患有精神病和双相谱系症状的青少年的大脑结构改变。
Structural Brain Alterations in Youth With Psychosis and Bipolar Spectrum Symptoms.
作者信息
Jalbrzikowski Maria, Freedman David, Hegarty Catherine E, Mennigen Eva, Karlsgodt Katherine H, Olde Loohuis Loes M, Ophoff Roel A, Gur Raquel E, Bearden Carrie E
机构信息
University of Pittsburgh, PA.
Semel Institute for Neuroscience and Human Behavior, University of California, Los Angeles.
出版信息
J Am Acad Child Adolesc Psychiatry. 2019 Nov;58(11):1079-1091. doi: 10.1016/j.jaac.2018.11.012. Epub 2019 Jan 18.
OBJECTIVE
Adults with established diagnoses of serious mental illness (bipolar disorder and schizophrenia) exhibit structural brain abnormalities, yet less is known about how such abnormalities manifest earlier in development.
METHOD
Cross-sectional data publicly available from the Philadelphia Neurodevelopmental Cohort (PNC) were analyzed. Structural magnetic resonance neuroimaging data were collected on a subset of the PNC (N = 989; 9-22 years old). Cortical thickness, surface area (SA), and subcortical volumes were calculated. Study participants were assessed for psychiatric symptomatology using a structured interview and the following groups were created: typically developing (n = 376), psychosis spectrum (PS; n = 113), bipolar spectrum (BP; n = 117), and BP + PS (n = 109). Group and developmental differences in structural magnetic resonance neuroimaging measures were examined. In addition, the extent to which any structural aberration was related to neurocognition, global functioning, and clinical symptomatology was examined.
RESULTS
Compared with other groups, PS youth exhibited significantly decreased SA in the orbitofrontal, cingulate, precentral, and postcentral regions. PS youth also exhibited deceased thalamic volume compared with all other groups. The strongest effects for precentral and posterior cingulate SA decreases were seen during early adolescence (13-15 years old) in PS youth. The strongest effects for decreases in thalamic volume and orbitofrontal and postcentral SA were observed in mid-adolescence (16-18 years) in PS youth. Across groups, better overall functioning was associated with increased lateral orbitofrontal SA. Increased postcentral SA was associated with better executive cognition and less severe negative symptoms in the entire sample.
CONCLUSION
In a community-based sample, decreased cortical SA and thalamic volume were present early in adolescent development in youth with PS symptoms, but not in youth with BP symptoms or with BP and PS symptoms. These findings point to potential biological distinctions between PS and BP conditions, which could suggest additional biomarkers relevant to early identification.
目的
已确诊患有严重精神疾病(双相情感障碍和精神分裂症)的成年人存在大脑结构异常,但对于这些异常在发育早期如何表现却知之甚少。
方法
分析了从费城神经发育队列(PNC)公开获取的横断面数据。对PNC的一个子集(N = 989;9 - 22岁)收集了结构磁共振神经影像数据。计算了皮质厚度、表面积(SA)和皮质下体积。使用结构化访谈对研究参与者的精神症状进行评估,并创建了以下几组:发育正常组(n = 376)、精神病谱系组(PS;n = 113)、双相谱系组(BP;n = 117)和双相+精神病谱系组(BP + PS;n = 109)。研究了结构磁共振神经影像测量中的组间差异和发育差异。此外,还研究了任何结构异常与神经认知、整体功能和临床症状的相关程度。
结果
与其他组相比,PS组青少年在眶额、扣带、中央前和中央后区域的SA显著降低。与所有其他组相比,PS组青少年的丘脑体积也减小。PS组青少年在青春期早期(13 - 15岁)中央前和后扣带SA降低的影响最为明显。PS组青少年在青春期中期(16 - 18岁)丘脑体积以及眶额和中央后SA降低的影响最为显著。在所有组中,更好的整体功能与外侧眶额SA增加相关。中央后SA增加与整个样本中更好的执行认知和较轻的阴性症状相关。
结论
在一个基于社区的样本中,有PS症状的青少年在青春期发育早期出现皮质SA和丘脑体积减小,但有BP症状或有BP和PS症状的青少年则没有。这些发现指出了PS和BP病症之间潜在的生物学差异,这可能暗示与早期识别相关的其他生物标志物。
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