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.

Evaluation of tumor response to antiangiogenic therapy in patients with recurrent gliomas using contrast-enhanced perfusion-weighted magnetic resonance imaging techniques:A meta-analysis

BACKGROUND It is of vital importance to find radiologic biomarkers that can accurately predict treatment response. Usually, the initiation of antiangiogenic therapy causes a rapid decrease in the contrast enhancing tumor. However, the treatment response is observed only in a fraction of patients due to the partial radiological response secondary to stabilization of abnormal vessels which does not essentially indicate a true antitumor effect. Perfusion-weighted magnetic resonance imaging(PWMRI) techniques have shown implicitness as a strong imaging biomarker for gliomas since they give hemodynamic information of blood vessels. Hence, there is a rapid expansion of PW-MRI related studies and clinical applications.AIM To determine the diagnostic performance of PW-MRI techniques including:(A)dynamic contrast-enhanced magnetic resonance imaging(DCE-MRI); and(B)dynamic susceptibility contrast magnetic resonance imaging(DSC-MRI) for evaluating response to antiangiogenic therapy in patients with recurrent gliomas.METHODS Databases such as PubMed(MEDLINE included), EMBASE, and Google Scholar were searched for relevant original articles. The included studies were assessed for methodological quality with the Quality Assessment of Diagnostic Accuracy Studies 2 tool. Medical imaging follow-up or histopathological analysis was used as the reference standard. The data were extracted by two reviewers independently, and then the sensitivity, specificity, summary receiver operating characteristic curve, area under the curve(AUC), and heterogeneity were calculated using Meta-Disc 1.4 software.RESULTS This study analyzed a total of six articles. The overall sensitivity for DCE-MRI and DSC-MRI was 0.69 [95% confidence interval(CI): 0.53-0.82], and the specificity was 0.99(95%CI: 0.93-1) by a random effects model(DerSimonianeeLaird model). The likelihood ratio(LR) +, LR-, and diagnostic odds ratio(DOR)were 12.84(4.54-36.28), 0.35(0.22-0.53), and 24.44(7.19-83.06), respectively. The AUC(± SE) was 0.9921(± 0.0120), and the Q* index(± SE) was 0.9640(± 0.0323).For DSC-MRI, the sensitivity was 0.73, the specificity was 0.98, the LR+ was 7.82,the LR-was 0.32, the DOR was 31.65, the AUC(± SE) was 0.9925(± 0.0132), and the Q* index was 0.9649(± 0.0363). For DCE-MRI, the sensitivity was 0.41, the specificity was 0.97, the LR+ was 5.34, the LR-was 0.71, the DOR was 8.76, the AUC(± SE) was 0.9922(± 0.2218), and the Q* index was 0.8935(± 0.3037).CONCLUSION This meta-analysis demonstrated a beneficial value of PW-MRI(DSC-MRI and DCE-MRI) in monitoring the response of recurrent gliomas to antiangiogenic therapy, with reasonable sensitivity, specificity, +LR, and-LR.

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。

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。

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。

Diffuse axonal injury after traumatic cerebral microbleeds: an evaluation of imaging techniques

Previous neuropathological studies regarding traumatic brain injury have primarily focused on changes in large structures, for example, the clinical prognosis after cerebral contusion, intrace- rebral hematoma, and epidural and subdural hematoma. In fact, many smaller injuries can also lead to severe neurological disorders. For example, cerebral microbleeds result in the dysfunc- tion of adjacent neurons and the disassociation between cortex and subcortical structures. These tiny changes cannot be adequately visualized on CT or conventional MRI. In contrast, gradient echo sequence-based susceptibility-weighted imaging is very sensitive to blood metabolites and microbleeds, and can be used to evaluate traumatic cerebral microbleeds with high sensitivity and accuracy. Cerebral microbleed can be considered as an important imaging marker for dif- fuse axonal injury with potential relevance for prognosis. For this reason, based on experimental and clinical studies, this study reviews the role of imaging data showing traumatic cerebral microbleeds in the evaluation of cerebral neuronal injury and neurofunctional loss.

In vivo tracking of human adipose-derived stem cells labeled with ferumoxytol in rats with middle cerebral artery occlusion by magnetic resonance imaging

Ferumoxytol, an iron replacement product, is a new type of superparamagnetic iron oxide ap- proved by the US Food and Drug Administration. Herein, we assessed the feasibility of tracking transplanted human adipose-derived stem cells labeled with ferumoxytol in middle cerebral artery occlusion-injured rats by 3.0 T MRI in vivo. 1 × 104 human adipose-derived stem cells labeled with ferumoxytol-heparin-protamine were transplanted into the brains of rats with middle cerebral artery occlusion. Neurologic impairment was scored at 1, 7, 14, and 28 days after transplantation. T2-weighted imaging and enhanced susceptibility-weighted angiography were used to observe transplanted cells. Results of imaging tests were compared with results of Prussian blue staining. The modified neurologic impairment scores were significantly lower in rats transplanted with cells at all time points except I day post-transplantation compared with rats without transplantation. Regions with hypointense signals on T2-weighted and enhanced susceptibility-weighted angiography images corresponded with areas stained by Prussian blue, suggesting the presence of superparamagnetic iron oxide particles within the engrafted cells. Enhanced susceptibility-weighted angiography image exhibited better sensitivity and contrast in tracing ferumoxytol-heparin-protamine-labeled human adipose-derived stem ceils compared with T2-weighted imaging in routine MRI.

多模态头颅MRI对轻型颅脑损伤的评估价值

目的探讨多模态头颅MRI对轻型颅脑损伤(mTBI)患者脑组织损伤性质的早期诊断及其预后评估价值。方法对67例头颅CT平扫阴性的mTBI患者进行多模态头颅MRI检查,根据磁敏感加权成像(SWI)、弥散加权成像(IWI)是否阳性将患者分为SWI阳性组、DWI阳性组、SWI+DWI双阳性组及SWI+DWI双阴性组,并随访外伤3个月后患者颅脑损伤后综合征(PTBS)的发生率。结果SWI阳性患者20例,DWI阳性患者8例,SWI+DWI双阳性患者5例,SWI+DWI双阴性患者34例,三组阳性组患者中PTBS的发生率明显高于双阴性组患者,差异均有统计学意义(P<0.05),三组阳性组间PTBS发生率差异无显著统计学意义(P>0.05)。结论多模态头颅MRI可敏感发现mTBI患者脑内存在的微小出血灶及脑缺血梗死灶等病理改变,为临床诊断及治疗提供影像学依据。

振幅整合脑电图联合磁敏感加权成像在早期新生儿脑损伤诊断中的应用

目的 分析振幅整合脑电图(aEEG)联合磁敏感加权成像(SWI)在早期新生儿脑损伤中的诊断价值。方法 选取2020年1月至2022年1月该院收治的103例早期新生儿脑损伤者作为观察组,并选取同期健康早期新生儿54例作为健康对照组。两组研究对象均于新生儿出生后3~5 d行aEEG、SWI检查,了解aEEG定量参数、异常程度及SWI影像特点,并分析两者联合使用的诊断价值。结果 观察组窄带宽度、上边界电压较健康对照组高,而下边界电压较健康对照组低,差异均有统计学意义(P<0.05)。与健康对照组比较,观察组aEEG异常程度较高(P<0.05)。aEEG+SWI检测临床灵敏度(85.44%)、符合率(86.62%)较aEEG(71.84%、74.52%)、SWI(48.54%、62.42%)单项检测高(P<0.05),而aEEG+SWI检测的特异度与aEEG、SWI单项检测比较,差异均无统计学意义(P>0.05)。结论 在早期新生儿脑损伤诊断中,aEEG可有效识别脑损伤,SWI能提供细致的病灶信息,二者联合使用可提供有效的参考价值。

联合增强T1WI和增强SWI在肺癌脑转移诊断的应用价值

目的:探讨对比增强T1WI(CE-T1WI)、对比增强磁敏感加权成像(CE-SWI)及二者联合在肺癌脑转移中的诊断效能。方法:纳入怀疑肺癌脑转移的149例患者,均行常规MRI增强扫描、增强SWI扫描。标记异常强化/信号灶,计算检出数目、部位、大小,对患者于3~6个月内随访验证。采用McNemar’s检验统计CE-T1WI和CE-SWI组间的转移瘤检出率差异;采用受试者工作特征(ROC)曲线分析CE-T1WI、CESWI及二者联合的诊断效能。结果:共发现739个异常强化/信号灶,其中转移瘤670个,非转移瘤69个。CE-T1WI组在脑表浅区、颅底区的转移瘤检出率优于CE-SWI组;CE-SWI组在脑深部区、病灶≤5 mm时的转移瘤检出率优于CE-T1WI组。3组(CE-T1WI、CE-SWI及二者联合)的ROC曲线下面积分别为0.738、0.851和0.923。二者联合的诊断效能优于CE-T1WI(P<0.0001)、CE-SWI(P<0.0001)。结论:CE-T1WI和CE-SWI联合是一种有效的肺癌脑转移诊断方法。

血管性帕金森综合征鉴别诊断的影像学研究进展

血管性帕金森综合征(vascular parkinsonism,VP)是临床上常见的继发性帕金森综合征,目前VP临床诊断和鉴别诊断的准确率较低,影响其临床治疗和预后。在临床实践中,影像学常用于VP的诊断。近年来多模态MRI和分子影像成像及分析技术等影像学技术的进展为提高VP的诊断和鉴别诊断准确率提供了客观手段。本文就前沿影像学技术在VP与原发性帕金森病以及其他非典型帕金森综合征鉴别诊断领域的研究进展进行综述,以期为VP的诊断和鉴别诊断提供新的思路。

1.5T磁共振磁敏感加权成像技术在脑部微出血病灶中的诊断价值

目的:探究1.5T磁共振磁敏感加权成像(susceptibility weighted imaging,SWI)技术在脑部微出血病灶中的诊断价值。方法:回顾性分析新疆生产建设兵团第十师北屯医院2022年4月—2023年4月收治的55例轻度创伤性颅脑损伤患者的病历资料,所有患者在术前均使用磁共振SWI技术、磁共振常规序列明确微出血病灶。比较不同检查序列对脑部微出血病灶的检出情况,分析脑部微出血灶分布及影像特征。结果:SWI序列检测结果显示,37例(67.27%)患者存在脑部微出血病灶,与Flair(14.55%)、T1WI(7.27%)、T2WI(10.91%)常规序列检查结果比较,差异有统计学意义(P<0.05)。经磁共振检查发现37例脑部微出血患者,共检出63个微出血病灶,分布在基底节区21个(33.33%)、白质13个(20.64%)、放射冠11个(17.46%)、丘脑10个(15.87%)、脑干8个(12.70%)。脑部微出血病灶直径为0.3~7.3mm,且脑部微出血病灶SWI序列信号表现为圆形低信号或者多发点状低信号阴影。结论:在脑出血症状的诊断过程中,利用磁共振磁敏感加权成像技术进行诊断有助于帮助临床医师明确轻度创伤性颅脑损伤患者脑部微出血病灶位置与数量,可为临床诊治提供参考。

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。

MR磁敏感加权成像技术在颅脑疾病中的应用

目的:探讨磁敏感加权成像(SWI)序列在常见颅脑疾病显像中的应用价值。方法:对58例颅脑疾病的SWI图像与常规快速自旋回波(FSE)图像进行比较、分析。结果:SWI可以清晰显示颅内异常出血灶、血管异常及铁沉积异常。21例脑出血,SWI显示21例,常规FSE显示15例;15例脑血管畸形,SWI均清晰显示病变边界及形态异常血管;5例脑外伤,SWI均显示损伤部位;12例脑肿瘤,SWI较FSE序列对病变边界及瘤内出血显示更加清楚;5例神经变性性病变,SWI发现帕金森症患者3例,FSE仅发现1例。结论:SWI对于颅内出血,脑血管畸形,弥漫性轴索损伤、颅脑肿瘤及伴有铁分布异常的神经系统变性疾病,均能够提供比常规MRI更加详细、准确的信息。

大面积脑梗死再灌注损伤的磁敏感加权成像与临床对照研究

目的探讨磁敏感加权成像(SWI)技术评价大面积脑梗死再灌注损伤的价值及其与临床的相关性。方法选择21例临床和影像确诊的大面积脑梗死患者为研究对象。脑梗死后出血程度分为重度、中度和轻度;病灶周围小血管数目显示分为0～II度。将患者临床状态进行NIHSS评分,并与SWI评价结果对照。结果本组病例有16例(76.2%)发生自发性梗死后出血,其中11例(68.8%)发生于亚急性期,重度出血4例(25.0%),中度出血5例(31.3%),轻度出血7例(43.8%);重度出血与临床NIHSS评分具有正相关性(rs=0.765,P=0.001)。有14例(66.7%)显示梗死灶周围小血管影。21例中II度显示者10例(47.6%),I度4例(19.0%),0度7例(33.3%),其显示程度与临床NIHSS评分无显著相关性(rs=0.408,P=0.066)。结论SWI技术可以敏感、客观地评价脑梗死后再灌注损伤的出血及侧支循环情况,有望成为脑梗死患者病情预测与治疗评估的有效方法。

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。

磁敏感加权成像在中枢神经系统的临床应用

磁敏感加权成像是包含相位图像和幅度图像的三维、高分辨、完全流速补偿的梯度回波序列,对静脉结构和血液代谢物十分敏感。本文就其原理和及其在脑血管畸形、脑血管病、脑肿瘤、脑外伤、神经变性病等中枢神经系统病变中的临床应用进行综述。

磁敏感成像对急性脑梗塞并出血的诊疗价值

目的:探讨磁敏感加权成像技术(SWI)在急性脑梗塞合并脑出血的影像学特征,阐述SWI技术在急性脑梗塞的临床应用价值。方法:对48例急性脑梗塞患者进行CT、常规MRI、MRA、DWI、及SWI的自身对比研究。CT与磁共振检查间隔不超过12h,常规MRI、MRA、DWI、及SWI检查均同时进行。相关数据分析进行统计学处理。结果:48例脑梗塞中,SWI发现18例合并不同程度的脑出血,而CT、常规MRI、DWI均未见明确脑出血征象;DWI中有5例信号不均匀,结合SWI作回顾性分析考虑合并出血可能。CT显示脑梗塞34例;常规MRI显示40例;DWI显示48例;SWI显示39例,且病灶范围较DWI小,边缘模糊。SWI显示38例梗死区静脉血管减少;6例无变化;4例增多。13例MRA表现为大脑前、中、后动脉不同程度狭窄、闭塞或分支血管减少。结论:SWI技术对显示脑梗塞合并脑出血有特异性表现,且有评价梗塞区脑组织存活性的潜在价值,对指导临床治疗脑梗塞有着重大意义,应列为诊断急性脑梗塞的检查常规。

磁敏感加权成像在脑淋巴瘤与胶质母细胞瘤鉴别诊断的价值

目的：探讨脑淋巴瘤与胶质母细胞（GMB）的磁敏感加权成像（SWI）影像学特征以及肿瘤内磁敏感信号强度（ITSS）对其鉴别诊断的价值。方法回顾性分析经手术或活检病理证实的13例脑原发性淋巴瘤和19例胶质母细胞瘤的常规MRI及SWI影像学表现，测量肿瘤内磁敏感信号强度（ITSS），对比分析两者的影像学表现特点。结果13例淋巴瘤ITSS评分为0～1级，ITSS评分0级8例，1级5例。19例胶质母细胞瘤ITSS评级均为3级，胶质母细胞瘤ITSS级别明显高于淋巴瘤，两者ITSS级别有明显统计学差异（ P ＜0．001）。结论定量测量肿瘤内ITSS有助于脑淋巴瘤与胶质母细胞瘤的鉴别诊断，可以作为常规MR检查的补充手段。