颞叶癫痫中上行网状激活系统的功能连接障碍
Functional connectivity disturbances of the ascending reticular activating system in temporal lobe epilepsy.
作者信息
Englot Dario J, D'Haese Pierre-Francois, Konrad Peter E, Jacobs Monica L, Gore John C, Abou-Khalil Bassel W, Morgan Victoria L
机构信息
Department of Neurological Surgery, Vanderbilt University Medical Center, Nashville, Tennessee, USA.
Vanderbilt University Institute of Imaging Science, Vanderbilt University Medical Center, Nashville, Tennessee, USA.
出版信息
J Neurol Neurosurg Psychiatry. 2017 Nov;88(11):925-932. doi: 10.1136/jnnp-2017-315732. Epub 2017 Jun 19.
OBJECTIVE
Seizures in temporal lobe epilepsy (TLE) disturb brain networks and lead to connectivity disturbances. We previously hypothesised that recurrent seizures in TLE may lead to abnormal connections involving subcortical activating structures including the ascending reticular activating system (ARAS), contributing to neocortical dysfunction and neurocognitive impairments. However, no studies of ARAS connectivity have been previously reported in patients with epilepsy.
METHODS
We used resting-state functional MRI recordings in 27 patients with TLE (67% right sided) and 27 matched controls to examine functional connectivity (partial correlation) between eight brainstem ARAS structures and 105 cortical/subcortical regions. ARAS nuclei included: cuneiform/subcuneiform, dorsal raphe, locus coeruleus, median raphe, parabrachial complex, pontine oralis, pedunculopontine and ventral tegmental area. Connectivity patterns were related to disease and neuropsychological parameters.
RESULTS
In control subjects, regions showing highest connectivity to ARAS structures included limbic structures, thalamus and certain neocortical areas, which is consistent with prior studies of ARAS projections. Overall, ARAS connectivity was significantly lower in patients with TLE than controls (p<0.05, paired t-test), particularly to neocortical regions including insular, lateral frontal, posterior temporal and opercular cortex. Diminished ARAS connectivity to these regions was related to increased frequency of consciousness-impairing seizures (p<0.01, Pearson's correlation) and was associated with impairments in verbal IQ, attention, executive function, language and visuospatial memory on neuropsychological evaluation (p<0.05, Spearman's rho or Kendell's tau-b).
CONCLUSIONS
Recurrent seizures in TLE are associated with disturbances in ARAS connectivity, which are part of the widespread network dysfunction that may be related to neurocognitive problems in this devastating disorder.
目的
颞叶癫痫(TLE)发作会扰乱脑网络并导致连接障碍。我们之前曾假设,TLE中的反复癫痫发作可能会导致涉及包括上行网状激活系统(ARAS)在内的皮质下激活结构的异常连接,从而导致新皮质功能障碍和神经认知损害。然而,此前尚无关于癫痫患者ARAS连接性的研究报道。
方法
我们对27例TLE患者(67%为右侧病变)和27例匹配的对照者进行静息态功能磁共振成像记录,以检查8个脑干ARAS结构与105个皮质/皮质下区域之间的功能连接(偏相关)。ARAS核团包括:楔状/楔下状核、中缝背核、蓝斑、中缝正中核、臂旁复合体、脑桥嘴侧部、脚桥核和腹侧被盖区。连接模式与疾病及神经心理学参数相关。
结果
在对照者中,与ARAS结构显示出最高连接性的区域包括边缘结构、丘脑和某些新皮质区域,这与之前关于ARAS投射的研究一致。总体而言,TLE患者的ARAS连接性显著低于对照者(p<0.05,配对t检验),尤其是与包括岛叶、额叶外侧、颞叶后部和 opercular 皮质在内的新皮质区域的连接性。与这些区域的ARAS连接性降低与意识障碍性癫痫发作频率增加相关(p<0.01,Pearson相关性),并且在神经心理学评估中与言语智商、注意力、执行功能、语言和视觉空间记忆受损相关(p<0.05,Spearman秩相关或Kendell's tau-b)。
结论
TLE中的反复癫痫发作与ARAS连接性障碍相关,这是广泛的网络功能障碍的一部分,可能与这种破坏性疾病中的神经认知问题有关。
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