Fractional-order heterogeneous memristive Rulkov neuronal network and its medical image watermarking application

This article proposes a novel fractional heterogeneous neural network by coupling a Rulkov neuron with a Hopfield neural network(FRHNN),utilizing memristors for emulating neural synapses.The study firstly demonstrates the coexistence of multiple firing patterns through phase diagrams,Lyapunov exponents(LEs),and bifurcation diagrams.Secondly,the parameter related firing behaviors are described through two-parameter bifurcation diagrams.Subsequently,local attraction basins reveal multi-stability phenomena related to initial values.Moreover,the proposed model is implemented on a microcomputer-based ARM platform,and the experimental results correspond to the numerical simulations.Finally,the article explores the application of digital watermarking for medical images,illustrating its features of excellent imperceptibility,extensive key space,and robustness against attacks including noise and cropping.

Coexistence behavior of asymmetric attractors in hyperbolic-type memristive Hopfield neural network and its application in image encryption

The neuron model has been widely employed in neural-morphic computing systems and chaotic circuits.This study aims to develop a novel circuit simulation of a three-neuron Hopfield neural network(HNN)with coupled hyperbolic memristors through the modification of a single coupling connection weight.The bistable mode of the hyperbolic memristive HNN(mHNN),characterized by the coexistence of asymmetric chaos and periodic attractors,is effectively demonstrated through the utilization of conventional nonlinear analysis techniques.These techniques include bifurcation diagrams,two-parameter maximum Lyapunov exponent plots,local attractor basins,and phase trajectory diagrams.Moreover,an encryption technique for color images is devised by leveraging the mHNN model and asymmetric structural attractors.This method demonstrates significant benefits in correlation,information entropy,and resistance to differential attacks,providing strong evidence for its effectiveness in encryption.Additionally,an improved modular circuit design method is employed to create the analog equivalent circuit of the memristive HNN.The correctness of the circuit design is confirmed through Multisim simulations,which align with numerical simulations conducted in Matlab.

Fetal MRI Artifacts: Semi-Supervised Generative Adversarial Neural Network for Motion Artifacts Reducing in Fetal Magnetic Resonance Images

This study addresses challenges in fetal magnetic resonance imaging (MRI) related to motion artifacts, maternal respiration, and hardware limitations. To enhance MRI quality, we employ deep learning techniques, specifically utilizing Cycle GAN. Synthetic pairs of images, simulating artifacts in fetal MRI, are generated to train the model. Our primary contribution is the use of Cycle GAN for fetal MRI restoration, augmented by artificially corrupted data. We compare three approaches (supervised Cycle GAN, Pix2Pix, and Mobile Unet) for artifact removal. Experimental results demonstrate that the proposed supervised Cycle GAN effectively removes artifacts while preserving image details, as validated through Structural Similarity Index Measure (SSIM) and normalized Mean Absolute Error (MAE). The method proves comparable to alternatives but avoids the generation of spurious regions, which is crucial for medical accuracy.

From text to image:challenges in integrating vision into ChatGPT for medical image interpretation

Large language models(LLMs),such as ChatGPT developed by OpenAI,represent a significant advancement in artificial intelligence(AI),designed to understand,generate,and interpret human language by analyzing extensive text data.Their potential integration into clinical settings offers a promising avenue that could transform clinical diagnosis and decision-making processes in the future(Thirunavukarasu et al.,2023).This article aims to provide an in-depth analysis of LLMs’current and potential impact on clinical practices.Their ability to generate differential diagnosis lists underscores their potential as invaluable tools in medical practice and education(Hirosawa et al.,2023;Koga et al.,2023).

Transformation of MRI Images to Three-Level Color Spaces for Brain Tumor Classification Using Deep-Net

In the domain ofmedical imaging,the accurate detection and classification of brain tumors is very important.This study introduces an advanced method for identifying camouflaged brain tumors within images.Our proposed model consists of three steps:Feature extraction,feature fusion,and then classification.The core of this model revolves around a feature extraction framework that combines color-transformed images with deep learning techniques,using the ResNet50 Convolutional Neural Network(CNN)architecture.So the focus is to extract robust feature fromMRI images,particularly emphasizingweighted average features extracted fromthe first convolutional layer renowned for their discriminative power.To enhance model robustness,we introduced a novel feature fusion technique based on the Marine Predator Algorithm(MPA),inspired by the hunting behavior of marine predators and has shown promise in optimizing complex problems.The proposed methodology can accurately classify and detect brain tumors in camouflage images by combining the power of color transformations,deep learning,and feature fusion via MPA,and achieved an accuracy of 98.72%on a more complex dataset surpassing the existing state-of-the-art methods,highlighting the effectiveness of the proposed model.The importance of this research is in its potential to advance the field ofmedical image analysis,particularly in brain tumor diagnosis,where diagnoses early,and accurate classification are critical for improved patient results.

MRI T_2 star mapping、T_1 images与3D DESS融合图在隐匿性膝关节软骨损伤中的应用

目的探讨T_2 star mapping、T_1 images与3D DESS融合伪彩图在关节软骨损伤中的诊断价值。方法对26例关节软骨损伤患者行T_2 star mapping、T_1 images和3D DESS扫描,并将T_1 images、T_2 star mapping与3D DESS图像融合,评价患者股骨、胫骨、髌骨关节软骨损伤程度并与关节镜结果对比,计算融合伪彩图诊断软骨损伤的特异性、敏感性及与关节镜诊断结果一致性。结果 T_1 images-3D DESS融合伪彩图诊断关节软骨损伤的敏感度、特异度及Kappa值分别为92.8%、93.0%、0.769,T_2 star mapping-3D DESS融合伪彩图诊断关节软骨损伤的敏感度、特异度及Kappa值分别为91.4%、94.2%、0.787。结论 T_2 star mapping、T_1 images与3D DESS融合伪彩图在关节软骨早期损伤评价上优于关节镜。

MRI基于2023版国际妇产科联盟分期评估子宫内膜癌进展

子宫内膜癌(EC)是常见妇科恶性肿瘤;MRI对EC评估具有重要价值。2023年国际妇产科联盟(FIGO)分期做出重大修订,以更细致地对EC进行风险分层,也使MRI面临新的挑战。本文就MRI基于2023版FIGO分期评估EC进展进行综述。

乳腺癌前哨淋巴结MRI研究进展

无创性方法准确评估乳腺癌前哨淋巴结状态对于避免不必要的外科手术及选择最佳治疗方案具有重要意义。扩散加权成像(DWI)和动态增强MRI(DCE-MRI)等多种MRI技术可为术前评估乳腺癌前哨淋巴结状态提供有价值的信息。就MRI评估乳腺癌前哨淋巴结状态的研究进展进行综述。

基于脑MRI的机器学习预测非小细胞肺癌T790M突变

目的:本研究基于脑部T_(1)C和T_(2)W MRI建立人工智能模型,预测肺癌脑转移患者在靶向治疗中的耐药性T790M突变。方法:本研究收集80例肺癌脑转移患者(2017年6月—2019年12月)的T_(1)C和T_(2)W MRI影像和临床数据进行回顾性分析(患者按照2∶1的比例分成训练集和测试集)。采用无监督k-means算法将肿瘤区域划分为高亮度区域和低亮度区域,提取不同区域的影像组学图像特征构建模型,评估每个模型的诊断效果。绘制受试者工作特征(Receiver operating characteristic,ROC)曲线,计算ROC曲线下面积(Area under curve,AUC)、特异性和敏感性作为模型评价指标,分析模型的潜在临床应用价值。结果:对T_(1)C和T_(2)W MRI和临床特征融合的统计计算表明,本研究建立的模型对T790M突变具有良好的预测能力,在训练集和测试集上的AUC分别为0.899和0.818。结论:本研究建立的计算机模型可以有效预测肺癌脑转移患者T790M突变,具有潜在的临床辅助诊断价值。

MRI与X线联合评估乳腺非肿块样病变恶性风险的Logistic回归模型建立及应用评价

目的:基于MRI与X线特征建立乳腺非肿块样病变(Non-mass-like lesions,NML)恶性风险的预测模型,期望提高诊断准确率,为临床决策提供依据。方法:对我院2021年7月-2023年4月符合纳入标准的150例患者的资料进行回顾性分析,使用Logistic回归构建NML恶性风险预测模型及列线图,采用校准曲线评估模型准确度,用受试者工作特征(ROC)曲线评估模型的诊断效能。结果:多因素分析显示簇状环形强化、时间-信号强度曲线(TIC)类型、ADC值、线样及段样分布钙化等影像特征是预测病变恶性风险的因素。基于MRI特征的模型的ROC曲线下面积为0.941,灵敏度为88.7%,特异度为86.6%。基于MRI联合X线特征的模型的ROC曲线下面积为0.951,灵敏度为91.5%,特异度为91.4%,校准曲线预测准确度较好。结论 :基于MRI联合X线特征建立的乳腺NML恶性风险Logistic回归模型诊断效能较高,具有一定的应用潜力。

动态对比增强MRI评估化学治疗用于兔VX2恶性骨肿瘤模型早期效果

目的观察动态对比增强MRI(DCE-MRI)评估化学治疗(简称化疗)用于兔VX2恶性骨肿瘤模型早期效果的价值。方法以30只实验兔成功建立VX2恶性骨肿瘤模型,以其中14只为化疗组,经静脉注射顺铂7 mg/kg体质量,以另16只为对照组,经静脉注射等量生理盐水。分别于造模2周后(干预前)及干预后3天采集平扫MRI及DCE-MRI,对MRI与病理所见进行点对点对照,获取瘤体区域容积转移常数(K^(trans))、速率常数(K_(ep))、血管外细胞外容积分数(V_(e))及血浆容积分数(V_(p)),以及微血管密度(MVD)。比较组内干预前、后MRI结果,以及干预后组间MRI结果,以受试者工作特征(ROC)曲线及曲线下面积(AUC)评估各参数判断是否曾接受化疗的效能,分析干预后DCE-MRI各参数与MVD的相关性。结果化疗组干预前、后平扫MRI所见肿瘤最大径差异无统计学意义(P>0.05)。相比干预前,化疗组实体瘤区域K^(trans)、K_(ep)均降低、对照组均升高(P均<0.05),而2组V_(e)及V_(p)差异均无统计学意义(P均>0.05)。干预后化疗组K^(trans)及K_(ep)值均低于对照组(P均<0.05),而组间V_(e)及V_(p)差异均无明显统计学意义(P均>0.05)。以K^(trans)、K_(ep)、V_(e)及V_(p)判断是否曾接受化疗的AUC分别为0.964、0.933、0.317及0.455。干预后化疗组实体瘤区域MVD低于对照组(P<0.05);2组实体瘤区域K^(trans)、K_(ep)值均与MVD呈正相关(r=0.876、0.881,P均<0.05),而V_(e)或V_(p)值与MVD无显著相关性(r=0.118、0.202,P均>0.05)。结论DCE-MRI定量分析参数K^(trans)和K_(ep)可较为敏感地反映化疗用于VX2恶性骨肿瘤模型兔早期效果及其MVD变化。

颈部影像报告和数据系统在MRI诊断早期单纯黏膜型鼻咽癌局部复发中的应用

目的探讨颈部影像报告和数据系统(neck imaging reporting and data systems,NI-RADS)MRI对单纯黏膜型鼻咽癌局部复发(exclusive mucosal local recurrent nasopharyngeal carcinoma,EMLRNPC)与黏膜治疗后改变(mucosal posttreatment changes,MPTC)的诊断价值,尝试为NI-RADS MRI词典中的局灶性黏膜异常建议附加定性扩散加权成像(diffusion-weighted imaging,DWI)标准。材料与方法回顾性分析2015年2月至2023年2月经病理或影像随访确诊的21例EMLRNPC和29例MPTC。先由2名影像医师独立评价MRI表现,进行NI-RADS MRI分类,再进行附加定性DWI标准的改良NI-RADS MRI分类,3个月后,由其中的1名高年资影像医师再次进行分类。采用Cohen’s Kappa检验评估观察者间、观察者内NI-RADS分类一致性。绘制受试者工作特征(receiver operating characteristic,ROC)曲线评价这两种NI-RADS分类对EMLRNPC与MPTC的诊断效能,曲线下面积(area under the curve,AUC)的比较采用DeLong检验。结果NI-RADS MRI、改良NI-RADS MRI的分类观察者间与观察者内一致性为0.69与0.88、0.83与0.96。NI-RADS MRI和改良NI-RADS MRI鉴别诊断ELRNPC与MPTC的AUC、敏感度、特异度为0.845[95%置信区间(confidence interval,CI):0.715~0.932]、100.0%(95%CI:83.9%~100.0%)、69.0%(95%CI:49.2%~84.7%)和0.966(95%CI:0.871~0.997)、100.0%(95%CI:83.9%~100.0%)、93.1%(95%CI:77.2%~99.2%),两种分类的AUC间差异有统计学意义(Z=2.985,P=0.003)。结论NI-RADS MRI与附加定性DWI标准的改良NI-RADS MRI对EMLRNPC与MPTC均具有较高的鉴别诊断价值,改良NI-RADS MRI分类的诊断效能、一致性更高。

增强MRI多模态定量参数及DWI定量参数与原发性肝癌癌细胞恶性行为的相关性

目的:探寻增强MRI多模态定量参数及扩散加权成像(Diffusion weighted imaging,DWI)定量参数与原发性肝癌(Primary liver cancer,PLC)癌细胞恶性行为的相关性。方法:回顾性收集2019年1月—2023年10月我院收治的93例PLC患者的临床资料作为PLC组,另外收集同期50例肝脏良性疾病患者的临床资料作为对照1组,健康志愿者50例作为对照2组,比较3组及不同病理特征PLC患者间增强MRI多模态定量参数与DWI定量参数(T1、T2、灌注分数(f)、真实扩散系数(D)、灌注扩散系数(D*)、表观弥散系数(ADC))的差异。结果:PLC组患者的T1、f、D*值高于对照1组与对照2组,T2、D、ADC值低于对照1组与对照2组(P<0.05)。PLC组分期为Ⅲ~Ⅳ期、肿瘤直径≥5 cm、肝功能Child-Pugh分级为B级及C级患者的T1、f、D*值较高,T2、D、ADC值较低(P<0.05)。与癌旁组织比较,PLC组肝癌组织的HIF-1α、APE1、COL4A1、PI3K及Akt的mRNA表达量较高,FOXP2、p53的m RNA表达量较低(P<0.05)。Pearson相关性分析显示,T1、f、D*值与肝癌组织的HIF-1α、APE1、COL4A1、PI3K、Akt的mRNA表达量呈正相关,与FOXP2、p53的mRNA表达量呈负相关(P<0.05);T2、D、ADC值与肝癌组织的HIF-1α、APE1、COL4A1、PI3K、Akt的mRNA表达量呈负相关,与FOXP2、p53的mRNA表达量呈正相关(P<0.05)。结论:与肝脏良性疾病患者及健康人群比较,PLC患者增强MRI多模态定量参数及DWI定量参数发生显著变化,且相关定量参数均与PLC癌细胞恶性行为密切相关。

合成MRI定量参数区分三阴性与非三阴性乳腺癌的价值

目的:探讨合成MRI定量参数区分三阴性乳腺癌(TNBC)与非TNBC的价值。方法:回顾性收集经病理证实的186例乳腺病变患者,术前均完成乳腺常规与合成MRI检查。采用ICC和Bland-Altman图分析不同观察者获得合成MRI定量参数的一致性。单、多因素logistic回归分析合成MRI定量参数区分TNBC与非TNBC的价值,并绘制受试者工作特征曲线(ROC),计算曲线下面积(AUC)及敏感度、特异度。结果:基于3D-ROI获得的T_(1)、T_(2)和PD值的一致性ICC_(3D)(0.994、0.996和0.989)优于2D-ROI (0.848、0.850、0.898)。T_(1)-均值、T_(2)-均值联合模型区分TNBC与Luminal A型乳腺癌ROC曲线的AUC值为0.79(95%CI:0.65~0.88),敏感度为56.67%,特异度为88.00%。T_(2)-均值区分TNBC与Luminal B型乳腺癌ROC曲线的AUC值为0.74(95%CI:0.64~0.82),敏感度为63.66%,特异度为80.88%。PD-均值区分TNBC与HER2过表达型乳腺癌ROC曲线的AUC值为0.70(95%CI:0.55~0.82),敏感度为80.00%,特异度为55.00%。结论:不同观察者基于3D-ROI获得的合成MRI定量参数的可重复性高于2D-ROI;合成MRI定量参数可以为区分TNBC与非TNBC提供帮助。

肝脏滤泡树突状细胞肉瘤的MRI特征

目的:探讨肝脏滤泡树突状细胞肉瘤(FDCS)的MRI特征。方法:回顾性分析7例经手术及病理证实的肝脏FDCS的术前MRI表现特征。MRI图像分析包括观察病灶部位、大小、形态、边缘、病灶内囊变、出血、脂肪,平扫信号、强化方式和其他伴随征象,有无肝包膜回缩,邻近胆管有无扩张、肝门区及腹膜后有无淋巴结转移等征象。结果:7个病灶均为肝内单发类圆形或椭圆形病灶,边缘清晰光滑,肿瘤实性部分T1WI呈低信号,T2WI呈高信号,DWI呈高信号,ADC图实性部分呈低或稍低信号,2个病灶表现为信号均匀的实性肿块,5个病灶为实性肿块伴有不同程度的囊变,其中1个病灶囊变明显,并见出血。动态增强扫描5个病灶表现为“速升平台型”模式;2个病灶表现为“速升缓降型”模式;1个病灶周围异常灌注,2个病灶见延迟强化的包膜;1个病灶周围胆管轻度扩张,所有病例肝门区及腹膜后未见肿大淋巴结。结论:肝脏FDCS的MRI表现有一定的特征,多表现为边界清楚的肿块,常伴有不同程度囊变,实性部分信号均质,动脉期均呈明显强化,多数表现为明显持续强化。

基于CT及MRI特征的Logistic回归模型鉴别多房样肝囊肿与肝黏液性囊性肿瘤的价值

目的 基于多房样肝囊肿及肝黏液性囊性肿瘤(MCN)的CT及MRI特征建立Logistic回归模型,并分析其对两者鉴别诊断的价值。方法 回顾性分析65例多房样肝囊性病变的CT及MRI资料,其中男13例、女52例。根据手术病理结果将其分为肝囊肿病变(39例)与肝MCN病变(26例)。采用卡方检验比较2组影像特征,对组间差异有统计学意义的CT及MRI征象进行多因素分析,建立二元Logistic回归模型。采用受试者操作特征(ROC)曲线评估模型预测效能,并计算其曲线下面积(AUC)、敏感度、特异度及准确度。结果 肝囊肿及肝MCN间的囊性病变数量、囊壁及分隔外观、囊壁或分隔结节样凸起、实性部分厚度>10 mm、分隔类型、分隔位置、分隔与囊壁的关系,其差异均具有统计学意义(均P<0.05)。多因素Logistic回归分析显示,分隔类型、分隔与囊壁的关系是肝囊肿及肝MCN的独立预测因素(P<0.05),采用这2个因素构建二元Logistic回归模型,该回归模型的诊断效能(AUC=0.871)比单独使用分隔类型、分隔与囊壁的关系的要高(AUC分别为0.699、0.795)。结论 基于分隔类型、分隔与囊壁的关系联合构建的Logistic回归模型能够较好地鉴别多房样肝囊肿及肝MCN,有助于提高肝囊肿及肝MCN术前影像诊断水平。

前列腺癌多参数MRI诊断及误诊原因分析

目的 探讨前列腺癌临床特点、多参数MRI表现,总结其误诊原因及防范措施。方法 对2020年4月—2022年2月收治的多参数MRI检查后误诊为膀胱癌、前列腺增生的前列腺癌10例的临床资料进行回顾性分析。结果 10例年龄54~73岁。6例因尿急、尿频、尿潴留、排尿困难就诊,直肠指诊示前列腺肥大,查血清前列腺特异性抗原升高,多参数MRI及前列腺穿刺活组织病理检查未发现前列腺肿瘤证据,误诊为前列腺增生,后经术后病理检查确诊T1期前列腺癌。4例以尿痛、血尿、排尿困难就诊,经多参数MRI检查误诊为膀胱癌,查血清前列腺特异性抗原升高,直肠指诊发现前列腺肥大,再次行多参数MRI和前列腺组织穿刺活组织病理检查证实为前列腺癌累及膀胱。误诊时间4~10 d。误诊为前列腺增生6例接受根治性手术,误诊为膀胱癌4例予内分泌和放射治疗,随访至今病情控制尚可。结论 临床接诊以尿急、尿频、尿潴留、排尿困难等症状就诊的中老年男性患者时应考虑到前列腺癌可能。加强对前列腺癌影像学特征认识,行多参数MRI检查时重点观察前列腺结构、包膜完整与否、膀胱壁连续性等重要特征,必要时可行前列腺穿刺活组织病理检查,以提高该病术前诊断正确率。

基于多模态MRI定量分析诊断宫颈癌宫旁浸润的研究

目的探讨多模态MRI定量分析诊断宫颈癌宫旁浸润的价值。方法回顾性分析2019年1月~2021年12月新疆维吾尔自治区人民医院收治的86例宫颈癌患者临床资料,根据病理结果分为宫旁浸润组31例与非宫旁浸润组55例。所有患者均接受MRI常规平扫及扩散加权成像(DWI)扫描、动态对比增强磁共振成像(DCE-MRI)扫描,获得感兴趣区表观弥散系数(ADC)值和对比剂容积转换常量(K^(trans))、速率常数(K_(ep))、血管外细胞间隙容积分数(V_(e))值等多模态MRI定量参数。比较宫旁浸润组和非宫旁浸润组临床特征、ADC值和DCE-MRI定量参数;Pearson相关性分析宫颈癌宫旁浸润患者ADC值和K^(trans)、K_(ep)、V_(e)的关系;受试者工作特征曲线(ROC)分析ADC值和K^(trans)、K_(ep)、V_(e)对宫颈癌宫旁浸润的诊断效能。结果宫旁浸润组与非宫旁浸润组肿瘤直径和病理分级的分布差异比较,差异有统计学意义(P<0.05);宫旁浸润组K^(trans)、K_(ep)和V_(e)均明显高于非宫旁浸润组(P<0.05);Pearson相关性显示,宫颈癌宫旁浸润患者ADC值与V_(e)值呈明显的正相关(P<0.05);ROC显示,K^(trans)、K_(ep)、V_(e)值诊断宫颈癌宫旁浸润的曲线下面积(AUC)分别为0.876、0.821和0.864(P<0.05)。结论多模态MRI定量参数对宫颈癌宫旁浸润具有较好的诊断价值,可为宫颈癌宫旁浸润的影像诊断提供量化参考。

Characterization of neurovascular compression in facial neuralgia patients by 3D high-resolution MRI and image fusion technique

Objective:To describe the anatomical characteristics and patterns of neurovascular compression (NVC) in patients suffering trigeminal neuralgia(TN) by 3D high-resolution magnetic resonance imaging(MRI) method and image fusion technique.Methods:The anatomic structure of trigeminal nerve,brain stem and blood vessel was observed in 100 consecutive TN patients by 3D high resolution MRI(3D SPGR,contrast-enhanced T1 3D MP-RAGE and T2/T1 3D FIESTA). The 3D image sources were fused and visualized using 3D DOCTOR software.Results:One or several NVC sites,which usually appeared 0-9.8 mm away from brain stem,were found on the symptomatic side in 93%of the TN cases.Superior cerebellar artery was involved in 76%(71/93) of these cases.The other vessels including antero-inferior cerebellar artery,vertebral artery, basilar artery and veins also contributed to the occurrence of NVC.The NVC sites were found to be located in the proximal segment in 42%of these cases(39/93) and in the distal segment in 45% (42/93).Nerve dislocation or distortion was observed in 32%(30/93).Conclusions:Various 3D high resolution MRI methods combined with the image fusion technique could provide pathologic anatomic information for the diagnosis and treatment of TN.

糖尿病周围神经病变多模态MRI研究进展

糖尿病周围神经病变(diabetes peripheral neuropathy,DPN)是较常见的糖尿病慢性并发症,严重影响患者生活质量。DPN发病机制比较复杂,目前研究表明与神经病理性改变关系密切。近些年多模态MRI获得长足进展,MRI以软组织分辨率高、无创、无辐射等优点著称,成为探索DPN中枢神经及周围神经发病机制的重要方法。本文应用基于体素的形态学测量(voxel-based morphometry,VBM)、弥散张量成像(diffusion tensor imaging,DTI)、功能MRI(functional MRI,fMRI)等技术,对研究DPN脑结构、脑功能改变以及周围神经结构异常的文献进行综述,为临床早期诊断和制订精准治疗方案提供依据。