Longitudinal study on hippocampal subfields and glucose metabolism in early psychosis.

IF 3 Q2 PSYCHIATRY
Reetta-Liina Armio, Heikki Laurikainen, Tuula Ilonen, Maija Walta, Elina Sormunen, Arvi Tolvanen, Raimo K R Salokangas, Nikolaos Koutsouleris, Lauri Tuominen, Jarmo Hietala
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Abstract

Altered hippocampal morphology and metabolic pathology, but also hippocampal circuit dysfunction, are established phenomena seen in psychotic disorders. Thus, we tested whether hippocampal subfield volume deficits link with deviations in glucose metabolism commonly seen in early psychosis, and whether the glucose parameters or subfield volumes change during follow-up period using one-year longitudinal study design of 78 first-episode psychosis patients (FEP), 48 clinical high-risk patients (CHR) and 83 controls (CTR). We also tested whether hippocampal morphology and glucose metabolism relate to clinical outcome. Hippocampus subfields were segmented with Freesurfer from 3T MRI images and parameters of glucose metabolism were determined in fasting plasma samples. Hippocampal subfield volumes were consistently lower in FEPs, and findings were more robust in non-affective psychoses, with strongest decreases in CA1, molecular layer and hippocampal tail, and in hippocampal tail of CHRs, compared to CTRs. These morphometric differences remained stable at one-year follow-up. Both non-diabetic CHRs and FEPs had worse glucose parameters compared to CTRs at baseline. We found that, insulin levels and insulin resistance increased during the follow-up period only in CHR, effect being largest in the CHRs converting to psychosis, independent of exposure to antipsychotics. The worsening of insulin resistance was associated with deterioration of function and symptoms in CHR. The smaller volume of hippocampal tail was associated with higher plasma insulin and insulin resistance in FEPs, at the one-year follow-up. Our longitudinal study supports the view that temporospatial hippocampal subfield volume deficits are stable near the onset of first psychosis, being more robust in non-affective psychoses, but less prominent in the CHR group. Specific subfield defects were related to worsening glucose metabolism during the progression of psychosis, suggesting that hippocampus is part of the circuits regulating aberrant glucose metabolism in early psychosis. Worsening of glucose metabolism in CHR group was associated with worse clinical outcome measures indicating a need for heightened clinical attention to metabolic problems already in CHR.

Abstract Image

早期精神病海马亚区和葡萄糖代谢的纵向研究。
海马形态和代谢病理改变以及海马回路功能障碍是精神病性障碍的既定现象。因此,我们通过对 78 名首发精神病患者(FEP)、48 名临床高危患者(CHR)和 83 名对照组(CTR)进行为期一年的纵向研究,检验了海马亚区体积缺陷是否与早期精神病中常见的葡萄糖代谢偏差有关,以及葡萄糖参数或亚区体积在随访期间是否会发生变化。我们还测试了海马形态和葡萄糖代谢是否与临床结果有关。我们使用 Freesurfer 对 3T MRI 图像中的海马子场进行了分割,并对空腹血浆样本中的葡萄糖代谢参数进行了测定。与CTR相比,FEPs患者的海马子野体积一直较低,而非情感性精神病患者的海马子野体积更低,CA1、分子层和海马尾部以及CHRs患者的海马尾部的体积下降幅度最大。这些形态学差异在一年的随访中保持稳定。与基线时的CTR相比,非糖尿病CHR和FEP的血糖参数都更差。我们发现,在随访期间,胰岛素水平和胰岛素抵抗仅在CHR中增加,在转化为精神病的CHR中影响最大,与抗精神病药物的暴露无关。胰岛素抵抗的恶化与CHR功能和症状的恶化有关。在为期一年的随访中,海马尾部较小的体积与FEPs较高的血浆胰岛素和胰岛素抵抗有关。我们的纵向研究支持这样一种观点,即颞叶海马子场体积缺陷在首次精神病发病时较为稳定,在非情感性精神病中更为明显,但在CHR组中不那么突出。在精神病进展过程中,特定的子野缺陷与糖代谢恶化有关,这表明海马是调节早期精神病异常糖代谢回路的一部分。CHR组患者的糖代谢恶化与更差的临床结果测量有关,这表明临床上需要更加关注CHR患者的代谢问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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