带状疱疹后神经痛患者杏仁核的功能连接改变研究（英文）

带状疱疹后神经痛(postherpetic neuralgia,PHN)是一种常见的神经病理性疼痛,但其中枢机制尚不明了.杏仁核在疼痛反应中的作用近年来受到关注.本研究的目的在于通过功能磁共振成像,研究带状疱疹后神经痛患者杏仁核各个亚区功能连接(functional connectivity,FC)的改变,探索慢性神经病理性疼痛的中枢机制.8位带状疱疹后神经痛患者和8位健康者进行了普通核磁共振和静息态功能磁共振扫描.将杏仁核各个亚区分别进行的功能连接分析,并将功能连接和被试者的病程、视觉模拟评分(visual analog scale,VAS)进行了相关分析.与健康志愿者相比,PHN患者杏仁核的基底外侧部(laterobasal groups,LB)和皮质部(superficial groups,SF)与多个脑区的FC表现出增强,主要位于颞叶和额叶.同时SF与多个区域的FC出现减低,主要位于额叶和顶叶.颞叶和额叶部分区域与LB的FC强度、与病程长短和VAS评分表现出关联性.研究结果提示,PHN患者杏仁核功能连接的改变提示了在慢性神经病理性疼痛的产生和发展中,杏仁核以及多个涉及情绪、认知、注意的脑区发挥了重要作用.     

带状疱疹后遗神经痛患者脑基础活动改变的功能核磁共振研究

带状疱疹后遗神经痛(postherpetic neuralgia,PHN)是临床上一种慢性顽固性神经病理性疼痛,然而,对于其潜在的中枢机制还知之甚少.为了进一步探讨带状疱疹后遗神经痛患者的相关脑区活动,利用功能核磁共振成像低频振幅振荡(ALFF)技术观察带状疱疹后遗神经痛患者的基础脑区活动.8名带状疱疹后遗神经痛患者与8名性别、年龄相匹配的健康者行静息态功能磁共振(f MRI)成像扫描,用SPM8中的多重回归分析,在控制被试年龄、性别、教育年限的影响下,将每个体素的ALFF值同每个被试的病程、视觉模拟评分(visual analog scale,VAS)进行相关分析.与健康志愿者相比,PHN组与VAS评分相关的ALFF值增高的脑区有:右侧小脑后叶、前额叶背外侧区域(BA11/46/47)、右侧顶叶(BA40)、右侧舌回(BA17/18/19);与VAS评分相关的ALFF值降低的脑区有:右侧颞中回(BA21)、左侧舌回(BA17/18)、右侧小脑前叶、左侧后扣带回(BA30/19)和右侧中央前回(BA3/4/6);PHN组与病程相关的ALFF值增高的脑区有:右侧小脑后叶、前额叶背外侧区域(BA9/10/11/47)、左侧颞上回(BA38)、右侧顶叶和右侧舌回(BA17/18/19);与病程相关ALFF值降低的脑区有:左侧海马旁回(BA28)、右侧小脑前叶、左侧扣带回(BA24)、右侧颞上回(BA13)、左侧中央前回和右侧顶下小叶(BA39/40).研究结果提示,涉及疼痛的情绪、警觉行为、注意的脑区在带状疱疹后遗痛慢性疼痛的产生和维持中发挥重要作用.     

带状疱疹后神经痛的射频治疗

带状疱疹后神经痛(postherpetic neuralgia,PHN)是带状疱疹的严重并发症,发病机制复杂,是一种难治性、顽固性的神经病理性疼痛,常见于老年患者或免疫功能低下的患者,严重影响日常生活。带状疱疹后神经痛的治疗方法包括药物治疗、神经刺激法、射频疗法以及神经阻滞法等。其中,射频疗法作为一项临床较为常用的治疗手段,已在各种慢性疼痛的治疗上取得了有效应用。本文将综合国内外近期的相关研究,对射频的机制、射频的分类、射频治疗PHN的疗效和治疗靶点的选择进行总结。     

带状疱疹后遗神经痛的动物模型及病理机制研究

带状疱疹后遗神经痛(postherpetic neuralgia,PHN)是带状疱疹最常见的并发症,其发生率随年龄的增加而增加,并且严重影响患者的生活质量。目前PHN的治疗多采用复合用药,但效果不佳。阻碍其治疗发展的关键是对PHN的发病机制不甚清楚,究其根本原因是缺乏与临床符合的动物模型。目的:综述带状疱疹病毒感染模型的改良和进展,使PHN的病理机制得到进一步揭示。内容:介绍与PHN相关的水痘-带状疱疹病毒潜伏感染模型、体外模型及慢性感染模型,综述与PHN发生发展有关的潜伏机制、与其他神经病理性痛相似的机制及近年来较为关注的中枢与外周损伤机制。趋向:进一步研究与人类水痘带状疱疹病毒感染更为相似的动物模型,并随其改良和进展,使发生PHN的机制得到进一步的阐释。     

颞叶癫痫脑“默认模式”的fMRI研究

功能磁共振成像(functional magnetic resonance imaging,fMRI)被用于检测静息时脑功能神经网络.作者运用静息fMRI检测海马硬化颞叶癫痫(temporal lobe epilepsy,TLE)脑"默认模式",采用感兴趣区域功能连接分析检测16例TLE患者和16名正常对照静息时脑的"默认模式",并进行组内和组间分析.研究发现,与正常对照相比,TLE静息时海马、颞极、额叶、颞叶、壳核及楔前叶等脑区与后扣带回的功能连接增强.研究结果表明TLE患者的固有脑功能组织模式有可能出现紊乱.这一研究将有助于从脑功能的角度了解癫痫患者某些临床症状的发病机理,为今后癫痫诊治的发展提供一定的帮助.     

带状疱疹并发神经痛患者危险因素的相关研究

目的:探讨带状疱疹患者并发神经痛患者的相关危险因素.方法:采用回顾性分析的方法,对我院100例合并带状疱疹后神经痛(PHN)患者年龄、性别、患病后初诊日、急性期发作频度、急性期疼痛程度、疱疹部位、疼痛的性质等进行统计,并进行多因素Logistic相关分析.结果:不同年龄、性别、及疼痛评分间PHN患病率间差异有统计学意义(P＜0.05或P＜0.01).而患病后初诊日及急性期发作频度、不同疱疹部位的PHN患病率、不同疼痛性质的PHN患病率差异无统计学意义(P＞0.05).Logistic相关分析显示,年龄、性别、不同疼痛程度与PHN患病率存在一定的相关性,相关P值分别为0.003、0.002、0.005,均P＜0.01.结论:年龄、性别、不同疼痛程度可影响PHN的发生.针对急性期PHN患者,应早发现,早治疗,提高患者生活质量.     

臂丛神经撕脱伤后慢性疼痛患者脑区葡萄糖代谢的研究

臂丛神经撕脱伤后慢性疼痛是一种临床上顽固性神经病理性疼痛.然而,对于其潜在的中枢机制还知之甚少.为了进一步探讨臂丛神经撕脱伤后慢性疼痛的相关脑区活动,利用18F-脱氧葡萄糖(FDG)正电子断层扫描(PET)技术观察臂丛神经撕脱后慢性疼痛患者的脑葡萄糖代谢.选择左侧臂丛神经撕脱伤后慢性疼痛行脊髓后根入髓区(DREZ)切开术后疼痛减轻>75%的患者,共5例,分别在术前和术后14天行PET扫描采集数据,同时行视觉模拟评分(VAS),汉密尔顿(Hamilton)抑郁和焦虑评分.用统计参数图(SPM2)软件分析数据.与术前疼痛状态下相比,术后葡萄糖代谢明显减低的脑区有双侧尾状核,眶额回(OFC)(BA11),对侧扣带下回(BA25)和同侧前额叶背外侧区域(DLPFC)(BA46/47).葡萄糖代谢明显增高的脑区有对侧丘脑,枕核和同侧项叶(BA7).研究结果提示,涉及情绪、注意和疼痛内在调节的脑区在臂丛神经撕脱伤后慢性疼痛的调制中发挥重要作用.     

A型肉毒素治疗带状疱疹后遗神经痛的临床观察

目的:观察A型肉毒素皮内注射治疗带状疱疹后遗神经痛(Postherpetic Neuralgia,PHN)的临床效果。方法:选择76例胸背部带状疱疹后神经痛患者,采用乒乓球抽签法随机分为观察组与对照组,每组38例患者。在口服药物治疗的基础上,观察组与对照组的局部疼痛敏感点分别皮内注射A型肉毒素与生理盐水。比较两组治疗前与治疗后第1、7、30、60天的视觉模拟评分量表(Visual Analogue Scale,VAS)及睡眠质量评分量表(Quality of Sleep,QS)评分的变化。结果:两组患者治疗后第1、7、30、60天的VAS及QS评分均明显低于治疗前(P0.05),观察组患者治疗后第1、7、30、60天的VAS及QS评分结果明显低于对照组(P0.05)。两组均未见明显的治疗相关并发症。结论:A型肉毒素皮内注射疗法可以显著减轻PHN患者的疼痛及改善睡眠质量。     

慢性疼痛与皮层-边缘系统

慢性疼痛作为最常见的临床症状之一，已被认为是全球性的公共健康问题. 然而，目前急性疼痛转化为慢性疼痛（即疼痛慢性化）的机制尚不清楚，如何防治急性疼痛转化为慢性疼痛仍然是临床亟待解决的问题. 影像学研究表明，编码疼痛情绪、动机和记忆的脑区涉及皮层-边缘系统，而编码持续性疼痛的脑区也主要涉及该系统. 基于此，本文概述了慢性疼痛患者在情绪、动机和记忆等方面的行为异常，并详细讨论了慢性疼痛患者皮层-边缘系统的结构和功能变化. 其次，本文以慢性腰背痛为例，总结了可能预测疼痛慢性化的影像学指标，如内侧前额叶皮层与伏隔核以及海马的功能连接、背内侧前额叶皮层-杏仁核-伏隔核之间的功能连接均可预测1年后腰背痛疼痛慢性化的发展. 此外，基于现有的疼痛慢性化理论模型，本文指出疼痛慢性化可能涉及患者对负面情绪的强化学习以及奖赏和应激系统的功能失调. 最后，根据目前研究仍存在的问题和局限，本文对未来的研究方向和方法提出了建议.     

脊髓以上水平疼痛相关神经通路机制的研究进展

疼痛是一种多维度的情感体验,痛感觉和痛情绪是其最主要的两个组分。关于疼痛,以往研究只专注于痛觉传递通路的某个环节或某个关键脑区,缺乏行为个体脑区与脑区连接在整体状态下参与疼痛或调节疼痛的证据。新的实验工具和实验技术的诞生,为痛感觉和痛情绪的神经通路研究带来了曙光。本文综述了近年来脊髓水平以上的神经系统(包括丘脑、杏仁核、中脑导水管周围灰质、臂旁核和内侧前额叶皮层)参与形成痛感觉和调节痛情绪的神经通路结构和功能基础,为疼痛的深入研究提供线索。     

Response properties of human amygdala subregions: evidence based on functional MRI combined with probabilistic anatomical maps

The human amygdala is thought to play a pivotal role in the processing of emotionally significant sensory information. The major subdivisions of the human amygdala-the laterobasal group (LB), the superficial group (SF), and the centromedial group (CM)-have been anatomically delineated, but the functional response properties of these amygdala subregions in humans are still unclear. We combined functional MRI with cyto-architectonically defined probabilistic maps to analyze the response characteristics of amygdala subregions in subjects presented with auditory stimuli. We found positive auditory stimulation-related signal changes predominantly in probabilistically defined LB, and negative responses predominantly in SF and CM. In the left amygdala, mean response magnitude in the core area of LB with 90-100% assignment probability was significantly larger than in the core areas of SF and CM. These differences were observed for pleasant and unpleasant stimuli. Our findings reveal that the probabilistically defined anatomical subregions of the human amygdala show distinctive fMRI response patterns. The stronger auditory responses in LB as compared with SF and CM may reflect a predominance of auditory inputs to human LB, similar to many animal species in which the majority of sensory, including auditory, afferents project to this subdivision of the amygdala. Our study indicates that the intrinsic functional differentiation of the human amygdala may be probed using fMRI combined with probabilistic anatomical maps.     

Decreased Functional Connectivity of Homotopic Brain Regions in Chronic Stroke Patients: A Resting State fMRI Study

The recovery of motor functions is accompanied by brain reorganization, and identifying the inter-hemispheric interaction post stroke will conduce to more targeted treatments. However, the alterations of bi-hemispheric coordination pattern between homologous areas in the whole brain for chronic stroke patients were still unclear. The present study focuses on the functional connectivity (FC) of mirror regions of the whole brain to investigate the inter-hemispheric interaction using a new fMRI method named voxel-mirrored homotopic connectivity (VMHC). Thirty left subcortical chronic stroke patients with pure motor deficits and 37 well-matched healthy controls (HCs) underwent resting-state fMRI scans. We employed a VMHC analysis to determine the brain areas showed significant differences between groups in FC between homologous regions, and we explored the relationships between the mean VMHC of each survived area and clinical tests within patient group using Pearson correlation. In addition, the brain areas showed significant correlations between the mean VMHC and clinical tests were defined as the seed regions for whole brain FC analysis. Relative to HCs, patients group displayed lower VMHC in the precentral gyrus, postcentral gyrus, inferior frontal gyrus, middle temporal gyrus, calcarine gyrus, thalamus, cerebellum anterior lobe, and cerebellum posterior lobe (CPL). Moreover, the VMHC of CPL was positively correlated with the Fugl–Meyer Score of hand (FMA-H), while a negative correlation between illness duration and the VMHC of this region was also detected. Furthermore, we found that when compared with HCs, the right CPL exhibited reduced FC with the left precentral gyrus, inferior frontal gyrus, inferior parietal lobule, middle temporal gyrus, thalamus and hippocampus. Our results suggest that the functional coordination across hemispheres is impaired in chronic stroke patients, and increased VMHC of the CPL is significantly associated with higher FMA-H scores. These findings may be helpful in understanding the mechanism of hand deficit after stroke, and the CPL may serve as a target region for hand rehabilitation following stroke.     

Resting-State Functional Connectivity Bias of Middle Temporal Gyrus and Caudate with Altered Gray Matter Volume in Major Depression

Magnetic resonance imaging (MRI) studies have indicated that the structure deficits and resting-state functional connectivity (FC) imbalances in cortico-limbic circuitry might underline the pathophysiology of MDD. Using structure and functional MRI, our aim is to investigate gray matter abnormalities in patients with treatment-resistant depression (TRD) and treatment-responsive depression (TSD), and test whether the altered gray matter is associated with altered FC. Voxel-based morphometry was used to investigate the regions with gray matter abnormality and FC analysis was further conducted between each gray matter abnormal region and the remaining voxels in the brain. Using one-way analysis of variance, we found significant gray matter abnormalities in the right middle temporal cortex (MTG) and bilateral caudate among the TRD, TSD and healthy controls. For the FC of the right MTG, we found that both the patients with TRD and TSD showed altered connectivity mainly in the default-mode network (DMN). For the FC of the right caudate, both patient groups showed altered connectivity in the frontal regions. Our results revealed the gray matter reduction of right MTG and bilateral caudate, and disrupted functional connection to widely distributed circuitry in DMN and frontal regions, respectively. These results suggest that the abnormal DMN and reward circuit activity might be biomarkers of depression trait.     

Aβ(42) induced MRI changes in aged rabbit brain resembles AD brain

Alzheimer’s disease is the most common form of dementia and is structurally characterized by brain atrophy and loss of brain volume. Aβ is one of the widely accepted causative factors of AD. Aβ deposition is positively correlated with brain atrophy in AD. In the present study, structural brain imaging techniques such as Magnetic Resonance Imaging (MRI) were used to measure neuroanatomical alterations in Alzheimer’s disease brain. MRI is a non-invasive method to study brain structure. The objective of the present study was to elucidate the role of Aβ on brain structure in the aged rabbit brain. Among 20 aged rabbits, one batch (n = 10) rabbits was injected chronically with Aβ(1-42) and another batch (n = 10) with saline. The MRI was conducted before Aβ(1-42)/saline injection and after 45 days of Aβ(1-42)/saline injection. All the aged rabbits underwent MRI analysis and were euthanized after 45 days. The MRI results showed a significant reduction in thickness of frontal lobe, hippocampus, midbrain, temporal lobe and increases in the lateral ventricle volume. We also conducted an MRI study on AD (n = 10) and normal (n = 10) cases and analyzed for the thicknesses of frontal lobe, hippocampus, midbrain, temporal lobe and lateral ventricle lobe. We found significant reductions in thickness of the frontal lobe and the hippocampus. However, no significant reduction in the thickness of midbrain, temporal lobe or increase in the lateral ventricle volume was observed compared to normal. Correlations in brain atrophy changes between rabbit brain and human AD brain were found for frontal lobe and hippocampal regions. In contrast, other regions such as midbrain, temporal lobe, and lateral ventricles were not correlated with rabbit brain atrophy changes in the corresponding regions. The relevance of these changes in AD is discussed.     

Altered Resting State in Diabetic Neuropathic Pain

Background

The spontaneous component of neuropathic pain (NP) has not been explored sufficiently with neuroimaging techniques, given the difficulty to coax out the brain components that sustain background ongoing pain. Here, we address for the first time the correlates of this component in an fMRI study of a group of eight patients suffering from diabetic neuropathic pain and eight healthy control subjects. Specifically, we studied the functional connectivity that is associated with spontaneous neuropathic pain with spatial independent component analysis (sICA).

Principal Findings

Functional connectivity analyses revealed a cortical network consisting of two anti-correlated patterns: one includes the left fusiform gyrus, the left lingual gyrus, the left inferior temporal gyrus, the right inferior occipital gyrus, the dorsal anterior cingulate cortex bilaterally, the pre and postcentral gyrus bilaterally, in which its activity is correlated negatively with pain and positively with the controls; the other includes the left precuneus, dorsolateral prefrontal, frontopolar cortex (both bilaterally), right superior frontal gyrus, left inferior frontal gyrus, thalami, both insulae, inferior parietal lobuli, right mammillary body, and a small area in the left brainstem, in which its activity is correlated positively with pain and negatively with the controls. Furthermore, a power spectra analyses revealed group differences in the frequency bands wherein the sICA signal was decomposed: patients'' spectra are shifted towards higher frequencies.

Conclusion

In conclusion, we have characterized here for the first time a functional network of brain areas that mark the spontaneous component of NP. Pain is the result of aberrant default mode functional connectivity.     

Resting-State Connectivity of the Sustained Attention Network Correlates with Disease Duration in Idiopathic Generalized Epilepsy

Introduction

In idiopathic generalized epilepsy (IGE), a normal electroencephalogram between generalized spike and wave (GSW) discharges is believed to reflect normal brain function. However, some studies indicate that even excluding GSW-related errors, IGE patients perform poorly on sustained attention task, the deficit being worse as a function of disease duration. We hypothesized that at least in a subset of structures which are normally involved in sustained attention, resting-state functional connectivity (FC) is different in IGE patients compared to controls and that some of the changes are related to disease duration.

Method

Seeds were selected based on a sustained attention study in controls. Resting-state functional magnetic resonance imaging (fMRI) data was obtained from 14 IGE patients and 14 matched controls. After physiological noise removal, the mean time-series of each seed was used as a regressor in a general linear model to detect regions that showed correlation with the seed. In patients, duration factor was defined based on epilepsy duration. Between-group differences weighted by the duration factor were evaluated with mixed-effects model. Correlation was then evaluated in IGE patients between the FC, averaged over each significant cluster, and the duration factor.

Results

Eight of 18 seeds showed significant difference in FC across groups. However, only for seeds in the medial superior frontal and precentral gyri and in the medial prefrontal area, average FC taken over significant clusters showed high correlation with the duration factor. These 3 seeds showed changes in FC respectively with the premotor and superior frontal gyrus, the dorsal premotor, and the supplementary motor area plus precentral gyrus.

Conclusion

Alterations of FC in IGE patients are not limited to the frontal areas. However, as indicated by specificity analysis, patients with long history of disease show changes in FC mainly within the frontal areas.     

基于内在功能连接推定抑郁症脑网络效率的改变

本文研究了在保留最大化内在功能连接条件下抑郁症患者脑网络效率的改变,并探索了改变的拓扑效率和抑郁症病理学之间的关系.为此,我们收集了20例抑郁症患者和20例在年龄、性别和教育水平相匹配的健康被试的静息态功能磁共振图像数据.图论分析显示,与健康对照组比较,抑郁症患者的节点效率减少在左海马旁回、右杏仁核,左颞横回和左颞极(颞中回)减少.减少的节点效率表明,在抑郁症患者脑网络中这些区域传送信息到其他区域的能力减弱.此外,发现局部效率降低在左内侧额上回、左眶部额上回、右回直肌、左杏仁核、右顶上回、左丘脑和左颞极(颞中回).并且发现左内侧额上回、左杏仁核、左丘脑与PHQ-9得分呈负相关.降低的局部效率表明抑郁症患者脑网络中这些区域的局部网络信息传送能力受到抑制.这些结果进一步确认在抑郁症患者中涉及情感信息处理的前额-丘脑-边缘区域被破坏.我们的发现为抑郁症病人的辅助诊断提供了新的潜在生物学标记物.     

Abnormal cortical networks in mild cognitive impairment and Alzheimer's disease

Recently, many researchers have used graph theory to study the aberrant brain structures in Alzheimer's disease (AD) and have made great progress. However, the characteristics of the cortical network in Mild Cognitive Impairment (MCI) are still largely unexplored. In this study, the gray matter volumes obtained from magnetic resonance imaging (MRI) for all brain regions except the cerebellum were parcellated into 90 areas using the automated anatomical labeling (AAL) template to construct cortical networks for 98 normal controls (NCs), 113 MCIs and 91 ADs. The measurements of the network properties were calculated for each of the three groups respectively. We found that all three cortical networks exhibited small-world properties and those strong interhemispheric correlations existed between bilaterally homologous regions. Among the three cortical networks, we found the greatest clustering coefficient and the longest absolute path length in AD, which might indicate that the organization of the cortical network was the least optimal in AD. The small-world measures of the MCI network exhibited intermediate values. This finding is logical given that MCI is considered to be the transitional stage between normal aging and AD. Out of all the between-group differences in the clustering coefficient and absolute path length, only the differences between the AD and normal control groups were statistically significant. Compared with the normal controls, the MCI and AD groups retained their hub regions in the frontal lobe but showed a loss of hub regions in the temporal lobe. In addition, altered interregional correlations were detected in the parahippocampus gyrus, medial temporal lobe, cingulum, fusiform, medial frontal lobe, and orbital frontal gyrus in groups with MCI and AD. Similar to previous studies of functional connectivity, we also revealed increased interregional correlations within the local brain lobes and disrupted long distance interregional correlations in groups with MCI and AD.     

经颅磁刺激对癫痫病灶脑电相关维数的影响

利用脑功能指标——大鼠病灶区脑电的相关维数,研究低频经颅磁刺激对慢性颞叶癫痫大鼠脑功能改善的作用。对一组颞叶癫痫大鼠施予频率为0．5Hz、强度为0．4T、20次／日、连续一周的低频重复性经颅磁刺激(rTMS)．在rTMS前后,分别测取颞叶癫痫大鼠责任病灶区皮层和海马区的脑电,重构时间延迟吸引子,用G-P算法估算反映对应脑区功能状态的相关维数。研究结果显示：施予适量的rTMS(0.4T、20次／日、连续一周),使颞叶癫痫大鼠海马和相应皮层脑电的相关维数比刺激前明显升高。研究表明适量的rTMS有抑制癫痫的作用。