Functional Brain Center, Wohl Institute for Advanced Imaging.
Lupus. 2013 May;22(6):562-73. doi: 10.1177/0961203313480399. Epub 2013 Mar 27.
Memory impairment is prevalent in systemic lupus erythematosus (SLE); however, the pathogenesis is unknown.
We studied 12 patients with SLE without clinically overt neuropsychiatric manifestations and 11 matched healthy controls, aiming to characterize neural correlates of memory impairment, using structural and functional magnetic resonance imaging (MRI). The paradigm consisted of three encoding and free-recall cycles, allowing characterization of dynamics along consecutive retrieval attempts.
During learning, patients with SLE and healthy controls showed brain activity changes in two principal networks, the default mode network (DMN) and the task-positive network (TPN). Patients with SLE demonstrated significantly less deactivation in the DMN and greater activation in the TPN, reflecting greater recruitment of both networks. The anterior medial prefrontal cortex (amPFC) of the DMN emerged as the only region where brain activity dynamics were altered both over the learning process (p < 0.006), and within free-recall period attempts (p < 0.034). Patients showed significant positive correlations between learning efficiency and hippocampal activity, and greater hippocampal functional connectivity, with pronounced connectivity to DMN structures.
Increased brain activation in patients with SLE during learning may reflect compensatory mechanisms to overcome memory impairment. Our findings localize this impairment to the amPFC, consistent with the behavioral pattern seen in SLE. Altered networking of the hippocampal subsystem of the DMN is consistent with hippocampal neuronal damage seen in SLE, and may reflect compensatory cortical reorganization to cope with dysfunction in these regions pivotal to mnemonic functions.
记忆障碍在系统性红斑狼疮(SLE)中很常见;然而,其发病机制尚不清楚。
我们研究了 12 名无临床明显神经精神表现的 SLE 患者和 11 名匹配的健康对照者,旨在使用结构和功能磁共振成像(MRI)来描述记忆障碍的神经相关性。该范式包括三个编码和自由回忆周期,允许对连续检索尝试中的动态进行特征描述。
在学习过程中,SLE 患者和健康对照组显示出两个主要网络(默认模式网络(DMN)和任务正性网络(TPN))的大脑活动变化。SLE 患者的 DMN 去激活明显减少,TPN 激活增加,反映出两个网络的更大招募。DMN 的前内侧前额叶皮层(amPFC)是唯一在学习过程中(p < 0.006)和自由回忆期尝试内(p < 0.034)大脑活动动态发生改变的区域。患者的学习效率与海马体活动之间存在显著正相关,海马体功能连接性更强,与 DMN 结构的连接性更明显。
SLE 患者在学习过程中大脑活动的增加可能反映了克服记忆障碍的代偿机制。我们的发现将这种损害定位于 amPFC,与 SLE 中观察到的行为模式一致。DMN 中海马亚系统的网络改变与 SLE 中观察到的海马神经元损伤一致,可能反映了这些区域对记忆功能至关重要的皮质重组以应对功能障碍的代偿性。
