定量神经影像学揭示双相情感障碍中线粒体蓝对氧化神经代谢反应的改变。
Altered oxidative neurometabolic response to methylene blue in bipolar disorder revealed by quantitative neuroimaging.
机构信息
Department of Clinical Neuroscience, Brighton and Sussex Medical School, University of Sussex, Falmer, Brighton, UK; Sussex Partnership NHS Foundation Trust, Worthing, UK.
Department of Clinical Neuroscience, Brighton and Sussex Medical School, University of Sussex, Falmer, Brighton, UK; Radiology, Leiden University Medical Center, Leiden, the Netherlands.
出版信息
J Affect Disord. 2024 Oct 1;362:790-798. doi: 10.1016/j.jad.2024.07.029. Epub 2024 Jul 15.
BACKGROUND
Cerebral mitochondrial and hemodynamic abnormalities have been implicated in Bipolar Disorder pathophysiology, likely contributing to neurometabolic vulnerability-leading to worsen clinical outcomes and mood instability. To investigate neurometabolic vulnerability in patients with BD, we combined multi-modal quantitative MRI assessment of cerebral oxygenation with acute administration of Methylene Blue, a neurometabolic/hemodynamic modulator acting on cerebral mitochondria.
METHODS
Fifteen euthymic patients with chronic BD-type 1, and fifteen age/gender-matched healthy controls underwent two separate MRI sessions in a single-blinded randomized cross-over design, each after intravenous infusion of either MB (0.5 mg/kg) or placebo. MRI-based measures of Cerebral Blood Flow and Oxygen Extraction Fraction were integrated to compute Cerebral Metabolic Rate of Oxygen in Frontal Lobe, Anterior Cingulate, and Hippocampus-implicated in BD neurometabolic pathophysiology. Inter-daily variation in mood rating was used to assess mood instability.
RESULTS
A decrease in global CBF and CMRO was observed after acutely administrating MB to all participants. Greater regional CMRO reductions were observed after MB, in patients compared to controls in FL (mean = -14.2 ± 19.5 % versus 2.3 ± 14.8 %), ACC (mean = -14.8 ± 23.7 % versus 2.4 ± 15.7 %). The effects on CMRO in those regions were primarily driven by patients with longer disease duration and higher mood instability.
LIMITATIONS
Sample size; medications potentially impacting on response to MB.
CONCLUSIONS
An altered neurometabolic response to MB, a mitochondrial/hemodynamic modulator, was observed in patients, supporting the hypothesis of vulnerability to neurometabolic stress in BD. Integrating quantitative imaging of cerebral oxygen metabolism with a mitochondrial-targeting pharmacological challenge could provide a novel biomarker of neurometabolic and cerebrovascular pathophysiology in BD.
背景
脑线粒体和血液动力学异常与双相情感障碍的发病机制有关,可能导致神经代谢易损性,导致临床结局恶化和情绪不稳定。为了研究双相情感障碍患者的神经代谢易损性,我们结合了脑氧合的多模态定量 MRI 评估与亚甲蓝的急性给药,亚甲蓝是一种作用于脑线粒体的神经代谢/血液动力学调节剂。
方法
15 名稳定期慢性 1 型双相情感障碍患者和 15 名年龄/性别匹配的健康对照者在单盲随机交叉设计的两次单独 MRI 检查中接受了两次检查,每次检查后静脉输注 MB(0.5mg/kg)或安慰剂。将基于 MRI 的脑血流和氧提取分数测量值整合在一起,以计算额叶、前扣带回和海马中的脑氧代谢率,这些区域与双相情感障碍的神经代谢发病机制有关。每日情绪评分的变化用于评估情绪不稳定。
结果
所有参与者接受 MB 急性给药后,观察到全局 CBF 和 CMRO 下降。与对照组相比,患者在 FL(平均值=-14.2±19.5%对 2.3±14.8%)和 ACC(平均值=-14.8±23.7%对 2.4±15.7%)中观察到更大的区域 CMRO 减少。这些区域的 CMRO 效应主要由疾病持续时间更长和情绪不稳定更高的患者驱动。
局限性
样本量;可能影响 MB 反应的药物。
结论
在患者中观察到对 MB(一种线粒体/血液动力学调节剂)的神经代谢反应改变,支持了在双相情感障碍中易发生神经代谢应激的假说。将脑氧代谢的定量成像与靶向线粒体的药物挑战相结合,可能为双相情感障碍的神经代谢和脑血管生理学提供一种新的生物标志物。
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