颞叶癫痫的认知表型与白质网络异常的不同模式相关。
Cognitive phenotypes in temporal lobe epilepsy are associated with distinct patterns of white matter network abnormalities.
机构信息
From the San Diego State University/University of California San Diego Joint Doctoral Program in Clinical Psychology (A.R.); Center for Multimodal Imaging and Genetics (A.R., E.K., N.B., A.B., C.R.M.) and Department of Psychiatry (C.R.M.), University of California, San Diego; Department of Neurology (M.H., B.M.P.), University of California, San Francisco; UCSF Comprehensive Epilepsy Center (M.H., B.M.P.), San Francisco; Matthews Neuropsychology Section (B.H.), University of Wisconsin-Madison; and UCSD Comprehensive Epilepsy Center (C.R.M.), San Diego, CA.
出版信息
Neurology. 2019 Apr 23;92(17):e1957-e1968. doi: 10.1212/WNL.0000000000007370. Epub 2019 Mar 27.
OBJECTIVE
To identify distinct cognitive phenotypes in temporal lobe epilepsy (TLE) and evaluate patterns of white matter (WM) network alterations associated with each phenotype.
METHODS
Seventy patients with TLE were characterized into 4 distinct cognitive phenotypes based on patterns of impairment in language and verbal memory measures (language and memory impaired, memory impaired only, language impaired only, no impairment). Diffusion tensor imaging was obtained in all patients and in 46 healthy controls (HC). Fractional anisotropy (FA) and mean diffusivity (MD) of the WM directly beneath neocortex (i.e., superficial WM [SWM]) and of deep WM tracts associated with memory and language were calculated for each phenotype. Regional and network-based SWM analyses were performed across phenotypes.
RESULTS
The language and memory impaired group and the memory impaired group showed distinct patterns of microstructural abnormalities in SWM relative to HC. In addition, the language and memory impaired group showed widespread alterations in WM tracts and altered global SWM network topology. Patients with isolated language impairment exhibited poor network structure within perisylvian cortex, despite relatively intact global SWM network structure, whereas patients with no impairment appeared similar to HC across all measures.
CONCLUSIONS
These findings demonstrate a differential pattern of WM microstructural abnormalities across distinct cognitive phenotypes in TLE that can be appreciated at both the regional and network levels. These findings not only help to unravel the underlying neurobiology associated with cognitive impairment in TLE, but they could also aid in establishing cognitive taxonomies or in the prediction of cognitive course in TLE.
目的
在颞叶癫痫(TLE)中确定不同的认知表型,并评估与每种表型相关的白质(WM)网络改变模式。
方法
根据语言和言语记忆测量受损模式,将 70 例 TLE 患者分为 4 种不同的认知表型(语言和记忆受损、仅记忆受损、仅语言受损、无受损)。对所有患者和 46 名健康对照者(HC)进行了弥散张量成像(DTI)检查。计算了每个表型下的皮质下 WM(即浅层 WM [SWM])和与记忆及语言相关的深部 WM 束的各向异性分数(FA)和平均弥散度(MD)。对各表型进行了区域和基于网络的 SWM 分析。
结果
语言和记忆受损组和记忆受损组与 HC 相比,SWM 中存在明显的微观结构异常模式。此外,语言和记忆受损组表现出广泛的 WM 束改变和改变的全局 SWM 网络拓扑结构。孤立性语言障碍患者尽管具有相对完整的全局 SWM 网络结构,但在脑岛皮层内表现出较差的网络结构,而无损伤患者在所有测量指标上均与 HC 相似。
结论
这些发现表明,TLE 中不同认知表型存在不同的 WM 微观结构异常模式,在区域和网络水平上都可以观察到。这些发现不仅有助于揭示 TLE 认知障碍相关的潜在神经生物学机制,还可以帮助建立认知分类学或预测 TLE 的认知过程。
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