在3T场强下人体心肌中沿第二旋转框架(T)映射中的虚拟场进行弛豫的可行性。
Feasibility of relaxation along a fictitious field in the 2nd rotating frame (T) mapping in the human myocardium at 3 T.
作者信息
Tourais Joao, Božić-Iven Maša, Zhao Yidong, Tao Qian, Pierce Iain, Nitsche Christian, Thornton George D, Schad Lothar R, Treibel Thomas A, Weingärtner Sebastian, Akçakaya Mehmet
机构信息
Imaging Physics, Delft University of Technology (TU Delft), Delft, Netherlands.
Computer Assisted Clinical Medicine, Medical Faculty Mannheim, Heidelberg University, Mannheim, Germany.
出版信息
Front Cardiovasc Med. 2024 Dec 4;11:1373240. doi: 10.3389/fcvm.2024.1373240. eCollection 2024.
PURPOSE
Evaluate the feasibility of quantification of Relaxation Along a Fictitious Field in the 2nd rotating frame (RAFF2) relaxation times in the human myocardium at 3 T.
METHODS
mapping was performed using a breath-held ECG-gated acquisition of five images: one without preparation, three preceded by RAFF2 trains of varying duration, and one preceded by a saturation prepulse. Pixel-wise maps were obtained after three-parameter exponential fitting. The repeatability of , , and was assessed in phantom via the coefficient of variation (CV) across three repetitions. In seven healthy subjects, was tested for precision, reproducibility, inter-subject variability, and image quality (IQ) on a Likert scale (1 = Nondiagnostic, 5 = Excellent). Additionally, mapping was performed in three patients with suspected cardiovascular disease, comparing it to late gadolinium enhancement (LGE), native , , and ECV mapping.
RESULTS
In phantom, showed good repeatability (CV < 1.5%) while showing no ( ) and high ( ) correlation with and , respectively. Myocardial maps exhibited overall acceptable image quality (IQ = 3.0 1.0) with moderate artifact levels, stemming from off-resonances near the coronary sinus. Average time across subjects and repetitions was 79.1 7.3 ms. Good precision (7.6 1.4%), reproducibility (1.0 0.6%), and low inter-subject variability (10.0 1.8%) were obtained. In patients, visual agreement of the infarcted area was observed in the map and LGE.
CONCLUSION
Myocardial quantification at 3 T was successfully achieved in a single breath-hold with acceptable image quality, albeit with residual off-resonance artifacts. Nonetheless, preliminary clinical data indicate potential sensitivity of mapping to myocardial infarction detection without the need for contrast agents, but off-resonance artifacts mitigation warrants further investigation.
目的
评估在3T场强下对人体心肌进行第二旋转坐标系中沿虚拟场的弛豫(RAFF2)弛豫时间定量分析的可行性。
方法
采用屏气心电图门控采集五幅图像进行成像:一幅无预处理图像,三幅在不同时长的RAFF2序列之前采集的图像,以及一幅在饱和预脉冲之前采集的图像。经过三参数指数拟合后获得逐像素图谱。通过三次重复测量的变异系数(CV)评估(T_1)、(T_2)和(T_{2*})的可重复性。在七名健康受试者中,对(T_{2*})进行了精度、可重复性、受试者间变异性和图像质量(IQ)的测试,图像质量采用李克特量表进行评分(1 = 无法诊断,5 = 优秀)。此外,在三名疑似心血管疾病的患者中进行了(T_{2*})成像,并与延迟钆增强(LGE)、固有(T_1)、(T_2)和细胞外容积(ECV)成像进行比较。
结果
在体模中,(T_{2*})显示出良好的可重复性(CV < 1.5%),同时分别与(T_1)和(T_2)无((T_{2*})与(T_1))和高度((T_{2*})与(T_2))相关性。心肌(T_{2*})图谱整体图像质量可接受(IQ = 3.0 ± 1.0),伪影水平中等,源于冠状窦附近的失谐。受试者和重复测量的平均(T_{2*})时间为79.1 ± 7.3 ms。获得了良好的精度(7.6 ± 1.4%)、可重复性(1.0 ± 0.6%)和低受试者间变异性(10.0 ± 1.8%)。在患者中,在(T_{2*})图谱和LGE中观察到梗死区域的视觉一致性。
结论
在3T场强下,通过单次屏气成功实现了心肌(T_{2*})定量分析,图像质量可接受,尽管存在残留的失谐伪影。尽管如此,初步临床数据表明(T_{2*})成像对心肌梗死检测具有潜在的敏感性,无需使用造影剂,但失谐伪影的减轻仍需进一步研究。
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