Mice selected for large and small brain weight: The preservation of trait differences after the selection was discontinued

The selection for large and small relative brain weight (RBW) in mice, started in 1999, resulted in stable significant differences in the trait (16%). The selection was discontinued at F22, and both lines (Large Brain, LB and Small brain, SB) were maintained by random mating. In F25-F28 the significant differences in RBW were still present in spite of the lack of selection. In F28 ethanol injections (2.4 mg/kg, 12% ethanol, i.p.) were performed to animals of both lines. The ethanol effects were more intense in SB, than in LB line. Mice were tested in elevated and closed plus-mazes and in slip-funnel tests. Control LB mice explored new environment more actively and were less affected by stressful environment than SBs. SB ethanol mice were less anxious in elevated plus maze, initiated closed maze exploration earlier, moved more vividly and demonstrated lower anxiety level in elevated plus maze than saline injected mice, while changes in these behaviors after ethanol were not so clear in LB mice, although their locomotion level increased.

Preliminary notes on brain weight variation across labrid fish species with different levels of cooperative behaviour

Brain size and weight vary tremendously in the animal kingdom. It has been suggested that brain structural develop- ment must evolve balanced between the advantages of dealing with greater social challenges mad the energetic costs of maintain- ing and developing larger brains. Here we ask if interspecific differences in cooperative behaviour （i.e. cleaning behaviour） are related to brain weight variations in four close-related species of Labrid fish： two are obligatory cleanerfish throughout their en- tire life （Labroides dimidiatus and L. bicolor）, one facultative cleaner fish Labropsis australis and one last species that never en- gage in cleaning Labrichthys unilineatus. We first search for the link between the rate of species＇ cooperation and its relative brain weight, and finally, if the degree of social complexity and cooperation are reflected in the weight of its major brain sub- structures. Overall, no differences were found in relative brain weight （in relation to body weight） across species. Fine-scale dif- ferences were solely demonstrated for the facultative cleaner L. australis, at the brainstem level. Furthermore, data visual exami- nation indicates that the average cerebellum and brainstem weights appear to be larger for L. dimidiatus. Because variation was solely found at specific brain areas （such as cerebellum and brainstem） and not for the whole brain weight values, it suggests that species social-ecological and cognitive demands may be directly contributing to a selective investment in relevant brain areas. This study provides first preliminary evidence that links potential differences in cognitive ability in cooperative behaviour to how these may mediate the evolution of brain structural development in non-mammal vertebrate groups .

Susceptibility weighted imaging: Clinical applications and future directions

Susceptibility weighted imaging(SWI) is a recently developed magnetic resonance imaging(MRI) technique that is increasingly being used to narrow the differential diagnosis of many neurologic disorders. It exploits the magnetic susceptibility differences of various compounds including deoxygenated blood, blood products, iron and calcium, thus enabling a new source of contrast in MR. In this review, we illustrate its basic clinical applications in neuroimaging. SWI is based on a fully velocity-compensated, high-resolution, three dimensional gradientecho sequence using magnitude and phase images either separately or in combination with each other, in order to characterize brain tissue. SWI is particularly useful in the setting of trauma and acute neurologic presentations suggestive of stroke, but can also characterize occult low-flow vascular malformations, cerebral microbleeds, intracranial calcifications, neurodegenerative diseases and brain tumors. Furthermore, advanced MRI post-processing technique with quantitative susceptibility mapping, enables detailed anatomical differentiation based on quantification of brain iron from SWI raw data.

Differences in pathological changes between two rat models of severe traumatic brain injury

The rat high-impact free weight drop model mimics the diffuse axonal injury caused by severe traumatic brain injury in humans,while severe controlled cortical impact can produce a severe traumatic brain injury model using precise strike parameters.In this study,we compare the pathological mechanisms and pathological changes between two rat severe brain injury models to identify the similarities and differences.The severe controlled cortical impact model was produced by an electronic controlled cortical impact device,while the severe free weight drop model was produced by dropping a 500 g free weight from a height of 1.8 m through a plastic tube.Body temperature and mortality were recorded,and neurological deficits were assessed with the modified neurological severity score.Brain edema and bloodbrain barrier damage were evaluated by assessing brain water content and Evans blue extravasation.In addition,a cytokine array kit was used to detect inflammatory cytokines.Neuronal apoptosis in the brain and brainstem was quantified by immunofluorescence staining.Both the severe controlled cortical impact and severe free weight drop models exhibited significant neurological impairments and body temperature fluctuations.More severe motor dysfunction was observed in the severe controlled cortical impact model,while more severe cognitive dysfunction was observed in the severe free weight drop model.Brain edema,inflammatory cytokine changes and cortical neuronal apoptosis were more substantial and blood-brain barrier damage was more focal in the severe controlled cortical impact group compared with the severe free weight drop group.The severe free weight drop model presented with more significant apoptosis in the brainstem and diffused blood-brain barrier damage,with higher mortality and lower repeatability compared with the severe controlled cortical impact group.Severe brainstem damage was not found in the severe controlled cortical impact model.These results indicate that the severe controlled cortical impact model is relatively more stable,more reproducible,and shows obvious cerebral pathological changes at an earlier stage.Therefore,the severe controlled cortical impact model is likely more suitable for studies on severe focal traumatic brain injury,while the severe free weight drop model may be more apt for studies on diffuse axonal injury.All experimental procedures were approved by the Ethics Committee of Animal Experiments of Tianjin Medical University,China(approval No.IRB2012-028-02)in Febru ary 2012.

对比增强SWI对不同病理类型肺癌脑转移瘤的诊断价值

目的:探讨对比增强磁敏感加权成像(CE-SWI)与常规对比增强T 1WI成像(CE-T 1WI)对不同病理类型肺癌脑转移瘤的检出率差异,分析脑转移瘤内出现对比剂诱导相移(CIPS)与原发性肺癌病理类型间的关联性。方法:搜集经病理证实的79例原发性肺癌患者,其中腺癌组40例,鳞癌组18例,小细胞癌组21例,均行颅脑MR常规平扫、SWI、CE-T 1WI及CE-SWI检查,比较CE-SWI与CE-T 1WI检出的脑转移瘤数目及转移瘤内是否存在CIPS,转移灶经3个月后随访证实。结果:CE-T 1WI与CE-SWI对腺癌脑转移瘤的检出率差异有统计学意义(χ^(2)=5.05,P=0.025),对鳞癌(χ^(2)=0.00,P=1.000)与小细胞癌(χ^(2)=0.27,P=0.603)脑转移瘤的检出率差异无统计学意义。腺癌组、鳞癌组、小细胞癌组三组间CIPS阳性率差异有统计学意义(χ^(2)=11.13,P=0.004),其中鳞癌组与腺癌组(χ^(2)=11.08,P=0.001)、鳞癌组与小细胞癌组(χ^(2)=8.26,P=0.004)间差异有统计学意义,腺癌组与小细胞癌组间差异无统计学意义(χ^(2)=0.131,P=0.717)。结论:CE-SWI对肺腺癌脑转移瘤的检出较CE-T 1WI更有优势。肺腺癌、小细胞癌脑转移瘤的CIPS阳性率较鳞癌显著增高,CE-SWI可为肺癌脑转移瘤MRI检查常规序列的有利补充,为临床诊疗提供更多重要参考信息。

磁共振T2、SWI序列定位丘脑底核在帕金森病脑深部电刺激术中的对比研究

目的探究磁共振T2序列及磁敏感加权(SWI)序列在丘脑底核(STN)的可视化效果及成像清晰度,研究不同序列定位的计划靶点与实际靶点的误差,并计算出误差量,以指导术前手术计划制定及影像学选择。方法收集并分析河南大学第一附属医院2018年12月—2020年12月因帕金森病行脑深部电刺激术(DBS)且符合本次研究纳入标准的患者,共计11例,所有患者术前均行3.0 T高分辨率磁共振成像扫描3DT1 bravo、T2、SWI序列。分别利用T2序列或SWI序列制定手术计划并生成相应手术坐标,所有患者均行双侧STN行DBS,共计22侧,术后复查高分辨率薄层颅脑CT并与术前MRI融合。术后重建电极尖端位置坐标,分别与T2计划坐标、SWI计划坐标两两对比,分析误差值。结果以T2为参考计划坐标与SWI为参考计划坐标对比。在两侧Z轴上,差异有统计学意义(P<0.05),左侧SWI较T2深(2.16±1.02)mm;右侧SWI较T2深(2.13±1.62)mm。结论STN在SWI序列上显示的深度比在T2序列显示的深2 mm左右且更符合电生理深度。

磁共振波谱成像联合弥散加权成像在早产儿脑白质损伤诊断及预后评估中的应用

目的探讨磁共振波谱成像(MRS)联合弥散加权成像(DWI)在早产儿脑白质损伤早期诊断以及其预后评估中的应用价值。方法选取2021年1月-2023年1月102例脑白质损伤早产儿作为病例组,同期选取98例非脑白质损伤早产儿作为对照组,记录两组早产儿相关临床指标,并在出生后7d实施MRS、DWI检查,比较两组MRS代谢指标、DWI参数差异,使用点二列相关性检验MRS代谢指标、DWI参数与早产儿脑白质损伤的关系,并绘制受试者工作曲线(ROC)分析MRS联合DWI对早产儿脑白质损伤的早期诊断价值。予以病例组患儿长期随访,在矫正年龄6个月时使用Gesell发育诊断量表将患儿分为预后不良组与预后良好组,比较并分析2组患儿MRS代谢指标、DWI参数对早产儿脑白质损伤预后的评估价值。结果病例组N-乙酰天冬氨酸(NAA)、NAA/Cr、rADC明显低于对照组,肌酸(Cr)明显高于对照组,差异有统计学意义(P<0.05)。经点二列相关性检验显示NAA、NAA/Cr、rADC与早产儿脑白质损伤存在负相关关系(r<0,P<0.05);Cr与早产儿脑白质损伤存在正相关关系(r>0,P<0.05)。绘制ROC显示NAA、Cr、NAA/Cr以及rADC对早产儿脑白质损伤诊断具有较低的诊断价值,AUC分别为0.629、0.630、0.605、0.603;MRS联合DWI具有良好的诊断价值,AUC为0.713。随访结果显示102例患儿中21例为边缘状态,53例为发育异常,共74例为预后不良组,另28例发育良好为预后良好组。预后不良组患儿NAA、NAA/Cr、rADC明显低于预后良好组,Cr明显高于预后良好组,差异有统计学意义(P<0.05)。经点二列相关性检验显示NAA、NAA/Cr、rADC与脑白质损伤患儿预后不良存在负相关关系(r<0,P<0.05);Cr与预后不良存在正相关关系(r>0,P<0.05)。绘制ROC曲线显示NAA、NAA/Cr以及rADC对脑白质损伤患儿预后具有较低的评估价值,AUC分别为0.641、0.639、0.688;Cr、MRS联合DWI对脑白质损伤患儿预后具有良好的评估价值,AUC分别为0.755、0.833,以联合评估价值最高。结论MRS联合DWI对早产儿脑白质损伤以及其预后均有良好的评估价值。

轻度创伤性脑损伤的微出血和白质损伤的影像学检测及其与预后的相关性分析

目的探讨磁共振敏感性加权成像(SWI)和弥散张量成像(DTI)参数在轻度创伤性脑损伤(mTBI)临床诊断和预后评估中的应用价值。方法选择44例mTBI患者为观察组,32例健康志愿者为对照组。所有mTBI患者行头颅磁共振成像(MRI)平扫及SWI、DTI检查,在相关脑区(额叶、胼胝体膝、外囊、内囊、丘脑、胼胝体压部、半卵圆中心)测量扩散各向异性(FA)、表观扩散系数(ADC),并在出院6个月后采用扩展格拉斯哥预后评分(GOSE)‑TBI量表进行预后评分。采用t检验分析2组研究对象FA、ADC值差异,采用Spearman分析不同参数与预后的相关性。结果88.6%mTBI患者SWI显示微出血,出血数量为0~5个[(2.36±1.26)个],出血面积为(349.48±225.82)mm2。观察组44例患者出院6个月后的GOSE‑TBI评分为7~8分[(7.50±0.51)分],其中50.00%(22/44)患者为8分。通过相关性分析,显示出血面积与GOSE‑TBI评分呈负相关(P<0.001)。mTBI患者的额叶、胼胝体膝FA值低于健康对照组(P<0.05),内囊左侧FA值略低于健康对照组(P<0.05),而2组研究对象丘脑区FA值差异无统计学意义(P>0.05)。额叶和胼胝体膝左侧和均值FA值与GOSE‑TBI评分呈正相关(P<0.001);内囊左侧及胼胝体压部左侧和均值FA值与GOSE‑TBI评分呈负相关(P<0.05)。2组研究对象ADC值差异无统计学意义(P>0.05)。结论SWI可敏感发现mTBI微出血。DTI能够显示mTBI存在轻度白质损伤,FA值与GOSE‑TBI评分具有相关性,是评价mTBI严重程度和预后的敏感指标。

三维动脉自旋标记成像序列与弥散加权成像在急性脑梗死鉴别诊断中的价值研究

目的研究在急性脑梗死鉴别诊断中三维动脉自旋标记成像(3D-ASL)序列与弥散加权成像(DWI)的应用价值。方法选定本院2020年11月至2023年12月收治的108例高度疑似急性脑梗死患者,所有入院患者均接受磁共振成像(MRI)扫描,分析患者的3D-ASL、DWI图像表现,以临床综合诊断为金标准,评估3D-ASL序列与DWI的诊断效能。结果108例疑似患者临床综合诊断,确诊阳性100例,而3D-ASL序列确诊急性脑梗死者97例,DWI确诊急性脑梗死者78例,诊断符合率、灵敏度、特异度3D-ASL高于DWI(P<0.05);3D-ASL、DWI成像参数值对比,病灶侧局部脑血流量(rCBF)、表观弥散系数(ADC值)低于健侧,差异有统计学意义(P<0.05);急性期、亚急性期、慢性期患者三维D-ASL、DWI成像参数值对比差异有统计学意义(P<0.05)。结论在急性脑梗死鉴别诊断中,3D-ASL诊断符合率与灵敏度要高于DWI,可为临床提供一定的参考依据,有重要的参考价值。

磁敏感加权成像在脑胶质瘤中的应用进展

脑胶质瘤是中枢神经系统最常见的恶性肿瘤,其鉴别诊断、术前病理分级、基因分型、术前规划、术后疗效评估对实施个体化治疗具有重要意义。磁敏感加权成像(susceptibility weighted imaging,SWI)是利用不同组织间磁敏感差异成像的技术,能够清楚显示脑胶质瘤内引流静脉及出血产物。本综述介绍了SWI的基本技术原理,以及SWI在脑胶质瘤的诊断、治疗和影像组学方面的应用和研究进展,将为脑胶质瘤的诊断、治疗以及预后评估等提供更多的参考依据。

动态对比增强磁共振成像联合弥散加权成像对脑胶质瘤的诊断价值

目的 探讨动态对比增强磁共振成像(DCE-MRI)联合弥散加权成像(DWI)对脑胶质瘤的诊断价值。方法 收集86例脑胶质瘤患者的临床资料,所有患者均进行MRI平扫、DWI、DCE-MRI检查。根据组织学分级的不同将脑胶质瘤患者分为低级别组(n=39,Ⅰ~Ⅱ级)和高级别组(n=47,Ⅲ~Ⅳ级),比较两组患者的DCE-MRI、DWI扫描参数。绘制受试者工作特征(ROC)曲线,计算曲线下面积(AUC),分析DCE-MRI、DWI单独及联合检查对脑胶质瘤的诊断价值。结果 低级别组患者的表观弥散系数(ADC)明显高于高级别组,容量转移常数(K~(trans))、血管外细胞外间隙容积分数(V_e)均明显低于高级别组,差异均有统计学意义(P﹤0.01)。两组患者的速率常数(K_(ep))、血浆容积分数(V_p)比较,差异均无统计学意义(P﹥0.05)。ROC曲线显示,DCE-MRI和DWI联合检查诊断脑胶质瘤的AUC为0.979(95%CI:0.752~0.986),灵敏度为95.06%,特异度为87.25%,均高于DCE-MRI、DWI单独检查。结论 DCE-MRI参数和ADC可为脑胶质瘤的分级提供依据,DCE-MRI和DWI联合检查对脑胶质瘤具有较高的诊断价值。

全脑CT灌注及磁共振弥散加权成像评价短暂性脑缺血发作继发脑梗死的价值

目的探究全脑CT灌注及磁共振弥散加权成像(DWI)评价短暂性脑缺血发作(TIA)继发脑梗死的价值。方法选取2022-06—2023-04中国人民解放军联勤保障部队第九〇二医院治疗的70例TIA患者,对其临床资料进行回顾性分析,根据患者发病7 d内临床诊断继发性脑梗死状况分为脑梗死组(n=22)与非脑梗死组(n=48),对比2组全脑CT灌注参数,经ROC曲线分析全脑CT灌注参数联合诊断TIA继发脑梗死的最佳阈值,对比全脑CT灌注参数、DWI及两项联合诊断TIA继发脑梗死的灵敏度、特异性,并通过Kappa值分析其一致性。结果脑梗死组CBF、CBV低于非脑梗死组,TTP、MTT高于非脑梗死组(P<0.05)。采用ROC分析获取CBF、CBV、TTP、MTT诊断TIA继发脑梗死的AUC分别为0.670、0.854、0.681、0.754,联合诊断TIA继发脑梗死的AUC为0.925。以临床诊断为金标准,全脑CT灌注诊断TIA继发脑梗死的敏感度77.27%,特异性95.83%,Kappa值0.759;磁共振弥散加权成像诊断TIA继发脑梗死的敏感度81.82%,特异性97.92%,Kappa值0.828;两项联合诊断TIA继发脑梗死的敏感度95.45%,特异性95.83%,Kappa值0.902,一致性较好。结论全脑CT灌注及DWI诊断TIA继发脑梗死均具有一定价值,且两项联合诊断的准确性更好。

循环分层解耦卷积和最大滤波的三维脑肿瘤图像分割

由于脑肿瘤的大小和形状呈不规则状态,从三维磁共振图像中自动分割脑肿瘤是一项具有挑战性的任务.而目前的方法存在两个问题:基于3D建模的方法参数量较大难以训练而且全局或远距离上、下文信息的关联性不足;模型忽略局部区域细节特征使得分割结果边界模糊.为解决上述问题,本文提出了循环分层解耦卷积和最大滤波(recurrent hierarchical-decoupled convolution and maximum filtering,RHMF)的轻量网络实现三维脑肿瘤图像分割.该网络在特征提取阶段提出循环分层解耦卷积取代标准卷积,减少参数利用多时域的反馈信息建立全局上、下文信息关联.引入改进的多尺度策略对不同尺度下的多层次特征进行提取融合,提高网络的目标识别能力.在定位阶段做局部域细节处理,提出了最大滤波模块激活目标区域像素实现特征图的像素级定位,增强目标区域像素与其他区域像素的区别,进一步细化分割,解决边界模糊问题.在BraTS2020数据集上的实验结果表明,RHMF-Net在增强肿瘤区、整体肿瘤区和核心肿瘤区的平均Dice系数值分别为77.23%、90.01%和83.10%,参数量为0.42×106.

磁共振弥散加权成像参数联合miR-21-5p对急性脑干梗死患者预后不良的预测价值

目的探讨磁共振弥散加权成像(DWI)参数联合微小RNA-21-5p(miR-21-5p)对急性脑干梗死患者预后不良的预测价值。方法回顾性选取2021年6月至2023年6月丽水市中心医院收治的88例急性脑干梗死患者,患者入院后接受常规对症治疗与DWI检查。治疗后对患者随访3个月,根据改良Rankin量表(mRS)评估患者预后,比较不同预后情况患者的梗死区DWI参数[表观弥散系数(ADC)、DWI异常高信号面积(S_(DWI))]和血清miR-21-5p表达;采用多因素logistic回归分析急性脑干梗死患者预后不良的独立危险因素;绘制ROC曲线分析ADC、S_(DWI)、miR-21-5p对急性脑干梗死患者预后不良的预测效能。结果预后不良组的ADC低于预后良好组,S_(DWI)、miR-21-5p表达高于预后良好组(均P<0.05);多因素logistic回归分析显示,有高血压病(OR=2.081)、ADC降低(OR=1.948)、S_(DWI)升高(OR=1.960)及miR-21-5p升高(OR=2.136)均是急性脑干梗死患者预后不良的独立危险因素(均P<0.05)。ROC曲线分析显示,ADC、S_(DWI)、miR-21-5p单一及联合检测的AUC分别为0.807、0.817、0.815、0.930,联合检测的AUC优于单一检测。结论DWI参数联合miR-21-5p预测急性脑干梗死患者预后情况具有一定价值。

磁共振扩散加权成像在脑胶质瘤临床评估中的价值

目的分析磁共振扩散加权成像(DWI)在脑胶质瘤临床评估中的价值。方法选取2020-01—2023-08接受检查的85例脑胶质瘤患者为研究对象,所有患者均接受病理诊断证实,均采用GE 1.5T磁共振成像系统进行检查,对患者进行随访,统计患者复发情况,测定患者肿瘤坏死囊变区、肿瘤周边区、肿瘤实质部分及对侧正常脑白质的表观弥散系数(ADC)值及相对ADC(rADC)值,并进行比较。结果患者对侧正常脑白质ADC值为(8.32±0.63)×10^(-4)mm^(2)/s,显著低于肿瘤坏死囊变区、肿瘤周边区及肿瘤实质部分[(25.21±4.27)×10^(-4)mm^(2)/s、(17.03±3.15)×10^(-4)mm^(2)/s、(14.33±3.01)×10^(-4)mm^(2)/s](P<0.05);低级脑胶质瘤的ADC值、rADC值分别为(17.04±2.19)×10^(-4)mm^(2)/s、1.98±0.22,均显著低于高级脑胶质瘤[(12.89±2.55)×10^(-4)mm^(2)/s、1.57±0.25](P<0.05);复发患者ADC值为(13.69±1.90)×10^(-4)mm^(2)/s,显著低于无复发患者的(18.17±2.63)×10^(-4)mm^(2)/s(P<0.05);ADC值对脑胶质瘤诊断的AUC值、敏感度、特异度分别为0.967、91.76%、100.00%;ADC值对脑胶质瘤不同分级诊断的AUC值、敏感度、特异度分别为0.858、89.19%、64.58%;ADC值对脑胶质瘤预后预测的AUC值、敏感度、特异度分别为0.880、85.29%、82.35%。结论DWI对脑胶质瘤诊断效果良好,可通过ADC值判断脑胶质瘤分级,预测患者预后。

磁敏感成像序列在脑微出血诊断中的价值

目的探讨磁敏感加权成像(SWI)在检出脑微出血灶(CMB)及隐匿性CMB(rCMB)中的价值。方法回顾性分析45例有脑CMB患者的MR影像资料,观察病灶大小、部位等特征,比较常规MR成像序列及SWI序列的检出率。检查序列包括常规MR成像序列(T1WI、T2WI、FLAIR及DWI)及SWI序列。SWI采用Ven-Bold-HR三维梯度回波序列。结果共检出197个CMB,常规MR序列检出162个,SWI检出191个,SWI的CMB检出率是常规序列的1.18倍,两者的差异有统计学意义(χ2=22.90,P<0.01)。SWI序列可以检出常规序列不能检出的隐匿性CMB(rCMB)。结论 SWI在检出CMB及rCMB中优于常规MRI序列,建议作为MRI检查的常规序列之一。

ASL技术联合DWI在脑肿瘤术后检查中的应用

目的探讨动脉自旋标记灌注成像(ASL)技术联合扩散加权成像(DWI)在脑肿瘤术后检查中的应用价值。方法回顾性分析2020年3月至2023年2月在佛山复星禅诚医院进行术后检查的58例脑肿瘤患者的临床资料,依据随访或二次手术病理结果分为肿瘤复发组34例和胶质增生组24例,所有患者均接受常规磁共振扫描和ASL、DWI检查,对肿瘤灌注最显著区域及对侧正常脑实质的脑血流量(CBF)进行测量,计算相对CBF (rCBF),并对肿瘤实质强化边缘外1 cm内水肿区域的平均表观扩散系数(ADC)进行测量。比较两组患者的rCBF、ADC,绘制受试者工作特征曲线(ROC)分析rCBF、瘤周1 cm内ADC及两者联合对胶质增生及脑肿瘤复发的诊断效能。结果脑肿瘤复发组患者的rCBF水平为3.59±0.46,明显高于胶质增生组的0.93±0.25,瘤周1 cm内ADC为(1.30±0.25)×10^(-3)mm^(2)/s,明显低于胶质增生组的(1.53±0.18)×10^(-3)mm^(2)/s,差异均有统计学意义(P<0.05);经ROC分析结果显示,rCBF联合瘤周1 cm内ADC诊断胶质增生及脑肿瘤复发的灵敏度与特异度分别为96.80%、92.45%,明显高于rCBF、瘤周1 cm内ADC单独诊断的84.44%、87.52%与89.83%、78.18%,差异均有统计学意义(P<0.05)。结论ASL技术联合DWI应用于脑肿瘤术后检查中可准确评估肿瘤复发与胶质增生,且不需要注射对比剂,安全无创,具有较大的临床价值。

益智灵冲剂对实验性老年痴呆病理模型的作用

选用60只LACA小白鼠,口服氯化铝造成老年痴呆模型,用中药益智灵冲剂进行治疗,观察脑记忆功能及脑组织重量(脑重)变化。结果表明:益智灵冲剂可使痴呆小白鼠的记忆功能改善,脑重恢复正常水平。说明益智灵冲剂对老年痴呆具有一定的疗效。

DWI在脑胶质瘤与脑转移瘤鉴别诊断中的应用

目的评价弥散加权成像(DWI)在脑胶质瘤与脑转移瘤诊断和鉴别诊断中的应用价值。方法收集38例脑内占位病例,20例脑胶质瘤(WHO分级Ⅲ级10例,Ⅳ级10例,均经手术病理证实),18例脑转移瘤,所有患者均行MRI常规检查和DWI检查。测量瘤体、瘤旁水肿区及对侧正常区的ADC值,瘤体区的标准化ADC值(rADC-t)=瘤体ADC值/对侧正常区ADC值;瘤旁水肿区的标准化ADC值(rADC-p)=瘤旁水肿区ADC值/对侧正常区ADC值。结果脑胶质瘤与脑转移瘤的液化坏死区DWI上均呈低信号。20例胶质瘤瘤体及瘤旁水肿区的ADC值均高于对侧正常组织,且差异均有统计学意义(均P<0.05)。18例脑转移瘤瘤体及瘤旁水肿区的ADC值均高于对侧正常组织,且差异均有统计学意义(均P<0.05)。胶质瘤与脑转移瘤rADC-t值比较,差异无统计学意义(P>0.05)。胶质瘤的rADC-p值明显低于脑转移瘤,且差异有统计学意义(P<0.05)。结论 DWI可以用来帮助鉴别脑胶质瘤与脑转移瘤,从而为临床提供最佳的治疗方案。

磁敏感加权成像在脑血管畸形显像中的初步应用研究

目的初步分析磁敏感加权成像(SWI)在脑血管畸形显像中的应用价值。资料与方法2006年5月至9月间对11例颅内血管畸形患者资料进行前瞻性研究,11例中男7例,女4例,平均年龄25岁。其中6例为海绵状血管瘤,3例为脑动静脉畸形,2例为静脉畸形。SWI所得图像应用10mm厚度的最小密度投影重组。与手术所见和DSA对比,将SWI图像与常规MR序列比较。结果SWI对11例血管畸形患者的病灶均显示清楚。其中6例海绵状血管瘤患者常规MR序列发现10个海绵状血管瘤,而SWI发现了15个;3例脑动静脉畸形患者中,2例SWI较常规序列发现更多病灶。SWI发现了DSA所见的4支引流静脉中的3支,而常规MR序列仅可以显示1支,且更易与动脉区分,常规序列和SWI均可发现2支供血动脉,SWI还可以显示其中1例动静脉畸形的钙化;2例静脉畸形均可清晰显示扩张的髓静脉和粗大的引流静脉,而常规序列显示欠佳。结论SWI应作为脑血管畸形尤其慢流速血管畸形诊断的常规序列应用于临床,结合其他序列对脑血管畸形能提供更全面、精确的信息。