Activation of medial septum cholinergic neurons restores cognitive function in temporal lobe epilepsy

Cognitive impairment is the most common complication in patients with temporal lobe epilepsy with hippocampal scle rosis.There is no effective treatment for cognitive impairment.Medial septum cholinergic neurons have been reported to be a potential target for controlling epileptic seizures in tempo ral lobe epile psy.However,their role in the cognitive impairment of temporal lobe epilepsy remains unclear.In this study,we found that patients with temporal lobe epile psy with hippocampal sclerosis had a low memory quotient and severe impairment in verbal memory,but had no impairment in nonverbal memory.The cognitive impairment was slightly correlated with reduced medial septum volume and medial septum-hippocampus tra cts measured by diffusion tensor imaging.In a mouse model of chronic temporal lobe epilepsy induced by kainic acid,the number of medial septum choline rgic neurons was reduced and acetylcholine release was reduced in the hippocampus.Furthermore,selective apoptosis of medial septum cholinergic neurons mimicked the cognitive deficits in epileptic mice,and activation of medial septum cholinergic neurons enhanced hippocampal acetylcholine release and restored cognitive function in both kainic acid-and kindling-induced epile psy models.These res ults suggest that activation of medial septum cholinergic neurons reduces cognitive deficits in temporal lobe epilepsy by increasing acetylcholine release via projections to the hippocampus.

DIAGNOSTIC VALUE OF INTERICTAL DIFFUSION-WEIGHTED IMAGING IN EVALUATION OF INTRACTABLE TEMPORAL LOBE EPILEPSY

Objective To explore the ability of interictal diffusion-weighted imaging(DWI)to localize the temporal lobe of seizure origin and to predict postoperative seizure control in patients with temporal lobe epilepsy(TLE).Methods Twenty-seven patients with intractable TLE considered for surgery and 19 healthy volunteers were studied with conventional magnetic resonance imaging(MRI)and DWI.Apparent diffusion coefficients(ADCs)of bilateral hippocampi in both TLE patients and control subjects were obtained.Lateralization to either temporal lobe with hippocampal ADC was based on the threshold values derived from ±1SD of right/left ratios in normal subjects.And the postoperative pathology was reviewed.Results Hippocampal ADCs were higher on the side of surgery compared with those on the contralateral side as well as the ipsilateral side in control subjects [resected side(109.8±7.3)×10-5 cm2/s,contralateral side(91.7±4.7)×10-5 cm2/s,control subjects(81.6±5.2)×10-5 cm2/s,all P<0.01].Right/left hippocampal ADC ratio and conventional MRI lateralized to the operated temporal lobe in 21 of 27(77.8%)and in 18 of 27(66.7%)patients.Lateralization to the surgical side was not associated with postoperative seizure control with right/left hippocampal ADC ratio(P>0.05).Conclusions Conventional MRI is a sensitive method to detect hippocampal sclerosis.Accuracy of the right/left hippocampal ADC ratio for lateralizing to the side of surgery is very high,but it isn't a better predictor of surgical outcome.

METABOLIC ABNORMALITIES IN MESIAL TEMPORAL LOBE EPILEPSY PATIENTS DEPICTED BY PROTON MR SPECTROSCOPY USING A 3.0T MR SCANNER

Objective To evaluate metabolic abnormalities in patients with mesial temporal lobe epilepsy （MTLE） with proton magnetic resonance spectroscopy （MRS） using a 3.0T MR scanner. Methods Sixty-three patients （32 women and 31 men） with diagnosed MTLE underwent diagnostic MR imaging （MRI） and proton MRS using a 3.0T MR scanner. The clinical history and interictal epileptiform discharges （IEDs） were recorded. Sixteen healthy volunteers served as control. The results of proton MRS were compared with the findings of electroencephalogram and structural MRI findings. Results Twenty-seven of the 63 patients with MTLE showed unilateral hippocampal sclerosis, and 9 showed bilateral hippocampal sclerosis. The concentration ratio of N-acytelaspartate （NAA） / [ creatine （ Cr ） ＋ choline （Cho） ] in the hippocampal region of MTLE patients （0. 64±0. 07） was significantly lower than control （0. 80±0. 05, P = 0.023）. In the patients with unilateral hippocampal sclerosis, NAA/（Cr ＋ Cho） in the hippocampal region ipsilateral to the sclerotic hippocampus （0.56±0.06） was significantly lower than the ratio in the contralateral hippocampal region （0.69±0.07, P 〈 0. 001 ）. There was significant difference in hippocampal NAA/（ Cr ＋ Cho） between the refractory patients and the non-refractory patients （0. 64±0. 05 vs.0.71±0. 07, P =0. 04）. Forty-five patients were lateralized by IEDs, while 49 patients were lateralized by metabolite ratio. And lateralization determined by proton MRS and IEDs was concordant in 33 patients. Conclusions MRS as a noninvasive tool adds helpful metabolite information to routine MRI in evaluation of MTLE. The method is well established and should be a routine clinical application in the investigation of epilepsy.

FMRI contributions to addressing autobiographical memory impairment in temporal lobe pathology

Episodic autobiographical memory(AM) allows one, through the recollection of sensory-perceptual details, thoughts and feelings, to become aware of an event as belonging to one's own past as well as being able to project into one's future. Because AM provides a sense of self-continuity, contributes to the integrity of the self, and helps predicting future experiences, any deficit of AM may have debilitating consequences for everyday life functioning. Understanding AM failure and the underlying neural mechanisms has the potential to shed light on brain reorganization mechanisms and engagement of compensatory processes. Functional magnetic resonance imaging(fMRI) provides the most promising imaging method to tackle these issues. We reviewed evidence from the few studies that used fMRI to investigate the functionality of the residual tissue, the neural reorganization and compensatory mechanisms in patients with neurological conditions due to impaired medial temporal lobe. Overall, these studies highlight the importance of the left hippocampus, which when atrophied and not functional leads to AM deficits but its residual functionality may support relatively normal AM recollection. When damaged hippocampal tissue is not functional, other brain regions(e.g., the medial prefrontal cortex) may be involved to compensate impairment, but they appear generally ineffective to support detailed episodic recollection.

扩散MRI技术在颞叶癫痫中的应用进展

癫痫是一种由于大脑神经元异常放电造成短暂性功能障碍的慢性神经系统疾病,严重影响着患者的身心健康和生活质量。其中,颞叶癫痫(temporal lobe epilepsy, TLE)是成年人常见的药物难治性癫痫,因此对其进行及时的诊断和治疗尤为重要。扩散MRI(diffusion MRI, dMRI)技术可以利用水分子的扩散反映TLE患者大脑组织微观结构的变化,dMRI主要包括扩散加权成像(diffusion weighted imaging, DWI)以及在其基础上衍生的各种扩散技术,如扩散张量成像(diffusion tensor imagin,DTI)、扩散峰度成像(diffusion kurtosis imaging, DKI)、扩散频谱成像(diffusion spectrum imaging, DSI)以及神经突方向离散度和密度成像(neurite orientation dispersion and density imaging, NODDI)等。本文简要总结了各种dMRI技术在TLE中的临床应用进展,并对其未来的研究前景进行了展望,旨在了解dMRI技术在TLE中的应用现状,为TLE的诊疗及扩散技术在相关领域的研究提供一定参考。

MRI检查鼻咽癌放射性颞叶损伤的漏诊原因

目的:放射治疗是鼻咽癌的主要治疗方法,但容易发生放射性颞叶损伤(radiotherapy-induced temporal lobe injury,RTLI)。磁共振成像(magnetic resonance imaging,MRI)检查是鼻咽癌放射治疗后RTLI的主要诊断方法,但容易漏诊。本研究旨在探讨MRI检查鼻咽癌放射治疗后RTLI漏诊的原因。方法:回顾性分析2010年1月至2021年4月在中南大学湘雅医院诊断为鼻咽癌且接受放射治疗患者的临床和MRI资料。由2位放射科医生重新审阅患者放射治疗前、后所有头颈部(包括鼻咽部和颅脑)MRI资料,对首次发现颞叶晚迟发反应型放射性脑损伤的患者作出首次RTLI诊断。若首次诊断鼻咽癌RTLI患者的原始诊断未报告颞叶病变,则定义为漏诊。将首次诊断鼻咽癌RTLI患者分为漏诊组和非漏诊组。比较漏诊组与非漏诊组的一般临床资料和影像学资料,并进一步采用多因素Logistic回归分析MRI漏诊首次RTLI的独立危险因素。结果:共纳入符合要求的鼻咽癌放射治疗后首次诊断为RTLI的患者187例,原始诊断报告漏诊120例,未漏诊67例,首次诊断RTLI的准确率为35.8%,漏诊率为64.2%。漏诊组与未漏诊组在病灶大小、病灶是否仅在内侧颞叶、对侧颞叶有无病灶、有无白质高信号/囊变及出血、MRI检查部位以及有无水抑制反转恢复序列(fluid attenuated inversion recovery,FLAIR)序列方面的差异均有统计学意义(均P<0.05)。多因素Logistic回归分析显示:病灶≤25 mm、病灶无强化、病灶无囊变及出血、病灶仅在内侧颞叶和仅检查鼻咽部MRI是MRI漏诊首次RTLI的独立危险因素(均P<0.05)。结论:MRI首次诊断RTLI的漏诊主要与病灶的大小和部位、病灶的影像学特点及MRI检查部位相关。

基于Freesurfer自动分割技术评估不同类型颞叶癫痫患者大脑皮层厚度的改变

目的探讨Freesurfer自动分割技术评估成人颞叶癫痫(TLE)大脑皮层厚度的变化。资料与方法回顾性收集2021年1月—2023年9月宁夏医科大学总医院经临床表现和脑电图共同确诊的84例TLE,包括MRI阴性TLE 32例、左侧海马硬化30例、右侧海马硬化22例,招募50例健康志愿者作为对照组,均行轴位T1WI三维磁化强度预备梯度回波序列扫描。使用Freesurfer软件对T1WI图像行大脑皮层分割,比较不同类型TLE患者各皮层厚度的差异。结果MRI阴性TLE组与对照组比较有14个区域皮层厚度均减小,主要集中在双侧额叶和右侧顶叶,差异有统计学意义(P均<0.05);左侧海马硬化组与对照组比较有34个区域皮层厚度均减小,主要集中在双侧额叶、颞叶及顶叶,差异有统计学意义(P均<0.05);右侧海马硬化组与对照组比较有27个区域皮层厚度均减小,主要集中在双侧额叶、顶叶及右侧颞叶,差异有统计学意义(P均<0.05)。结论自动分割技术可评价不同类型TLE患者大脑不同皮层区域厚度的变化,有助于临床进一步了解TLE的发展,为完善治疗方法或术前评估提供参考。

静息态功能连接特异性与机器学习的癫痫定侧

为探索癫痫发作侧的脑功能影像标记,提出静息态功能磁共振的功能连接特异性模型和有监督机器学习联合方案。选取20名结构影像提示发作侧的颞叶癫痫患者(均分左、右两组)和142名健康人;以健康人为参照,构建功能连接特异性模型,为每位患者每个脑区功能连接打分;统计分析左右组间打分值差异显著性,获得对发作侧敏感的标志性脑区;以其打分值为特征向量输入到概率神经网络实现定侧并使用交叉验证。结果显示,对发作侧敏感的功能影像学标记在杏仁核、中央旁小叶等6个脑区,分类准确率达90.0%,高于目前机器学习辅助癫痫研究水准。

3.0T MRI在儿童癫痫疾病的临床应用价值

目的探讨GE 3.0T SIGNAArchitect多模态MRI技术在儿童癫痫疾病中的临床应用价值。方法回顾性分析广西壮族自治区妇幼保健院2021年6月~2024年4月临床诊断癫痫疾病0~12岁的MRI检查患者110例,男58例,女52例,年龄6.15±0.66岁。根据不同的检查设备将患者分为两组:A组(Philips 1.5T Achieva,n=55)采用矢位T2WI,轴位T1WI、T2WI、T2 FLAIR及DWI序列观察灰白质结构、脑回脑沟发育、颞叶海马结构大小体积及颅脑信号等;B组(GE 3.0T SIGNAArchitect,n=55)采用轴位全脑BRAVO T1等体素薄层扫描序列,轴位CUBE T2 FLAIR等体素薄层扫描序列,轴T2WI扫描双侧海马,矢位T2WI,轴位MUSE DWI、ASL、DTI序列及MRS单体素或多体素,观察灰白质结构、脑回脑沟发育、颞叶海马结构大小体积及颅脑信号、ASL灌注情况、DTI神经纤维素及FA值增减、MRS代谢产物谱线增减等。结果A组海马硬化/缩小5例(9.1%),皮层发育不良6例(10.9%),自身免疫性脑炎6例(10.9%),巨脑回畸形3例(5.5%);B组海马硬化/缩小15例(27.3%),皮层发育不良16例(29.1%),自身免疫性脑炎14例(25.5%),巨脑回畸形10例(18.2%),ASL异常灌注23例(41.8%),波普代谢异常9例(16.4%);扩散张量成像异常减少5例(9.1%);A组和B组头颅癫痫在海马硬化/缩小、皮层发育不良、自身免疫性脑炎、巨脑回畸形、ASL灌注、MRS、DTI的诊断差异均有统计学意义(P<0.05)。结论3.0T多模态MRI扫描技术对癫痫患者颅脑形态及功能具有更全面和精确的影像评价。

自动分割技术联合神经突方向离散度及密度成像观察海马硬化型内侧颞叶癫痫患者海马亚区体积与微结构改变

目的观察自动分割技术联合神经突方向离散度和密度成像(NODDI)显示海马硬化型内侧颞叶癫痫(mTLE-HS)患者海马亚区体积与微结构改变的价值。方法回顾性分析33例左侧mTLE-HS患者(mTLE-HS组)及35名健康成人(对照组)的头颅MRI,以FreeSurfer软件自动分割海马亚区,测量阿蒙角(CA)1、CA2~3、CA4、颗粒细胞-齿状回(GC-DG)及下托体积,经后处理获取各亚区NODDI参数;比较组内及组间海马各亚区体积及NODDI参数,分析其间差异有统计学意义者与发病年龄及病程的相关性。结果mTLE-HS组左侧海马各亚区体积均低于对照组(P均<0.05)。mTLE-HS组左侧CA1及CA4亚区神经突密度指数(NDI)低于、而CA1亚区各向同性体积分数(fiso)均高于右侧(P均<0.05)。mTLE-HS组左侧CA1、CA2~3及CA4亚区ODI,CA1、CA4及GC-DG亚区NDI均低于对照组(P均<0.05),而左侧CA1、GC-DG及下托亚区fiso均高于对照组(P均<0.05)。mTLE-HS左侧海马各亚区体积均与发病年龄呈中度正相关(r=0.540~0.667,P均<0.001)而与病程呈低度负相关(r=-0.492~-0.386,P均<0.05);左侧海马CA4及GC-DG亚区NDI均与病程呈低度负相关(r=-0.418、-0.388,P均<0.05)。结论自动分割技术联合NODDI可显示mTLE-HS患者海马体积及微结构改变;NDI可能是评估mTLE-HS的较敏感的神经元进行性损伤生物学标志物。

自动分割海马亚区感兴趣区与3D-pCASL融合测量脑血流量一致性及可重复性

目的评价颞叶内侧癫痫伴海马硬化患者MRI影像研究中自动分割海马亚区感兴趣区(ROI)与动脉自旋标记(ASL)功能像融合测量脑血流量(CBF)的一致性及可重复性。资料与方法回顾性收集2021年1月—2022年10月宁夏医科大学总医院经MRI诊断或病理证实为海马硬化的52例颞叶内侧癫痫,患者均在3.0T MRI上采用轴位T1加权三维磁化强度预备梯度回波(3D-T1WI-MPRAGE)序列及三维伪连续式ASL序列进行扫描。对3D-T1WI-MPRAGE图像进行自动分割海马亚区,由2名医师进行海马亚区ROI与ASL功能图像融合并测量CBF值,分析测量者内、测量者间的一致性与可重复性。结果2名医师测得CBF值ICC均>0.750,平均为0.868±0.095,左、右侧海马各亚区ICC分别为:下托:0.818/0.801、海马角(CA)1:0.920/0.907、CA2~3:0.759/0.978、CA4:0.757/0.758、齿状回:0.990/0.991;同一名医师ROI勾画的ICC均>0.990,平均为0.994±0.002,左、右侧海马各亚区ICC分别为:下托:0.993/0.993、CA1:0.996/0.995、CA2~3:0.989/0.994、CA4:0.992/0.995、齿状回:0.993/0.996。BlandAltman图可直观展示散点分布和一致性,获取重复性系数。同一观察者对自动分割ROI与ASL功能像融合测量具有一定可重复性。结论基于自动分割海马亚区ROI与ASL功能像融合测量的CBF值具备较高的一致性及可重复性。

颞叶癫痫伴执行功能障碍静息态功能磁共振研究

利用功能磁共振观察颞叶癫痫伴执行功能障碍患者丘脑—背外侧前额叶通路功能连接(functional connectivity,FC)特征。方法回顾性分析32例颞叶癫痫患者,对比颞叶癫痫执行功能正常者、执行功能损害者与健康对照组三组间丘脑—背外侧前额叶间FC及海马体积的差异,并观察这些存在显著差异的参数与威斯康星卡片分类测试(wisconsin Card Sorting Test,WCST)的相关性。结果颞叶癫痫伴执行功能障碍患者表现为致痫灶侧丘脑—背外侧前额叶间FC破坏,且与WCST评分呈显著负相关。海马体积与WCST评分无显著相关性。结论丘脑—背外侧前额叶连接通路或许是与衡量颞叶癫痫患者执行功能的一个重要特征。

磁共振薄层扫描结合人工智能脑结构分割技术分析海马体积辅助诊断脑小血管病认知功能障碍

目的分析磁共振薄层扫描结合人工智能脑结构分割技术分析海马体积辅助诊断脑小血管病认知功能障碍的应用价值。方法选择确诊为脑小血管病患者84例,入院采用简易智力状态检查量表(MMSE)分为认知功能障碍组39例和正常组45例。采用1.43T磁共振薄层扫描结合人工智能脑结构分割技术分析内侧颞叶区和海马的体积绝对值及百分比。结果认知功能障碍组年龄大于正常组(t=8.63,P<0.05),内侧颞叶区和海马的体积绝对值及百分比明显低于正常组(t分别=5.86、5.00、6.03、9.63,P均<0.05),而内侧颞叶萎缩视觉(MTA)评分明显高于正常组(t=-4.75,P<0.05)。相关性分析显示,内侧颞叶区和海马的体积绝对值及百分比与MTA评分呈负相关(r分别=-0.46、-0.50、-0.60、-0.63,P均<0.05),与MMSE评分呈正相关(r分别=0.41、0.49、0.57、0.60,P均<0.05)。受试者工作特征曲线(ROC)显示,海马体积百分比预测认知功能障碍的曲线下面积为0.88,95%CI 0.82~0.90,最佳临界值为0.31%,即海马体积百分比<0.31%诊断认知功能障碍的灵敏度为80.53%,特异度为85.62%。结论磁共振薄层扫描结合人工智能脑结构分割技术能够精准定位脑功能亚区,通过准确测量海马体积能够辅助诊断脑小血管病的认知功能障碍,海马体积百分比<0.31%有较好的诊断性能。

Machine learning for detecting mesial temporal lobe epilepsy by structural and functional neuroimaging

Mesial temporal lobe epilepsy(mTLE),the most common type of focal epilepsy,is associated with functional and structural brain alterations.Machine learning(ML)techniques have been successfully used in discriminating mTLE from healthy controls.However,either functional or structural neuroimaging data are mostly used separately as input,and the opportunity to combine both has not been exploited yet.We conducted a multimodal ML study based on functional and structural neuroimaging measures.We enrolled 37 patients with left mTLE,37 patients with right mTLE,and 74 healthy controls and trained a support vector ML model to distinguish them by using each measure and the combinations of the measures.For each single measure,we obtained a mean accuracy of 74%and 69%for discriminating left mTLE and right mTLE from controls,respectively,and 64%when all patients were combined.We achieved an accuracy of 78%by integrating functional data and 79%by integrating structural data for left mTLE,and the highest accuracy of 84%was obtained when all functional and structural measures were combined.These findings suggest that combining multimodal measures within a single model is a promising direction for improving the classification of individual patients with mTLE.

颞叶癫痫伴认知障碍患者内侧颞叶磁共振体素分析及扩散峰度成像研究

目的采用磁共振扩散峰度成像(diffusion kurtosis imaging,DKI)技术及基于体素的形态学方法(voxel-based morphometry,VBM)分析技术探讨颞叶癫痫(temporal lobe epilepsy,TLE)患者伴或不伴认知功能障碍的脑宏观结构与微观结构的改变。材料与方法回顾性分析2018年1月至2022年3月在昆明医科大学附属延安医院神经内科就诊的TLE患者80例,其中伴认知功能障碍者40例,不伴有认知障碍者40例,同时招募40名性别、年龄及受教育年限相匹配的健康组。采用蒙特利尔认知评估量表北京版进行认知功能评估,评估低于26分为有认知障碍。使用3.0 T超导磁共振扫描仪采集TLE患者组和健康组的DKI、VBM数据并分析、计算、统计各参数。结果80例TLE患者脑电图见左或者右颞区多个异常波段,包括尖-慢、棘-慢复合波。VBM结果显示,TLE伴认知障碍组与健康组相比左侧海马、双侧舌回、左侧丘脑、扣带回及楔叶灰质体积减小;TLE伴认知障碍组与TLE不伴认知障碍组相比,左侧海马灰质体积减小;TLE不伴认知障碍组与健康组对比,脑灰质体积未见差异。DKI结果显示平均峰度(mean kurtosis,MK)在各组间的差异有统计学意义(P<0.001),健康组、TLE不伴认知障碍组、TLE伴认知障碍组的MK值、各向异性分数(fractional anisotropy,FA)值呈下降趋势,通过两两比较可知,MK、FA值在各组之间差异有统计学意义。结论通过VBM及DKI分析结果可以判断TLE伴认知障碍和TLE不伴认知障碍的脑结构改变,TLE患者脑实质微观损伤早于灰质体积的减小,对临床治疗方案制订以及预后评估有一定的临床价值。

深度学习重建法提高磁共振高分辨海马冠状位图像质量的比较研究

目的 探讨深度学习重建(deep learning reconstruction,DLR)在提高高分辨率T2液体衰减反转恢复(fluid-attenuated inversion-recovery,FLAIR)序列海马冠状位MRI图像质量中的作用。材料与方法前瞻性纳入36例神经系统疾病患者,进行高分辨率海马T2-FLAIR冠状位扫描,并对图像进行DLR,对原始重建(origin reconstruction,OR)图像和DLR图像的噪声、伪影、海马结构辨识度、病灶可识别度和诊断接受度进行主观评价,测量并计算两组图像的信噪比、对比噪声比和双侧海马信号强度差值。结果DLR的T2-FLAIR海马冠状位图像噪声、海马结构辨识度、病灶可识别度和诊断接受评分均高于OR T2-FLAIR海马冠状位(P<0.001),伪影评分差异无统计学意义(Z=-1.730;P=0.084);DLR T2-FLAIR海马冠状位图像的信噪比和对比噪声比均明显高于OR T2-FLAIR海马冠状位(t=-13.061;P<0.001和t=-16.224;P<0.001);两组图像双侧海马信号差值差异无统计学意义(t=-0.290;P=0.977)。结论 DLR不延长扫描时间就可以明显提高高分辨T2-FLAIR海马冠状位图像的海马结构和小病灶的清晰度,降低噪声,为临床诊断提供高质量图像。

单侧颞叶内侧癫痫伴海马硬化患者脑内在活动改变

目的观察颞叶内侧癫痫(mTLE)伴海马硬化患者脑内在活动(IBA)改变。方法纳入38例单侧mTLE伴海马硬化患者(mTLE组)和53名健康志愿者[健康对照(HC)组],比较组间IBA静态指标,包括低频振幅(ALFF)、比率ALFF(fALFF)、局部一致性(ReHo)、度中心性(DC)、全局信号相关性(GSCorr)和体素镜像同伦连接(VMHC)及其对应动态指标dALFF、dfALFF、dReHo、dDC、dGSCorr及dVMHC,分析其与癫痫持续时间和认知评估量表的相关性。结果相比HC组,mTLE组双侧丘脑、内侧颞叶、基底核、脑桥及小脑ALFF、dALFF和fALFF值,右侧扣带回及补充运动区fALFF值,右侧内侧颞叶、梭状回及基底核dfALFF值,脑桥、双侧丘脑、双侧尾状核及左侧内侧颞叶ReHo值均升高;左侧颞叶新皮质和额叶fALFF值和dfALFF值,双侧颞叶新皮质ReHo值和DC值,左侧颞叶新皮质dReHo和GSCorr值,双侧颞叶新皮质、小脑及内侧颞叶VMHC值,双侧枕叶、楔叶及补充运动区dVMHC值均降低。mTLE组形状连线测试A耗时与左侧丘脑ALFF值、左侧海马fALFF值、脑桥ReHo值均呈正相关(r=0.577、0.707、0.489,P均<0.05);形状连线测试B耗时与左侧苍白球dfALFF值、脑桥ReHo值均呈正相关(r=0.701、0.664,P均<0.05),与小脑VMHC值呈负相关(r=-0.472,P=0.048)。结论单侧mTLE伴海马硬化患者多个脑区IBA动静态指标异常,主要包括颞叶癫痫网络相关脑区、颞叶新皮质区、枕叶及小脑等。

基于海马亚区放射组学特征的颞叶癫痫分类

研究海马亚区的放射组学特征是否可以作为诊断颞叶癫痫(temporal lobe epilepsy,TLE)患者的生物学标志物,并探索某些放射组学特征在分类中的重要性.实验纳入23例TLE患者和30例健康对照(healthy controls,HCs),对所有受试者进行结构磁共振成像(structural magnetic resonance imaging,sMRI)扫描,利用Freesurfer 7.2软件自动分割出海马亚区,3D slicer软件提取出每个亚区的放射组学特征,经过特征选择后采用支持向量机(support vector machine,SVM)对TLE组和HCs组进行分类.左侧海马体部齿状回颗粒细胞层(GC_ML_DG-body)的分类准确度最高,为79.25%;右侧海马头部的分子层(Molecular_layer_HP-head)的分类准确度最高,为79.25%.影响分类结果的重要特征中,二阶特征居多,其次是一阶特征和形状特征.海马亚区的放射组学特征有望作为生物学标志物识别颞叶癫痫,其中二阶特征是用于颞叶癫痫分类的重要特征.

颞叶内侧癫痫并抑郁病人脑功能连接密度的静息态功能磁共振成像研究

目的探讨颞叶内侧癫痫伴抑郁(MTLEWD)病人在静息态功能磁共振成像(rs-fMRI)中功能活动异常的脑区的特点。方法纳入2021年1—12月在海南医学院第一附属医院神经内科门诊符合国际抗癫痫联盟(ILAE)诊断分类标准的颞叶内侧癫痫病人,根据HAMD评分将病人分为MTLEWD组和颞叶内侧癫痫不伴抑郁组(MTLE组),同时纳入与病人性别、年龄相匹配的对照组。使用GE Discovery MR7503.0T设备根据预先设定参数行磁共振扫描,获取静息态功能磁共振数据。采用SPSS 22.0统计分析软件对一般人口学资料进行分析。基于MATLAB 2018平台采用DPABI软件对磁共振数据进行预处理,使用功能连接密度(FCD)分析指标对三组被试者行ANOVA分析差异有统计学意义的脑区,然后行组间两样本的t检验,根据高斯随机场(GRF)理论满足体素显著性<0.001、连续体素数量≥23,团块显著性<0.05的区域被认为差异有统计学意义。结果共纳入MTLE组病人20例,MTLEWD组病人21例,对照组25例,三组病人一般资料(年龄、性别)差异无统计学意义(P>0.05)。三组的FCD值差异的脑区主要在楔前叶、颞中回、颞下回、左侧小脑cruse1区、左侧小脑cruse2区、左侧小脑7b区、左侧小脑8区、额中回、左侧颞极(颞上回)、颞极(颞中回)等脑区。结论MTLEWD病人活动异常脑区主要集中在默认网络相关脑区及小脑,上述脑区功能紊乱与病人的抑郁症状相关;使用Rs-fMRI分析方法能够客观地对病人进行功能评价。

SyMRI定量技术在海马硬化型颞叶内侧癫痫中的应用

目的探讨集成磁共振成像(SyMRI)技术在颞叶内侧癫痫伴海马硬化(HS)中各亚区的定量研究价值。资料与方法前瞻性纳入2021年1月—2023年1月宁夏医科大学总医院经MRI诊断或病理证实为单侧HS的患者(病例组)28例,并纳入同期健康志愿者(对照组)38例。两组对象均于3.0T MRI行T1加权等体素三维磁化强度预备梯度回波序列及集成MRI序列扫描。扫描图像分别经freesurfer V7、SyMRI StandAlone 8.0.4后处理得到海马及其亚区的感兴趣区及T1、T2、质子密度(PD)定量图,二者融合得到T1、T2、PD值。比较HS患侧组、健侧组及对照组各项参数值并进行多重比较。对组间差异有统计学意义的参数采用逐步回归分析筛选出显著性变量,并采用受试者工作特征曲线下面积评价其诊断效能。结果3组间下托(SUB)的T1和PD值差异无统计学意义(F=1.819、0.570,P均>0.05),其余亚区各参数差异均有统计学意义(F/H=5.539~71.570,P均<0.05)。组间两两比较显示,患侧组CA1、CA3、CA4、齿状回的T2、T1值均高于健侧组及对照组,PD值高于对照组,患侧组SUB的T2值高于对照组,患侧组CA3的PD值高于健侧组(P均<0.05)。逐步回归法显示CA1、CA3、SUB的T2值为显著性变量(模型调整后R2=0.828,F=105.089,P<0.001,方差扩大因子=2.693、2.113、1.721)。CA1、CA3区T2值的曲线下面积最大,均为0.972,截断值、敏感度、特异度分别为101.42 ms、92.86%、100%,95.56 ms、92.86%、92.11%。结论SyMRI对颞叶内侧癫痫伴HS海马亚区组织弛豫时间的定量测量可为临床提供更加精准的影像学参考依据,尤其是CA1、CA3区T2值可有效提高HS的诊断效能。