脑连接组作为颞叶切除术后癫痫发作结果的个性化生物标志物。
The brain connectome as a personalized biomarker of seizure outcomes after temporal lobectomy.
作者信息
Bonilha Leonardo, Jensen Jens H, Baker Nathaniel, Breedlove Jesse, Nesland Travis, Lin Jack J, Drane Daniel L, Saindane Amit M, Binder Jeffrey R, Kuzniecky Ruben I
机构信息
From the Departments of Neurology (L.B., J.H.J., J.B., T.N.), Radiology and Radiological Science (J.H.J.), and Public Health Sciences (N.B.), Medical University of South Carolina, Charleston; the Department of Neurology (J.J.L.), University of California Irvine; the Departments of Neurology and Pediatrics (D.L.D.) and Radiology (A.M.S.), Emory University, Atlanta, GA; the Department of Neurology (J.R.B.), Medical College of Wisconsin, Milwaukee; and the Comprehensive Epilepsy Center (R.I.K.), New York University, New York.
出版信息
Neurology. 2015 May 5;84(18):1846-53. doi: 10.1212/WNL.0000000000001548. Epub 2015 Apr 8.
OBJECTIVE
We examined whether individual neuronal architecture obtained from the brain connectome can be used to estimate the surgical success of anterior temporal lobectomy (ATL) in patients with temporal lobe epilepsy (TLE).
METHODS
We retrospectively studied 35 consecutive patients with TLE who underwent ATL. The structural brain connectome was reconstructed from all patients using presurgical diffusion MRI. Network links in patients were standardized as Z scores based on connectomes reconstructed from healthy controls. The topography of abnormalities in linkwise elements of the connectome was assessed on subnetworks linking ipsilateral temporal with extratemporal regions. Predictive models were constructed based on the individual prevalence of linkwise Z scores >2 and based on presurgical clinical data.
RESULTS
Patients were more likely to achieve postsurgical seizure freedom if they exhibited fewer abnormalities within a subnetwork composed of the ipsilateral hippocampus, amygdala, thalamus, superior frontal region, lateral temporal gyri, insula, orbitofrontal cortex, cingulate, and lateral occipital gyrus. Seizure-free surgical outcome was predicted by neural architecture alone with 90% specificity (83% accuracy), and by neural architecture combined with clinical data with 94% specificity (88% accuracy).
CONCLUSIONS
Individual variations in connectome topography, combined with presurgical clinical data, may be used as biomarkers to better estimate surgical outcomes in patients with TLE.
目的
我们研究了从脑连接组获得的个体神经元结构是否可用于估计颞叶癫痫(TLE)患者前颞叶切除术(ATL)的手术成功率。
方法
我们回顾性研究了35例连续接受ATL的TLE患者。使用术前扩散磁共振成像(MRI)从所有患者重建脑结构连接组。基于从健康对照重建的连接组,将患者的网络链接标准化为Z分数。在连接同侧颞叶与颞外区域的子网络上评估连接组逐链路元素异常的拓扑结构。基于逐链路Z分数>2的个体患病率和术前临床数据构建预测模型。
结果
如果患者在由同侧海马体、杏仁核、丘脑、额上区、颞外侧回、岛叶、眶额皮质、扣带回和枕外侧回组成的子网络内表现出较少的异常,则更有可能在术后实现无癫痫发作。仅通过神经结构预测无癫痫发作的手术结果,特异性为90%(准确率83%),通过神经结构结合临床数据预测,特异性为94%(准确率88%)。
结论
连接组拓扑结构的个体差异,结合术前临床数据,可用作生物标志物,以更好地估计TLE患者的手术结果。
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