Three-dimensional arterial spin labeling and diffusion kurtosis imaging in evaluating perfusion and infarct area size in acute cerebral ischemia

BACKGROUND Early thrombolytic therapy is crucial to treat acute cerebral infarction,especially since the onset of thrombolytic therapy takes 1-6 h.Therefore,early diagnosis and evaluation of cerebral infarction is important.AIM To investigate the diagnostic value of magnetic resonance multi-delay threedimensional arterial spin labeling(3DASL)and diffusion kurtosis imaging(DKI)in evaluating the perfusion and infarct area size in patients with acute cerebral ischemia.METHODS Eighty-four patients who experienced acute cerebral ischemia from March 2019 to February 2021 were included.All patients in the acute stage underwent magnetic resonance-based examination,and the data were processed by the system’s own software.The apparent diffusion coefficient(ADC),average diffusion coefficient(MD),axial diffusion(AD),radial diffusion(RD),average kurtosis(MK),radial kurtosis(fairly RK),axial kurtosis(AK),and perfusion parameters post-labeling delays(PLD)in the focal area and its corresponding area were compared.The correlation between the lesion area of cerebral infarction under MK and MD and T2-weighted imaging(T2WI)was analyzed.RESULTS The DKI parameters of focal and control areas in the study subjects were compared.The ADC,MD,AD,and RD values in the lesion area were significantly lower than those in the control area.The MK,RK,and AK values in the lesion area were significantly higher than those in the control area.The MK/MD value in the infarct lesions was used to determine the matching situation.MK/MD<5 mm was considered matching and MK/MD≥5 mm was considered mismatching.PLD1.5s and PLD2.5s perfusion parameters in the central,peripheral,and control areas of the infarct lesions in MK/MD-matched and-unmatched patients were not significantly different.PLD1.5s and PLD2.5s perfusion parameter values in the central area of the infarct lesions in MK/MD-matched and-unmatched patients were significantly lower than those in peripheral and control areas.The MK and MD maps showed a lesion area of 20.08±5.74 cm^(2) and 22.09±5.58 cm^(2),respectively.T2WI showed a lesion area of 19.76±5.02 cm^(2).There were no significant differences in the cerebral infarction lesion areas measured using the three methods.MK,MD,and T2WI showed a good correlation.CONCLUSION DKI parameters showed significant difference between the focal and control areas in patients with acute ischemic cerebral infarction.3DASL can effectively determine the changes in perfusion levels in the lesion area.There was a high correlation between the area of the infarct lesions diagnosed by DKI and T2WI.

Cerebral blood flow volume measurements of the carotid artery and ipsilateral branches using two-dimensional phase-contrast magnetic resonance angiography

The optimal velocity encoding of phase-contrast magnetic resonance angiography （PC MRA） in measuring cerebral blood flow volume （BFV） ranges from 60 to 80 cm/s. To verify the accuracy of two-dimensional （2D） PC MRA, the present study localized the region of interest at blood vessels of the neck using PC MRA based on three-dimensional time-of-flight sequences, and the velocity encoding was set to 80 cm/s. Results of the measurements showed that the error rate was 7.0±6.0% in the estimation of BFV in the internal carotid artery, the external carotid artery and the ipsilateral common carotid artery. There was no significant difference, and a significant correlation in BFV between internal carotid artery ＋ external carotid artery and ipsilateral common carotid artery. In addition, the BFV of the common carotid artery was correlated with that of the ipsilateral internal carotid artery. The main error was attributed to the external carotid artery and its branches. Therefore, after selecting the appropriate scanning parameters and protocols, 2D PC MRA is more accurate in the determination of BFV in the carotid arteries.

Reliability of Three Dimentional Pseudo-continuous Arterial Spin Labeling:A Volumetric Cerebral Perfusion Imaging with Different Post-labeling Time and Functional State in Health Adults

Objective To evaluate the reliability of three dimensional spiral fast spin echo pseudo-continuous arterial spin labeling(3 D pc-ASL) in measuring cerebral blood flow(CBF) with different post-labeling delay time(PLD) in the resting state and the right finger taping state.Methods 3 D pc-ASL and three dimensional T1-weighted fast spoiled gradient recalled echo(3 D T1-FSPGR) sequence were applied to eight healthy subjects twice at the same time each day for one week interval. ASL data acquisition was performed with post-labeling delay time(PLD) 1.5 seconds and 2.0 seconds in the resting state and the right finger taping state respectively. CBF mapping was calculated and CBF value of both the gray matter(GM) and white matter(WM) was automatically extracted. The reliability was evaluated using the intraclass correlation coefficient(ICC) and Bland and Altman plot.Results ICC of the GM(0.84) and WM(0.92) was lower at PLD 1.5 seconds than that(GM, 0.88; WM, 0.94) at PLD 2.0 seconds in the resting state, and ICC of GM(0.88) was higher in the right finger taping state than that in the resting state at PLD 1.5 seconds. ICC of the GM and WM was 0.71 and 0.78 for PLD 1.5 seconds and PLD 2.0 seconds in the resting state at the first scan, and ICC of the GM and WM was 0.83 and 0.79 at the second scan, respectively.Conclusion This work demonstrated that 3 D pc-ASL might be a reliable imaging technique to measure CBF over the whole brain at different PLD in the resting state or controlled state.

Arterial spin labeling in neuroimaging

Arterial spin labeling(ASL) is a magnetic resonance imaging technique for measuring tissue perfusion using a freely diffusible intrinsic tracer.As compared with other perfusion techniques,ASL offers several advantages and is now available for routine clinical practice in many institutions.Its noninvasive nature and ability to quantitatively measure tissue perfusion make ASL ideal for research and clinical studies.Recent technical advances have increased its sensitivity and also extended its potential applications.This review focuses on some basic knowledge of ASL perfusion,emerging techniques and clinical applications in neuroimaging.

More Peripheral Visualization of Hepatic Arteries by Using Respiratory-Triggered 3D True Steady-State Free-Precession Projection Magnetic Resonance Angiographic Sequences with Time-Spatial Labeling Inversion Pulse

Purpose: To evaluate respiratory-triggered three-dimensional (3D) true steady-state free-precession (SSFP) projection magnetic resonance angiographic sequences with time-spatial labeling inversion pulse (Time-SLIP) for visualizing the hepatic arteries and to optimize the image acquisition protocol. Materials and Methods: A 1.5-T clinical magnetic resonance imager was used to perform abdominal magnetic resonance angiography (MRA) in 25 consecutive patients before transcatheter arterial chemoembolization or surgery. We compared two selective space-labeling inversion pulse (tag pulse) patterns (Patterns I and II, oblique and parallel tag pulses, respectively). Two experienced radiologists evaluated the number of hepatic arterial branches visible on the acquired MRA images, and the results were referenced with those on images from intra-arterial digital subtraction angiography. Results: Images were acquired from all patients. The two radiologists clearly visualized branches of the left and right hepatic arteries. More peripheral hepatic arterial branches were identified in MRA images captured by using tag pulse Pattern I than in those acquired by using Pattern II (P P > 0.05). Conclusion: Non-contrast-enhanced Time-SLIP hepatic MRA with true SSFP allowed selective visualization of peripheral hepatic vessels.

Current and future applications of magnetic resonance imaging and spectroscopy of the brain in hepatic encepha-lopathy

Hepatic encephalopathy （HE） is a common neuropsychiatric abnormality, which complicates the course of patients with liver disease and results from hepatocellular failure and/or portosystemic shunting. The manifestations of HE are widely variable and involve a spectrum from mild subclinical disturbance to deep coma. Research interest has focused on the role of circulating gut-derived toxins, particularly ammonia, the development of brain swelling and changes in cerebral neurotransmitter systems that lead to global CNS depression and disordered function. Until recently the direct investigation of cerebral function has been difficult in man. However, new magnetic resonance imaging （MRI） techniques provide a non-invasive means of assessment of changes in brain volume （coregistered MRI） and impaired brain function （fMRI）, while proton magnetic resonance spectroscopy （^1H MRS） detects changes in brain biochemistry, including direct measurement of cerebral osmolytes, such as myoinositol, glutamate and glutamine which govern processes intrinsic to cellular homeostasis, including the accumulation of intracellular water. The concentrations of these intracellular osmolytes alter with hyperammonaemia. MRS-detected metabolite abnormalities correlate with the severity of neuropsychiatric impairment and since MR spectra return towards normal after treatment, the technique may be of use in objective patient monitoring and in assessing the effectiveness of various treatment regimens.

Hyperperfusion of Multiple Sclerosis Plaques Characterized by 3D FSE Arterial Spin Labelling

MULTIPLE sclerosis （MS） is a common inflammatory demyelinating disorder of central nervous system, and the disease burder could be well evaluated by conven-tional magnetic resonance imaging （MRI）,1 including T2-weighted, fluid-attenuatd inversion recovery, and postcontrast Tl-weighted sequences. 2 We investigated the perfusion state of MS plaques using brain perfusion imaging in a 12-year-old boy with MS.

Computer-aided differential diagnosis system for Alzheimer’s disease based on machine learning with functional and morphological image features in magnetic resonance imaging

Alzheimer’s disease (AD) is a dementing disorder and one of the major public health problems in countries with greater longevity. The cerebral cortical thickness and cerebral blood flow (CBF), which are considered as morphological and functional image features, respectively, could be decreased in specific cerebral regions of patients with dementia of Alzheimer type. Therefore, the aim of this study was to develop a computer-aided classification system for AD patients based on machine learning with the morphological and functional image features derived from a magnetic resonance (MR) imaging system. The cortical thicknesses in ten cerebral regions were derived as morphological features by using gradient vector trajectories in fuzzy membership images. Functional CBF maps were measured with an arterial spin labeling technique, and ten regional CBF values were obtained by registration between the CBF map and Talairach atlas using an affine transformation and a free form deformation. We applied two systems based on an arterial neural network (ANN) and a support vector machine (SVM), which were trained with 4 morphological and 6 functional image features, to 15 AD patients and 15 clinically normal (CN) subjects for classification of AD. The area under the receiver operating characteristic curve (AUC) values for the two systems based on the ANN and SVM with both image?features were 0.901 and 0.915, respectively. The AUC values for the ANN-and SVM-based systems with the morphological features were 0.710 and 0.660, respectively, and those with the functional features were 0.878 and 0.903, respectively. Our preliminary results suggest that the proposed method may have potential for assisting radiologists in the differential diagnosis of AD patients by using morphological and functional image features.

Morphological and functional evaluation of chronic kidney disease using magnetic resonance imaging

X-ray computed tomography(CT),ultrasonography(US)and radionuclide scanning are important clinical methods for evaluating morphology of the kidney.These modalities are also applicable for estimating kidney function with time lapse analysis using proper contrastmedia as may be necessary.In the case of US,it can estimate kidney function based on the measurement of blood flow using the Doppler effect.Formerly,magnetic resonance imaging(MRI)was an inappropriate diagnostic imaging technique for abdominal organs because of their respiratory displacements.However,MRI is now actively used for kidney as well as liver or other parenchymal organs,in tandem with the technological advances.Unlike unenhanced X-ray CT,"conventional"MRI can distinguish the border between cortex and medulla in T1 or T2 weighted images.It was known that the border blurred with decreasing kidney function.Moreover,several other particular imaging methods were introduced in recent years,and these could be called"functional"MRI.In this review,the following are discussed:functional MRI for chronic kidney disease,which include blood oxygenation level-dependent MRI for evaluation of hypoxia,diffusion-weighted imagingfor evaluation of fibrosis,diffusion tensor imaging for evaluation of microstructure,and arterial spin labeling to evaluate the amount of organ perfusion,accompanied with several related articles.The ultimate goal of functional MRI is to provide useful in vivo information repeatedly for daily medical treatment non-invasively.

动脉自旋标记成像观察帕金森病患者纹状体-丘脑-皮层环路的代谢网络连接属性

目的 从代谢网络连接的角度探讨帕金森病(Parkinson’s disease, PD)患者纹状体-丘脑-皮层(striatal-thalamo-cortical,STC)环路紊乱的影像学特征。材料与方法 采用动脉自旋标记成像技术,获取62名PD患者以及65名健康对照(healthy control,HC)受试者的脑血流量(cerebral blood flow, CBF)数据。基于CBF信息计算两组STC环路代谢网络的连接属性,包括种子点-连接、皮层-连接及模块-连接。随后使用置换检验分别进行三种网络连接的组间比较。结果 两组的年龄、性别、受教育程度及认知量表评分差异均无统计学意义(P>0.05)。相较于HC受试者,PD患者其种子点-连接值在双侧颞下回、双侧梭状回、双侧额中回、左侧枕中回以及右侧中央后回等脑区显著增高,而在双侧颞中回、左侧额直回、左侧颞上回、双侧额下回、双侧楔前叶、右侧辅助运动区以及双侧顶下回等脑区显著减低(P<0.05);其与感觉运动皮层存在显著增强的皮层-连接、而与运动皮层及顶-枕叶皮层存在显著减弱的皮层-连接(P<0.05);模块-连接于额叶模块与运动模块、感觉运动模块与顶-枕叶模块以及顶-枕叶模块与颞叶模块之间呈现显著升高;而于额叶模块与颞叶模块、运动模块与顶-枕叶模块以及感觉运动模块与颞叶模块之间呈现显著降低(P<0.05)。结论 PD患者存在代谢层面的神经网络紊乱,涉及到STC环路内以基底节区为枢纽的广泛性连接异常。

多导睡眠监测联合磁共振动脉自旋标记灌注检查在失眠症诊断中的应用

目的:研究多导睡眠监测联合磁共振动脉自旋标记灌注检查在失眠症诊断中的应用。方法:神经内科门诊收治的失眠症患者42名为研究对象,同期纳入对照组41名。对两组患者进行睡眠习惯问卷和医院焦虑抑郁量表评估,多导睡眠监测和磁共振动脉自旋标记灌注扫描。结果:失眠组入睡所需时间显著多于对照组(P<0.05),睡眠时长显著短于对照组(P<0.05);两组患者焦虑抑郁水平无显著差异;失眠组患者总睡眠时间及快动眼睡眠时间显著短于对照组(P<0.05),睡眠潜伏期显著高于对照组(P>0.05),非快动眼睡眠S1期显著高于对照组(P<0.05),而S2~S4期显著短于对照组(P<0.05);失眠组患者双侧前额叶、右侧颞叶、左侧顶叶、右侧丘脑、脑桥等区域灌注均显著升高(P<0.05),而双侧岛叶、双侧基底节等区域灌注均显著降低(P<0.05)。结论:多导睡眠监测联合磁共振动脉自旋标记灌注检查能够精确量化睡眠情况。

难治性癫痫患者海马灌注的3D-ASL成像评估

目的探讨难治性癫痫患者采用磁共振动脉自旋标记(ASL)技术评估海马灌注情况的价值。方法筛选2019-11-2021-11郴州市第一人民医院的105例受试者,均行海马3D-ASL检查,分为3组(单侧颞叶异常放电组、单侧海马硬化组、健康对照组),分析海马脑血流量(CBF)值与难治性颞叶癫痫的关系。结果健康对照组、单侧颞叶异常放电组患侧与健侧海马、单侧海马硬化组患侧与健侧海马的CBF值分别为(52.13±0.95)mL/(100 g·min)、(49.03±5.28)mL/(100 g·min)、(54.97±1.63)mL/(100 g·min)、(39.41±2.01)mL/(100 g·min)、(48.03±1.69)mL/(100 g·min),除健康对照组与单侧颞叶异常放电组健侧、单侧颞叶异常放电组健侧与单侧海马硬化组健侧比较无统计学差异外,其余组间比较差异均有统计学意义(P<0.00625)。对比健康对照组与单侧颞叶异常放电组患侧得出cut-off值,ROC曲线的最佳临界点为45.81。结论ASL技术在全身及系统性疾病中有一定的诊断价值,难治性颞叶癫痫患者的海马灌注量变化相较于影像学改变更早,有利于临床早期诊断和治疗。

MR动脉自旋标记成像技术在脑血管病及相关认知障碍疾病中的应用进展

动脉自旋标记(ASL)为无需对比剂的MR脑灌注成像技术,与金标准对比剂灌注成像具有良好的相关性。随着ASL在中枢神经系统重大疾病中的广泛应用,尤其是多延迟ASL、4D ASL和超选择单支血管标记技术在脑血管病及相关认知障碍疾病中的应用,大幅提升了ASL的应用效能。就ASL的技术进展及其在脑血管病和相关认知障碍疾病中的应用进行评述,以期在临床上进一步推广ASL新技术,为病人提供简便易行和经济的影像检查方法,为个体化诊断及治疗决策提供支持。

乳腺癌患者化疗后脑血流灌注异常的临床应用研究

目的应用磁共振成像中的动脉自旋标记(ASL)技术来探讨乳腺癌患者化疗后脑血流灌注变化及其与认知功能之间的相关性。方法前瞻性的收集43名自2020年1月至2022年12月经过手术病理证实的女性单侧乳腺癌患者(BC组),且所有患者在术后接受标准的化疗方案进行治疗。同时招募37名健康对照组(HC组),两组均采用西门子3.0T磁共振扫描仪进行常规头颅平扫及全脑ASL扫描,采用双样本t检验对各脑区脑血流量(CBF)值进行统计学分析。之后应用spearman相关性分析,探索存在血流灌注差异脑区的CBF值与神经量表之间的相关性。结果与HC组相比,BC组左侧小脑CrusII区、双侧颞中回CBF值降低,双侧豆状壳核CBF值增加(P<0.05,FWE校正)。相关性分析结果显示左侧小脑CrusII区、左侧颞中回、右侧颞中回CBF值与神经心理学量表MMSE呈正相关(r=0.429,P<0.01;r=0.413,P<0.01;r=0.405,P<0.01)。结论乳腺癌患者化疗后大脑存在多个脑区的脑血流灌注异常且存在与化疗相关的认知功能障碍。

常规磁共振序列联合ASL在儿童局灶性皮层发育不良中的诊断价值

目的:分析局灶性皮质发育不良(FCD)患儿常规MRI序列及动脉自旋标记(ASL)的扫描图像,探讨其对FCD的诊断价值。方法:回顾性分析2021年7月至2023年8月经病理确诊为FCD的30例患儿MRI图像,包括常规MRI T1WI、T2WI、FLAIR序列及ASL扫描序列,分析FCD不同分型的MRI影像学特点,并对ASL图像经后处理获得病变区脑血流量(CBF)值及同水平对侧正常区CBF值进行比较,计算常规MRI序列及常规MRI序列联合ASL扫描序列诊断FCD的准确率。结果:常规MRI序列评估结果阳性21例,准确率为70%。FCD I型6例,主要表现为局部脑组织容积偏小,灰白质模糊;FCD II型7例,以皮层增厚,皮层及皮层下片状T1WI稍低信号,T2WI高信号,T2-FAIR高信号为主,典型者呈Tansmantle征;FCD III型8例,合并海马硬化、肿瘤、血管畸形。常规MRI序列及ASL联合扫描示27例灌注异常,准确率为90%,27例病灶区CBF值[(48.15±6.00)mL/(100g·min)]低于对侧正常区CBF值[(79.66±6.53)mL/(100g·min)](t=18.458,P<0.001)。结论:不同分型FCD具有特征性影像表现,但I型病灶较隐匿,II型典型表现出现概率少,容易漏诊,III型容易被合并病灶掩盖,ASL扫描序列有助于FCD病灶的检出及定位,与常规MRI序列联合检查可进一步提高诊断FCD的准确率。

多参数功能MRI评价冷缺血再灌注肾损伤大鼠肾脏血流及氧合水平的价值

目的探讨动脉自旋标记(ASL)和血氧水平依赖(BOLD)技术评估冷缺血再灌注损伤(CIRI)大鼠肾脏血流和血氧微观改变的价值。方法将100只健康雄性SD大鼠随机分为4组,分别为肾脏冷缺血1 h组(CIRI 1 h)、冷缺血2 h组(CIRI 2 h)、冷缺血4 h组(CIRI 4 h)组及假手术组(CIRI 0 h),每组25只。每组随机选取5只分别在术前、术后(1 h、1 d、2 d、5 d)进行ASL及BOLD MRI,测量肾皮质的血流量(RBFCo)值及T_(2)^(*)值(T_(2)^(*)Co)、肾外的髓外带T_(2)^(*)值(T_(2)^(*)OSOM)和肾外髓内带T^(2*)值(T^(2*)ISOM)。随后切除大鼠左肾进行病理学分析并对肾小管损伤程度评分。采用单因素方差分析比较各组间及组内的不同时间点之间MRI参数和大鼠肾小管损伤程度评分之间的差异;采用Pearson相关分析MRI参数间及MRI参数与肾小管损伤程度评分的相关性。结果术后1 h,冷缺血组大鼠肾脏RBFCo、T_(2)^(*)_(Co)、T_(2)^(*)_(OSOM)值均较术前减低(均P<0.05);术后5 d,CIRI 0 h、CIRI 1 h组的RBFCo、T_(2)^(*)_(Co)、T_(2)^(*)_(OSOM)、T^(2*)_(ISOM)值恢复至其术前水平(均P>0.05),CIRI 4 h组上述指标仍低于术前水平(均P<0.05)。术后1 h、1 d、2 d,CIRI 4 h组T_(2)^(*)OSOM值均较其他各组低;术后5 d,CIRI 4 h组RBFCo、T^(2*)_(Co)、T^(2*)_(OSOM)、T^(2*)_(ISOM)值均低于CIRI 0 h组(均P<0.05)。CIRI 2 h组、CIRI 4 h组的术后各时间点的肾小管损伤程度评分均高于其术前(均P<0.05),术后随时间延长,评分呈减低趋势;术后各时间点,CIRI 4 h组评分均较CIRI 0 h、CIRI 1 h组高;术后1 h、2 d、5 d,CIRI 2 h组的评分均较CIRI 0 h、CIRI 1 h组的要高(均P<0.05)。RBF_(Co)、T_(2)^(*)Co、T_(2)^(*)_(OSOM)、T^(2*)_(ISOM)值与肾小管损伤评分均呈中度负相关(r=-0.714、-0.689、-0.518、-0.579,均P<0.001);RBFCo值与T_(2)^(*)_(Co)、T^(2*)_(OSOM)、T^(2*)_(ISOM)值呈中度正相关(r=0.704、0.525、0.612,均P<0.001);T_(2)^(*)_(Co)值与T_(2)^(*)_(OSOM)、T_(2)^(*)_(ISOM)值呈中度正相关(r=0.685、0.572,均P<0.001);T_(2)^(*)_(OSOM)值与T_(2)^(*)_(ISOM)值呈中度正相关(r=0.606,P<0.001)。结论ASL和BOLD成像可动态评估肾CIRI后组织血流及氧合水平的微观变化,为早期发现肾CIRI提供影像学依据。

多模态MRI功能成像在脑胶质瘤术后复发与治疗后反应评估中的价值

目的比较MR扩散加权成像(DWI)、三维动脉自旋标记成像(3D ASL)在鉴别脑胶质瘤术后复发与治疗后反应的诊断价值,为临床精准治疗提供客观依据。方法回顾分析我院2019年1月-2023年7月间行脑胶质瘤手术,术后放化疗1月以上,随访过程中首次出现异常强化病灶者47例,进行MRI平扫、DWI、3D ASL、增强扫描检查,分别测量DWI的表观扩散系数(ADC)值和相对ADC(rADC)值、3D ASL的血流动力学参数CBF值和相对CBF(rCBF)值。利用两样本t检验、受试者工作特征曲线(ROC)分析来评估研究参数在鉴别治疗后反应方面的诊断与胶质瘤术后复发效能。结果47例患者中,30例为脑胶质瘤复发,17例为治疗后反应,1.脑胶质瘤复发强化区CBF值为(119.16±18.58)mL/100g/1min,治疗后反应区的CBF值为(72.06±22.77)mL/100g/1min,差异有统计学意义(P<0.05);脑胶质瘤复发强化区rCBF值为3.56±1.13,放射损伤区的rCBF值为1.18±0.39,差异有统计学意义(P<0.05);2.ADC在脑胶质瘤复发和治疗后反应之间没有明显差异(P=0.235);rADC(P<0.05)在脑胶质瘤复发和治疗后反应之间差异有统计学意义;3.3D ASL(rCBF)诊断脑胶质瘤复发曲线下面积约0.971,ADC诊断脑胶质瘤复发曲线下面积约为0.675。结论与DWI序列相比,3D ASL成像技术在鉴别胶质瘤复发和治疗后反应方面显示出更好的诊断效能。

动脉自旋标记联合扩散张量成像对腮腺肿瘤的鉴别诊断价值

目的探讨应用动脉自旋标记(arterial spin labeling,ASL)和扩散张量成像(diffusion tensor imaging,DTI)评价多参数MRI在鉴别腮腺肿瘤中的临床价值。材料与方法回顾性分析滨州医学院附属医院2019年6月至2023年11月66名经手术病理证实的腮腺肿瘤患者,术前均行3D ASL和DTI,并测量肿瘤最大血流量(maximum tumor blood flow,TBFmax)和最小表观扩散系数(minimum apparent diffusion coefficient,ADCmin)、各向异性分数(fraction anisotropy,FA)。使用Mann-Whitney U检验或Kruskal-Wallis检验比较良性肿瘤(benign tumors,BT)和恶性肿瘤(malignant tumors,MT)的各参数值。使用受试者工作特征(receiver operating characteristic,ROC)曲线分析评估各参数和联合有差异的参数对腮腺肿瘤的诊断效能。结果66例腮腺肿瘤患者中,BT 55例[其中Warthin瘤(Warthin tumors,WT)15例,多形性腺瘤(pleomorphic adenomas,PA)23例,其他17例],MT11例。BT的FA值低于MT(0.13±0.06 vs.0.18±0.04,P=0.003)。PA的TBFmax值[(43.72±37.64)mL/(100 g·min^(-1))]低于MT[(92.56±58.26)mL/(100 g·min^(-1))](P<0.001)和WT[(145.26±64.54)mL/(100 g·min^(-1))](P=0.016)。PA的ADCmin值[(1.55±0.51)×10^(-3)mm^(2)/s]高于MT[(1.11±0.28)×10^(-3)mm^(2)/s](P=0.016)和WT[(1.03±0.53)×10^(-3)mm^(2)/s](P<0.001)。MT的FA值(0.18±0.05)高于PA(0.11±0.04)(P<0.001)和WT(0.12±0.02)(P=0.015)。FA鉴别腮腺BT与MT的曲线下面积(area under the curve,AUC)为0.78,敏感度、特异度分别为81.82%、70.18%。FA区分WT、PA与MT的AUC分别为0.85、0.87,敏感度分别为72.73%、100.00%,特异度分别为94.12%、65.22%。TBFmax、ADCmin鉴别WT与PA的AUC分别为0.90、0.85,敏感度分别为94.12%、95.65%,特异度分别为91.30%、82.35%。三者联合鉴别PA与MT的AUC可提高至0.98,敏感度为100.00%,特异度为86.96%。结论ASL联合DTI有助于鉴别诊断腮腺良恶性肿瘤,综合运用多参数各优势有助于区分WT、PA和MT。联合有差异的参数可显著提高区分PA与MT的诊断效能。

增强型动脉自旋标记成像在帕金森病脑灌注损伤中的应用研究

目的:探讨磁共振增强型动脉自旋标记(eASL)技术对细化帕金森病(PD)患者脑血流灌注损伤的价值以及在PD患者与健康对照者(HC)中的分类效能。方法:前瞻性将2020年7月-2022年1月在本院就诊的34例PD患者及年龄、性别以及受教育年限相匹配的35例HCs纳入本研究。采用eASL和常规ASL技术对每例被试行颅脑MR灌注成像,并通过数据后处理获取eASL定量参数[校正脑血流量(CBF)、动脉通过时间(ATT)]和常规ASL定量参数(未校正CBF)。采用双样本t检验比较各项灌注参数的组间差异,并应用Spearman相关分析对有显著差异脑区的灌注参数值与临床评分之间的相关性。进一步基于灌注参数构建机器学习模型,评估各分类模型对PD的诊断效能。结果:与未校正CBF相比,校正CBF能更为精准地检测出PD患者的运动相关责任脑区的灌注损伤,表现为PD患者右侧丘脑、双侧中央前回、左侧中央后回等脑区的CBF值增高以及右侧额中回的CBF值减低(FWE校正,P<0.001);而且,PD组左侧额中回的ATT值缩短(FWE校正,P<0.001)。PD组左侧壳核、左侧中央前回及左侧中央后回的校正CBF值、左侧壳核的未校正CBF值均与运动功能评分呈显著正相关(P<0.05);右侧角回的校正CBF值、左侧额中回的ATT值均与认知功能评分呈正相关(P<0.05)。未校正CBF模型在区分PD患者与HC受试者中的曲线下面积(AUC)为0.82,校正CBF模型的AUC为0.85,基于eASL的多参数联合模型的AUC为0.87。Delong检验显示联合模型的诊断效能优于未校正CBF模型(P<0.05)。结论:eASL技术能够准确显示PD患者灌注损伤脑区,并可反映脑组织ATT的异常改变,多灌注参数的结合能具有较好地PD分类诊断效能,从而为PD的临床诊断提供了一定的支撑依据。

基于TASL的急性前循环缺血性脑卒中药物治疗预后因素分析

目的探讨基于血管选择性动脉自旋标记(territorial arterial spin labeling,TASL)技术的急性前循环缺血性脑卒中(acute anterior circulation ischemic stroke,AACIS)药物治疗预后因素的影响性分析。材料与方法回顾性连续纳入确诊AACIS患者136例并根据其治疗后90 d的预后情况分为预后良好(70例)与预后不良(66例)两组。记录责任血管狭窄度、疗前选择性脑血流量(territorial cerebral blood flow,TCBF)、疗后TCBF_(10 d)、相对选择性脑血流量(relative CBF,rTCBF)以及病灶体积,同时收集患者的基线美国国立卫生研究院卒中量表评分(National Institute of Health Stroke Scale,NIHSS)、卒中分型、年龄、性别、身体质量指数等风险因素信息,将上述指标纳入统计模型。对两组间的计量资料使用Mann-Whitney U检验、计数资料使用χ^(2)检验统计其单因素差异性,对具有统计学意义的指标进行多因素联合logisitic回归分析,使用受试者工作特性曲线(receiver operating characteristic curve,ROC)对结果进行诊断效能评判。结果单因素分析中,年龄(Z=16.022)、基线NIHSS评分(Z=148.400)、卒中分型(Z=49.640)、责任血管狭窄度(Z=27.193)、TCBF_(疗前)(Z=693.000)、rTCBF(Z=18.874)及病灶体积(Z=-10.140)差异均有统计学意义(P<0.05)。多因素联合分析中,年龄(OR=0.108)、基线NIHSS评分(OR=0.615)、卒中分型中的穿支动脉疾病(OR=90.154)、TCBF_(疗前)(OR=4.611)及病灶体积(OR=0.138)对预后具有显著影响(P<0.05),且5者联合对预后预测的判定方法切实有效(P<0.05),ROC曲线下面积为0.962,具有较高价值。责任血管灌注的改变对预后无显著影响(P>0.05)。结论在药物保守治疗方法下,患者90 d预后更易受到年龄、基线NIHSS评分、卒中种类、CBF_(疗前)及病灶体积的影响,并不依赖于责任血管的灌注改善情况。