472. Epub 2023 Jul 13.
2
Cortical thinning in relation to impaired insight into illness in patients with treatment resistant schizophrenia.难治性精神分裂症患者的皮质变薄与对疾病认识受损的关系
Schizophrenia (Heidelb). 2023 Apr 29;9(1):27. doi: 10.1038/s41537-023-00347-y.
3
Increased cortical structural covariance correlates with anhedonia in schizophrenia.皮质结构协方差增加与精神分裂症中的快感缺乏相关。
Schizophrenia (Heidelb). 2023 Apr 4;9(1):19. doi: 10.1038/s41537-023-00350-3.
4
Integrative Brain Network and Salience Models of Psychopathology and Cognitive Dysfunction in Schizophrenia.精神分裂症中精神病理学和认知功能障碍的综合脑网络和突显模型。
Biol Psychiatry. 2023 Jul 15;94(2):108-120. doi: 10.1016/j.biopsych.2022.09.029. Epub 2022 Oct 4.
5
Decrease in gamma-band auditory steady-state response in patients with treatment-resistant schizophrenia.难治性精神分裂症患者γ频段听觉稳态反应降低。
Schizophr Res. 2023 Feb;252:129-137. doi: 10.1016/j.schres.2023.01.011. Epub 2023 Jan 13.
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Association of cortical thickness and cognition with schizophrenia treatment resistance.皮质厚度与认知与精神分裂症治疗抵抗的相关性研究。
Psychiatry Clin Neurosci. 2023 Jan;77(1):12-19. doi: 10.1111/pcn.13486. Epub 2022 Oct 31.
7
Structural covariance predictors of clinical improvement at 2-year follow-up in first-episode psychosis.首发精神病患者 2 年随访时临床改善的结构协变量预测指标。
Prog Neuropsychopharmacol Biol Psychiatry. 2023 Jan 10;120:110645. doi: 10.1016/j.pnpbp.2022.110645. Epub 2022 Sep 29.
8
Cortical Thickness Abnormalities at Different Stages of the Illness Course in Schizophrenia: A Systematic Review and Meta-analysis.精神分裂症疾病进程不同阶段的皮质厚度异常:系统评价和荟萃分析。
JAMA Psychiatry. 2022 Jun 1;79(6):560-570. doi: 10.1001/jamapsychiatry.2022.0799.
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Dopaminergic dysfunction and excitatory/inhibitory imbalance in treatment-resistant schizophrenia and novel neuromodulatory treatment.多巴胺能功能障碍和兴奋性/抑制性失衡与治疗抵抗性精神分裂症及新型神经调节治疗。
Mol Psychiatry. 2022 Jul;27(7):2950-2967. doi: 10.1038/s41380-022-01572-0. Epub 2022 Apr 20.
10
Structural covariance networks in schizophrenia: A systematic review Part I.精神分裂症的结构协变网络:系统综述第一部分。
Schizophr Res. 2022 Feb;240:1-21. doi: 10.1016/j.schres.2021.11.035. Epub 2021 Dec 11.

精神分裂症结构协变网络与抗精神病药物治疗反应的相关性研究。

Associations Between Structural Covariance Network and Antipsychotic Treatment Response in Schizophrenia.

机构信息

Department of Neuropsychiatry, Keio University, Tokyo, Japan.

Department of Psychiatry, University of Melbourne, Melbourne, Australia.

出版信息

Schizophr Bull. 2024 Mar 7;50(2):382-392. doi: 10.1093/schbul/sbad160.

DOI:10.1093/schbul/sbad160
PMID:37978044
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10919786/
Abstract

BACKGROUND AND HYPOTHESIS

Schizophrenia is associated with widespread cortical thinning and abnormality in the structural covariance network, which may reflect connectome alterations due to treatment effect or disease progression. Notably, patients with treatment-resistant schizophrenia (TRS) have stronger and more widespread cortical thinning, but it remains unclear whether structural covariance is associated with treatment response in schizophrenia.

STUDY DESIGN

We organized a multicenter magnetic resonance imaging study to assess structural covariance in a large population of TRS and non-TRS, who had been resistant and responsive to non-clozapine antipsychotics, respectively. Whole-brain structural covariance for cortical thickness was assessed in 102 patients with TRS, 77 patients with non-TRS, and 79 healthy controls (HC). Network-based statistics were used to examine the difference in structural covariance networks among the 3 groups. Moreover, the relationship between altered individual differentiated structural covariance and clinico-demographics was also explored.

STUDY RESULTS

Patients with non-TRS exhibited greater structural covariance compared with HC, mainly in the fronto-temporal and fronto-occipital regions, while there were no significant differences in structural covariance between TRS and non-TRS or HC. Higher individual differentiated structural covariance was associated with lower general scores of the Positive and Negative Syndrome Scale in the non-TRS group, but not in the TRS group.

CONCLUSIONS

These findings suggest that reconfiguration of brain networks via coordinated cortical thinning is related to treatment response in schizophrenia. Further longitudinal studies are warranted to confirm if greater structural covariance could serve as a marker for treatment response in this disease.

摘要

背景与假说

精神分裂症与广泛的皮质变薄和结构协变网络异常有关,这可能反映了由于治疗效果或疾病进展导致的连接组改变。值得注意的是,治疗抵抗性精神分裂症(TRS)患者的皮质变薄更强且更广泛,但尚不清楚结构协变是否与精神分裂症的治疗反应有关。

研究设计

我们组织了一项多中心磁共振成像研究,以评估大量 TRS 和非 TRS 患者的结构协变,他们分别对非氯氮平抗精神病药物具有抵抗性和反应性。在 102 名 TRS 患者、77 名非 TRS 患者和 79 名健康对照者(HC)中评估了皮质厚度的全脑结构协变。使用基于网络的统计方法来检查这 3 组之间结构协变网络的差异。此外,还探讨了个体差异结构协变的改变与临床人口统计学之间的关系。

研究结果

与 HC 相比,非 TRS 患者表现出更大的结构协变,主要在额颞和额枕区域,而 TRS 和非 TRS 或 HC 之间的结构协变没有显著差异。在非 TRS 组中,较高的个体差异结构协变与阳性和阴性症状量表的一般评分较低相关,但在 TRS 组中则没有。

结论

这些发现表明,通过协调的皮质变薄来重新配置大脑网络与精神分裂症的治疗反应有关。需要进一步的纵向研究来确认更大的结构协变是否可以作为该疾病治疗反应的标志物。