Emotion processing in Parkinson's disease: a blood oxygenation level-dependent functional magnetic resonance imaging study

Parkinson's disease is a neurodegenerative disorder caused by loss of dopamine neurons in the substantia nigra pars compacta. Tremor, rigidity, and bradykinesia are the major symptoms of the disease. These motor impairments are often accompanied by affective and emotional dysfunctions which have been largely studied over the last decade. The aim of this study was to investigate emotional processing organization in the brain of patients with Parkinson's disease and to explore whether there are differences between recognition of different types of emotions in Parkinson's disease. We examined 18 patients with Parkinson's disease(8 men, 10 women) with no history of neurological or psychiatric comorbidities. All these patients underwent identical brain blood oxygenation level-dependent functional magnetic resonance imaging for emotion evaluation. Blood oxygenation level-dependent functional magnetic resonance imaging results revealed that the occipito-temporal cortices, insula, orbitofrontal cortex, basal ganglia, and parietal cortex which are involved in emotion processing, were activated during the functional control. Additionally, positive emotions activate larger volumes of the same anatomical entities than neutral and negative emotions. Results also revealed that Parkinson's disease associated with emotional disorders are increasingly recognized as disabling as classic motor symptoms. These findings help clinical physicians to recognize the emotional dysfunction of patients with Parkinson's disease.

Diagnostic value of amygdala volume on structural magnetic resonance imaging in Alzheimer’s disease

BACKGROUND The main clinical manifestation of Alzheimer’s disease(AD)is memory loss,which can be accompanied by neuropsychiatric symptoms at different stages of the disease.Amygdala is closely related to emotion and memory.AIM To evaluate the diagnostic value of amygdala on structural magnetic resonance imaging(sMRI)for AD.METHODS In this study,22 patients with AD and 26 controls were enrolled.Their amygdala volumes were measured by sMRI and analyzed using an automatic analysis software.RESULTS The bilateral amygdala volumes of AD patients were significantly lower than those of the controls and were positively correlated with the hippocampal volumes.Receiver operating characteristic curve analyses showed that the sensitivity of the left and right amygdala volumes in diagnosing AD was 80.8%and 88.5%,respectively.Subgroup analyses showed that amygdala atrophy was more serious in AD patients with neuropsychiatric symptoms,which mainly included irritability(22.73%),sleep difficulties(22.73%),apathy(18.18%),and hallucination(13.64%).CONCLUSION Amygdala volumes measured by sMRI can be used to diagnose AD,and amygdala atrophy is more serious in patients with neuropsychiatric symptoms.

Flexible reduced field of view magnetic resonance imaging based on single-shot spatiotemporally encoded technique

In many ultrafast imaging applications, the reduced field-of-view（r FOV） technique is often used to enhance the spatial resolution and field inhomogeneity immunity of the images. The stationary-phase characteristic of the spatiotemporallyencoded（SPEN） method offers an inherent applicability to r FOV imaging. In this study, a flexible r FOV imaging method is presented and the superiority of the SPEN approach in r FOV imaging is demonstrated. The proposed method is validated with phantom and in vivo rat experiments, including cardiac imaging and contrast-enhanced perfusion imaging. For comparison, the echo planar imaging（EPI） experiments with orthogonal RF excitation are also performed. The results show that the signal-to-noise ratios of the images acquired by the proposed method can be higher than those obtained with the r FOV EPI. Moreover, the proposed method shows better performance in the cardiac imaging and perfusion imaging of rat kidney, and it can scan one or more regions of interest（ROIs） with high spatial resolution in a single shot. It might be a favorable solution to ultrafast imaging applications in cases with severe susceptibility heterogeneities, such as cardiac imaging and perfusion imaging. Furthermore, it might be promising in applications with separate ROIs, such as mammary and limb imaging.

Optimal velocity encoding during measurement of cerebral blood flow volume using phase-contrast magnetic resonance angiography

This study investigated the effect of velocity encoding on measurement of brain blood flow and blood volume of inflow and outflow using phase-contrast magnetic resonance angiography. A single two-dimensional phase-contrast magnetic resonance angiography slice was applied perpendicular to the internal carotid artery and the vertebral artery at C2 level. For each subject, the velocity encoding was set from 30 to 90 cm/s with an interval of 10 cm/s for a total of seven settings. Various velocity encodings greatly affected blood flow volume, maximal blood flow velocity and mean blood flow velocity in the internal carotid artery, but did not significantly affect vertebral arteries and jugular veins. When velocity encoding was 60-80 cm/s, the inflow blood volume was 655 _＋ 118 mL/min, and the outflow volume was 506 _＋ 186 mL/min. The ratio of outflow/inflow was steady at 0.78-0.83, and there was no aliasing in any of the images. These findings suggest that velocity encodings of 60 80 cm/s should be selected during measurement of cerebral blood flow volume using phase-contrast magnetic resonance angiography.

骨髓脂肪对骨转移的影响及磁共振成像定量评估

背景:早期骨转移的准确诊断对治疗方案和预后有着至关重要的作用。骨活检是骨转移诊断的金标准,但由于有创且标本尺寸小等缺点,在实际临床工作中难以落实。近年来,随着MRI技术的不断发展,磁共振定量成像技术如磁共振波谱成像、基于化学移位编码的水脂肪成像等被广泛应用于骨转移的诊断,衍生的标志物包括表信号脂肪分数和质子密度脂肪分数,均能反映骨髓脂肪含量。目前,对于骨髓脂肪在骨转移瘤发生中的作用已经成为了人们关注的新焦点。目的:现就骨髓脂肪对骨转移的影响及磁共振成像定量评估技术进行综述,归纳比较不同磁共振脂肪定量技术评估骨转移的优劣势以及临床应用情况。方法:应用计算机在PubMed和中国知网数据库检索相关文献,英文检索词为“bone metastases,bone marrow adipocytes,magnetic resonance imaging,quantitative MRI,fat fraction,magnetic resonance spectrum,chemical shift encoding-based water–fat imaging”,中文检索词为“骨转移,骨髓脂肪,磁共振成像,定量磁共振成像,脂肪分数,磁共振波谱成像,基于化学移位编码的水脂肪成像”,根据纳入和排除标准共获得相关文献67篇。结果与结论:(1)骨髓脂肪细胞能通过分泌多种相关激素及细胞因子、为肿瘤细胞提供能量、诱导破骨细胞分化等多种途径协助骨转移的发生;(2)磁共振定量技术能够精确地定量脂肪组织,测量骨髓中脂肪含量的变化有助于骨转移的诊断;(3)磁共振波谱成像能够通过不同质子的进动频率反映不同的代谢产物,因此可用于脂肪定量,是目前用于评估转移性骨折的一种辅助检查手段;(4)基于化学移位编码的水脂肪成像可以使水和脂肪信号得以在正相位和反相位相分离,从而测量脂肪组织的信号,在鉴别椎体良恶性骨折方面具有较高的敏感性、特异性和准确性。

Brain Encoding and Decoding in fMRI with Bidirectional Deep Generative Models

Brain encoding and decoding via functional magnetic resonance imaging(fMRI)are two important aspects of visual perception neuroscience.Although previous researchers have made significant advances in brain encoding and decoding models,existing methods still require improvement using advanced machine learning techniques.For example,traditional methods usually build the encoding and decoding models separately,and are prone to overfitting on a small dataset.In fact,effectively unifying the encoding and decoding procedures may allow for more accurate predictions.In this paper,we first review the existing encoding and decoding methods and discuss the potential advantages of a“bidirectional”modeling strategy.Next,we show that there are correspondences between deep neural networks and human visual streams in terms of the architecture and computational rules.Furthermore,deep generative models(e.g.,variational autoencoders(VAEs)and generative adversarial networks(GANs))have produced promising results in studies on brain encoding and decoding.Finally,we propose that the dual learning method,which was originally designed for machine translation tasks,could help to improve the performance of encoding and decoding models by leveraging large-scale unpaired data.

Meta-analysis of brain activation in depressive patients with emotional perception disorders

OBJECTIVE：To elucidate the distribution of abnormally activated brain regions in depressive patients during emotional perception processing using activation likelihood estimation,a quantitative meta-analytic technique.DATA SOURCES：Computer-based online retrieval was conducted using the PscyINFO,Pubmed and CNKI databases,searching literature from the establishment of each database until June 2010.STUDY SELECTION：Inclusion criteria：（1） studies examined emotion perception tasks using func-tional magnetic resonance imaging; （2） studies indicated regional brain activation abnormalities in depressive patients compared with controls in standard Talairach or MNI coordinates.Any analyzed coordinates based on the MNI system were converted to Talairach space with icbm2tal software.The map of activation likelihood estimation was finally created through the Gaussian smooth （full-width half-maximum=8 mm）,permutation test and corrected for multiple comparisons using the false discovery rate method （q=0.05） with Ginger-ALE 2.0 software.MAIN OUTCOME MEASURES：Activation of brain regions in patients.RESULTS：Seventeen studies were identified,involving a total of 261 patients,273 healthy controls and 201 foci.Meta-analysis revealed a dysfunctional emotion regulation loop in depressive patients,comprised of the prefrontal cortex,the basal ganglia and the limbic lobe,in which the amygdala was a key component.During emotion processing,the left prefrontal cortex and basal ganglia were hy-poactive among depressive patients,whereas the opposite change was found in the limbic lobe.CONCLUSION：Abnormal connections among the prefrontal cortex,basal ganglia and limbic lobe may be involved in the pathophysiology of depressive disorder.

Music in depression: Neural correlates of emotional experience in remitted depression

AIM: To investigate neural and behavioral correlates of emotional experiences as potential vulnerability markers in remitted depression. METHODS: Fourteen remitted participants with a history of major depression and fourteen closely matched healthy control participants took part in the study. We used two psychiatric interviews(Hamilton Depression Rating Scale, Montgomery-Asberg Depression Rating Scale) and one self-report scale(Beck Depression Inventory) to assess remission. Healthy control participants were interviewed by an experienced psychiatrist to exclude those who showed any current or lifetime psychiatric or neurological disorders. To explore psychosocialand cognitive-interpersonal underpinnings of potential vulnerability markers of depression, early life stress, coping styles and alexithymia were also assessed. We induced pleasant and unpleasant emotional states using congruent combinations of music and human emotional faces to investigate neural and behavioral correlates of emotional experiences; neutral stimuli were used as a control condition. Brain responses were recorded using functional magnetic resonance imaging. Behavioral responses of pleasantness, arousal, joy and fear were measured via button-press inside the resonance imaging scanner. RESULTS: The mean age of the sample was 54.9(± 11.3) years. There were no differences between remitted depressed(RD)(n = 14; 9 females and 5 males) and healthy participants(n = 14; 8 females and 6 males) regarding age, current degree of depression, early life stress, coping styles and alexithymia. On a neural level, RD participants showed reduced activations in the pregenual anterior cingulate cortex(pg ACC) in response to pleasant [parameter estimates:-0.78 vs 0.32; t(26) =-3.41, P < 0.05] and unpleasant [parameter estimates:-0.88 vs 0.56; t(26)=-4.02, P < 0.05] emotional stimuli. Linear regression analysis revealed that pg ACC activity was modulated by early life stress [β =-0.48; R2 = 0.23, F(1,27) = 7.83, P < 0.01] and taskoriented coping style [β = 0.63; R2 = 0.37, F(1,27) = 16.91, P < 0.001]. Trait anxiety modulated hippocampal responses to unpleasant stimuli [β = 0.62; R2= 0.38, F(1,27) = 15.95, P < 0.001]. Interestingly, in their reported experiences of pleasantness, arousal, happiness and fear in response to pleasant, unpleasant and neutral stimuli, RD participants did not differ significantly from healthy control participants. Adding trait anxiety or alexithymia as a covariate did not change the results.CONCLUSION: The present study indicates that, in euthymic individuals, depression history alters neural correlates, but not the subjective dimension of pleasant and unpleasant emotional experiences.

Neural Mechanism in Emotion Regulation by Simultaneous Recording of EEG and fMRI

The combination of electroencephalogram (EEG) and functional magnetic resonance imaging(fMRI) is a very attractive aim in neuroscience in order to achieve both high temporal and spatial resolution for the non-invasive study of cognitive brain function. In this paper, we record simultaneous EEG-fMRI of the same subject in emotional processing experiment in order to explore the characteristics of different emotional picture processing, and try to find the difference of the subjects' brain hemisphere while viewing different valence emotional pictures. The late positive potential(LPP) is a reliable electrophysiological index of emotional perception in humans. According to the analysis results, the slow-wave LPP and visual cortical blood oxygen level-dependent (BOLD) signals are both modulated by the rated intensity of picture arousal. The amplitude of the LPP correlate significantly with BOLD intensity in visual cortex, amygdala, temporal area, prefrontal and central areas across picture contents.

不同MR设备CSE MR序列定量骨髓质子密度脂肪分数的一致性分析

目的探讨以单体素氢质子磁共振波谱成像(MRS)为参照,验证不同厂家3T化学位移编码水/脂分离MR序列(CSE-MRI)定量腰椎骨髓质子密度脂肪分数(PDFF)的可重复性与一致性。方法选取38例受试者进行腰椎MRS(PDFF_(MRS))、联影CSE-MRI(PDFF_(FACT))与西门子CSE-MRI(PDFF_(Dixion))扫描。以均方根误差(RMSE)和均方根变异系数(RMS-CV)评价CSE-MRI定量PDFF的精密度及可重复性。使用组内相关系数(ICC)评估不同观察者及观察者内测定PDFF值的一致性。采用Linear regression及Bland-Altman分析评价不同CSE-MRI序列与MRS定量PDFF的可代替性及不同公司间CSE-MRI序列定量PDFF的一致性。结果PDFF_(MRS)、PDFF_(FACT)及PDFF_(Dixion)定量骨髓PDFF值分别为58.2%(38.7%,67.0%)、56.7%(37.2%,66.6%)、56.3%(36.8%,65.4%)。PDFF_(FACT)与PDFF_(Dixion)RMSE分别为1.48%、1.57%,RMS-CV分别为2.37%、2.25%,可重复性良好。观察者内及观察者间测定PDFF具有实质性的一致性,ICC均大于0.99。MRS、FACT及Dixon VIBE序列定量骨髓PDFF之间的线性回归分析,R^(2)=0.985~0.989,差异有统计学意义(P<0.001)。Bland-Altman分析PDFF_(FACT)与PDFF_(MRS)差值97.4%的点落在95%可信区间内,PDFFDixon与PDFF_(MRS)差值92.1%的点落在95%可信区间内,PDFF_(FACT)与PDFFDixon差值92.1%的点落在95%可信区间内,显示了良好的一致性。结论联影与西门子CSE MR序列定量腰椎PDFF可重复性良好,其准确性可等同于MRS。

基于rtfMRI-NF技术调控失眠障碍患者杏仁核活性对大脑度中心性的影响

目的 探讨实时功能磁共振成像神经反馈(real-time functional magnetic resonance imaging neurofeedback, rtfMRI-NF调控失眠障碍(insomnia disorder, ID)患者杏仁核活性对大脑度中心性(degree centrality, DC)的影响。材料与方法 本研究采用rtfMRI-NF调控34例ID患者杏仁核活性,结合临床多导睡眠监测(Polysomography, PSG)、匹兹堡睡眠质量指数(Pittsburgh Sleep Quality Index, PSQI)等量表对患者进行干预前后评估。使用配对t检验分析干预前后功能成像数据的DC值差异,并探讨调控前后DC值变化及其与临床量表等数据的相关性。结果 经rtfMRI-NF调控后,ID患者的PSQI、失眠严重程度指数(Insomnia Severity Index Scale, ISI)等量表评分均显著降低(P均<0.05)。此外,右侧海马旁回的DC值显著增高(GRF校正,体素水平P<0.001,团块水平P<0.05),并与睡眠效率差值呈负相关r=-0.478,P<0.05);而右侧背外侧额上回等区域的DC值降低(GRF校正,体素水平P<0.001,团块水平P<0.05),并与干预后ISI评分呈正相关(r=0.488,P<0.05)。结论 rtfMRI-NF技术可重塑ID患者特定脑区的DC值,并有效提高ID患者的睡眠质量。

基于扩散磁共振成像的脑组织微结构成像在脑肿瘤诊疗中的应用

扩散MRI(diffusion MRI,dMRI)是一种利用水分子扩散速率和方向变化产生信号对比的成像技术,成像效果主要取决于MR信号采集及后处理中所采用的定量物理模型,对于在体无创揭示脑组织与脑部疾病的微结构信息方面具有重要的应用价值。近年来,dMRI领域中不断有新成像技术涌现,诸如基于新型扩散编码的多维度扩散成像(multidimensional diffusion,MDD)、平均表观传播MRI(mean apparent propagator MRI,MAP-MRI)以及基于多隔室模型的轴突定向扩散和密度成像(neurite orientation dispersion and density imaging,NODDI)等技术。本文从信号采集和模型拟合两个方面综述了基于dMRI的多种脑组织微结构成像技术目前的发展概况,以及其在脑胶质瘤和脑转移瘤等常见脑肿瘤中的初步应用,主要包括脑肿瘤的鉴别诊断、分级评估、分子分型、疗效评估和预后预测等临床关切的问题。未来,有待进一步优化基于dMRI的脑组织微结构成像技术的成像条件,比如设置合适的b值范围及成像时间,并进一步深入研究和比较各种新型脑组织微结构成像技术在上述关键临床问题中的应用价值,以期推动基于dMRI的脑组织微结构成像技术的发展与临床应用,从微观形态学角度全面揭示脑肿瘤的特征,为脑肿瘤的早期诊断、鉴别诊断、肿瘤分级、分子分型以及预后预测提供有力依据。

利用自相似性实现医学图像合成的生成对抗网络

基于深度卷积的跨模态医学图像合成网络具有从大规模数据资源中学习非线性映射关系以进行局部生成的优势,但现有方法忽略了医学图像具有特征自相似性的特点,仅通过卷积来提取像素级别的特征信息,导致深层特征提取能力不足和语义信息表达不充分.为此,提出了基于图注意力块(Graph Attention Block,GAB)和全局块注意力块(Global Patch Attention Block,GPAB)的生成对抗网络(Graph Attention Block and Global Patch Attention Block Generative Adversarial Networks,GGPA-GAN).其中,用图注意力块和全局块注意力块捕捉医学图像切片间以及切片内的自相似性,进行深层特征的提取.此外,在生成器中加入二维位置编码,利用图像的空间位置信息来增强语义信息的表达能力.在HCP_S1200数据集和ADNI数据集上的实验结果表明,提出的网络在3T-7T、T1-T2的脑部MRI图像合成任务中相较于其他网络取得了最优的结果.在3T-7T脑部MRI图像合成任务中,相比Pix2pix合成方法,该方法在峰值信噪比(Peak Signal-to-Noise Ratio)、结构相似性指数(Structural Similarity Index)和平均绝对误差(Mean Absolute Error)方面分别提升了0.55、0.007和6.55.在T1-T2脑部MRI图像合成任务中,相比Pix2pix合成方法,在PSNR、SSIM和MAE分别提升了0.68、0.006和8.77.这些结果充分证明了此方法的有效性,为临床诊断提供了有力的帮助.

基于fMRI对双侧特发性耳鸣伴听力下降患者杏仁核亚区动态及静态功能连接变化的研究

目的观察双侧特发性耳鸣伴听力下降(tinnitus and hearing loss,TINHL)患者杏仁核亚区静态功能连接(static functional connectivity,sFC)和动态功能连接(dynamic functional connectivity,dFC)特征改变。方法选取30例双侧TINHL患者和37例正常对照(NCs),进行静息态功能磁共振(fMRI)扫描,分析TINHL患者杏仁核八个亚区与全脑sFC和dFC的强度变化。结果两组被试的年龄、性别和受教育程度均无显著差异。与NCs组相比,TINHL组右侧基底外侧区杏仁核与右侧小脑脚1区,左侧基底外侧区杏仁核与左侧眶部额中回及左侧角回的sFC强度显著降低。TINHL组左侧杏仁核纹状体区与左侧楔前叶的dFC强度增高;左侧基底外侧区杏仁核与右侧角回,右侧浅表区杏仁核与右侧眶内额上回的dFC强度减低。结论杏仁核八个亚区中,双侧基底外侧区、左侧杏仁核纹状体区及右侧浅表区出现与其他脑区的异常功能连接改变,是引起TINHL患者情绪异常的重要区域。

冠心病伴抑郁患者脑结构磁共振成像特点及与情绪认知的相关性研究

目的探究冠心病伴抑郁(coronary heart disease with depression,CHDD)患者脑结构磁共振成像(structure magnetic resonance imaging,sMRI)特点,并分析其与情绪、认知能力的相关性。材料与方法采用病例对照设计,共纳入22例CHDD患者,44例冠心病不伴抑郁(coronary heart disease without depression,CHD-nD)患者,以及30例健康对照(healthy control,HC)组。所有受试者的T1加权图像均通过MR脑结构分割辅助分析系统进行数据处理,并利用SPSS 26.0软件进行统计分析。首先对所有数据进行正态性检验。对符合正态分布的数据,使用One-way ANOVA进行三组间比较,并通过最小显著差异检验(least significant difference test,LSD)进行事后组间的比较。对于非正态分布数据进行Kruskal Wallis H非参数检验,并使用Mann-Whitney U检验进行事后比较,同时应用Bonferroni校正以控制多重比较的误差。此外,采用相关性分析来探究脑结构变化与情绪认知评分的相关性。结果(1)与HC组相比,CHDD组患者在右侧额中回前部、颞下回、枕外侧回皮层曲率显著降低(P<0.05),在左侧颞上回坡部的皮层表面积显著增加(P<0.05)。(2)与HC组相比,CHD-nD患者在胼胝体后部体积显著增加,在左侧后扣带回、左侧盖部、右侧中央旁小叶、左侧海马下托、左侧海马伞的全脑体积占比以及左侧内嗅皮质的皮层曲率均显著降低(P均<0.05)。(3)与HC组相比,CHDD组、CHD-nD组在双侧眶额叶内侧部、左侧楔叶的全脑体积占比及右侧中央前回皮层曲率均显著降低,在右侧海马裂的体积均显著增高(P<0.05)。(4)相关性分析的结果显示,汉密尔顿抑郁量表(Hamilton Depression Scale,HAMD)评分与左侧眶额叶内侧部全脑体积占比(r=−0.228,P=0.025)、右侧中央前回(r=−0.239,P=0.019)及右侧枕外侧回皮层曲率(r=−0.256,P=0.012)呈负相关,与左侧颞上回坡部皮层表面积呈正相关(r=0.254,P=0.013);蒙特利尔认知评估量表(Montreal Cognitive Assessment,MoCA)评分与左侧眶额叶内侧部全脑体积占比呈正相关(r=0.342,P=0.007)。结论CHDD患者在前额叶(额中回前部和中央前回)、颞叶(颞下回和颞上回坡部)、枕叶(枕外侧回和楔叶),以及海马裂的结构异常可能是CHDD患者的神经解剖基础,这些脑区与患者的情绪、认知障碍有关。

基于扩散张量成像探究成人原发性甲状腺功能减退症患者胼胝体微观结构变化

目的 采用扩散张量成像研究成人原发性甲状腺功能减退患者胼胝体亚区微观结构变化及与认知、情绪改变的关系。资料与方法 前瞻性收集2019年10月—2021年9月在甘肃省人民医院就诊的32例甲状腺功能减退患者(甲状腺功能减退组)和33例健康志愿者(对照组)的临床信息、认知心理量表评分、扩散张量成像图像等,分析两组胼胝体亚区扩散指标的差异,并与甲状腺相关激素水平和神经心理量表评分进行相关分析,使用受试者工作特征曲线评价诊断效能。结果 与对照组相比,甲状腺功能减退组胼胝体膝部、体部各向异性分数减低,平均扩散率、径向扩散率和膝部轴向扩散率增高(P<0.01),上述扩散指标改变与认知和情绪存在相关性(r=-0.448~0.440,P=0.010~0.043),且膝部各向异性分数的曲线下面积最大(0.777)。结论 甲状腺功能减退患者存在胼胝体膝部和体部微观结构异常,两者分别与认知和情绪相关。本研究为进一步阐明甲状腺功能减退脑损害的神经病理生理机制提供了新的视角。

合成MRI联合MUSE-DWI鉴别胶质瘤复发和治疗相关改变的应用研究

目的 探讨合成MRI定量参数联合多重灵敏度编码扩散加权成像(multiplexed sensitivity encoding diffusion weighted imaging, MUSE-DWI)鉴别胶质瘤复发(progressive disease, PD)和治疗相关改变(treatment-related change, TRC)的应用价值。材料与方法 本研究于2020年9月至2022年11月期间,依据纳、排标准收集胶质瘤全切术后行完整的放、化疗治疗,定期MRI随访出现新发强化灶的患者45例,其中PD组26例、TRC组19例。所有患者均行MUSE-DWI、合成MRI及对比增强T1加权成像(contrast enhanced T1-weighted imaging, CE_T1WI)序列。测量强化区域表观扩散系数(apparent diffusion coefficient,ADC)及增强前、后T1值(T1_(pre)、T1_(post))、T2值(T2_(pre)、T2_(post))。采用独立样本t检验或Mann-Whitney U检验比较合成MRI定量参数和ADC值的组间差异,采用二元logistic回归及受试者工作特征(receiver operating characteristic, ROC)曲线评估单参数及其联合的诊断效能。结果 (1)PD T1_(pre)高于TRC(P<0.05),T1_(post)和ADC值低于TRC(P<0.05),两组间T2_(pre)、T2_(post)差异无统计学意义(P>0.05)。(2)单参数分析时,ADC值诊断效能最高(AUC=0.878),其次是T1_(post)、T1_(pre)(AUC为0.783、0.745)。T1_(post)、T1_(pre)两者联合时,诊断效能较单参数提高(AUC=0.850)。多参数联合模型(T1_(post)+T1_(pre)+ADC)诊断效能最高(AUC=0.901)。结论 合成MRI定量参数(T1_(post)、T1_(pre))联合ADC值的多参数联合模型,在鉴别胶质瘤PD和TRC中具有一定价值。

反极性梯度-复合灵敏度编码扩散加权成像改善颅脑扫描图像质量的价值

目的探讨结合反极性梯度(RPG)-复合灵敏度编码(MUSE)扩散加权成像(DWI)较单次激发平面回波(SSEPI)DWI颅脑成像的图像质量。方法选择2022年5月至6月在扬州大学附属医院行颅脑MRI检查患者32例,其中男性15例,女性17例;年龄25~86岁,中位年龄57岁。均行横断面T2体液衰减反转恢复序列(FLAIR)、RPG-MUSED及SS-EPI、DWI扫描。对两组DWI图像进行主观和客观评价。主观评价由2名放射诊断医师按照5分制量表分别对组织结构(眼球、视神经、颞叶、小脑、脑干)的显示、磁敏感伪影、图像几何失真程度及整体图像质量进行评估。客观评价指标包括两组DWI图像的信噪比(SNR)和Dice相似性系数(DSC)。结果两组DWI图像在组织结构(眼球、视神经、颞叶、小脑、脑干)的显示、磁敏感伪影、图像几何失真程度及整体图像质量方面的差异均有统计学意义(P<0.05),RPG-MUSE组图像的主观评分显著高于SS-EPI组[磁敏感伪影:4.0分(4.0,4.0)vs 3.0分(2.0,3.0);图像几何失真:4.0分(4.0,4.0)vs 3.0分(2.5,3.0);整体图像质量:4.0分(4.0,4.0)vs 3.0分(2.0,3.0)]。两组DWI图像间SNR、DSC差异均有统计学意义(P<0.05),RPG-MUSE组显著高于SS-EPI组[SNR:颞叶247.05(151.55,412.37)vs 122.65(152.10,409.02);小脑298.88(195.37,580.72)vs 173.25(140.97,206.73);脑干253.70(165.07,467.04)vs 141.09(107.01,166.80);DSC:0.94±0.15 vs0.86±0.33]。结论RPG-MUSE能够显著改善磁敏感伪影和图像的几何失真变形,提高颅脑DWI图像质量。

高清与传统扩散加权成像在评价宫颈癌盆腔淋巴结转移中的对比研究

目的:基于复合灵敏度编码的高清扩散加权成像(MUSE DWI)与传统DWI在评价宫颈癌盆腔淋巴结转移中的对比研究。方法:收集行手术治疗的54例宫颈癌患者的病例资料,所有患者术前行磁共振检查,包含传统DWI序列和MUSE DWI序列。分析比较两组DWI序列在宫颈癌盆腔淋巴结中的整体图像质量、矫正几何失真程度和病变显示程度及信噪比(SNR)、对比噪声比(CNR)和平均表观扩散系数(ADC)。采用独立样本t检验分析两组ADC值在盆腔转移性淋巴结和非转移性淋巴结之间的差异,并用受试者操作特征(ROC)曲线评价两组ADC值鉴别宫颈癌盆腔淋巴结转移的诊断效能,采用Delong检验比较两种序列诊断效能的差异。结果:MUSE DWI的整体图像质量、矫正几何失真程度、病变显示程度、SNR和CNR均显著高于传统DWI(P均<0.001)。MUSE DWI和传统DWI的ADC值差异有统计学意义(P<0.001)。在MUSE DWI和传统DWI中,转移组的ADC值均显著低于非转移组(P<0.001)。MUSE DWI和传统DWI的鉴别诊断宫颈癌盆腔淋巴结转移能力的ROC曲线下面积分别为0.718和0.646,两种序列间差异没有统计学意义(P=0.094)。结论:MUSE DWI序列的图像质量、SNR和CNR均优于传统DWI,ADC值差异有统计学意义。MUSE DWI和传统DWI都可以鉴别宫颈癌盆腔淋巴结转移,两者的诊断效能无显著差异。

经前期焦虑障碍相关情感回路异常的脑功能成像研究进展

经前期焦虑障碍(premenstrual dysphoric disorder,PMDD)是一种女性独特的情感障碍性疾病,严重影响着育龄期女性的生活健康,目前其发病机制尚不明确。近年研究表明,以“前额叶-前扣带回-杏仁核-海马-小脑”构成的情感回路功能异常可能与PMDD发病密切相关。本文通过综述该情感回路相关脑区及脑区间的脑功能研究,为寻找PMDD的神经病变机制提供参考依据。