Fast quantitative MRI: Spiral Acquisition Matching-Based Algorithm (SAMBA) for Robust T1 and T2 Mapping

IF 2.624
Mireia Perera-Gonzalez , Christina J. MacAskill , Heather A. Clark , Chris A. Flask
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Abstract

Conventional diagnostic images from Magnetic Resonance Imaging (MRI) are typically qualitative and require subjective interpretation. Alternatively, quantitative MRI (qMRI) methods have become more prevalent in recent years with multiple clinical and preclinical imaging applications. Quantitative MRI studies on preclinical MRI scanners are being used to objectively assess tissues and pathologies in animal models and to evaluate new molecular MRI contrast agents. Low-field preclinical MRI scanners (3.0T) are particularly important in terms of evaluating these new MRI contrast agents at human MRI field strengths. Unfortunately, these low-field preclinical qMRI methods are challenged by long acquisition times, intrinsically low MRI signal levels, and susceptibility to motion artifacts. In this study, we present a new rapid qMRI method for a preclinical 3.0T MRI scanner that combines a Spiral Acquisition with a Matching-Based Algorithm (SAMBA) to rapidly and quantitatively evaluate MRI contrast agents. In this initial development, we compared SAMBA with gold-standard Spin Echo MRI methods using Least Squares Fitting (SELSF) in vitro phantoms and demonstrated shorter scan times without compromising measurement accuracy or repeatability. These initial results will pave the way for future in vivo qMRI studies using state-of-the-art chemical probes.

Abstract Image

快速定量磁共振成像:基于螺旋采集匹配算法 (SAMBA) 的稳健 T1 和 T2 映射
传统的磁共振成像(MRI)诊断图像通常是定性的,需要主观判读。而近年来,定量磁共振成像(qMRI)方法在临床和临床前成像的多种应用中变得越来越普遍。临床前磁共振成像扫描仪上的定量磁共振成像研究正被用于客观评估动物模型中的组织和病理,以及评估新的分子磁共振成像对比剂。低磁场临床前 MRI 扫描仪(≤3.0T)对于在人体 MRI 磁场强度下评估这些新型 MRI 造影剂尤为重要。遗憾的是,这些低磁场临床前 qMRI 方法面临着采集时间长、磁共振成像信号水平低以及易受运动伪影影响等挑战。在本研究中,我们为临床前 3.0T MRI 扫描仪提出了一种新的快速 qMRI 方法,该方法结合了螺旋采集和基于匹配的算法(SAMBA),可快速定量评估 MRI 造影剂。在这项初步开发中,我们使用最小二乘拟合(SELSF)体外模型对 SAMBA 与黄金标准自旋回波 MRI 方法进行了比较,结果表明,在不影响测量准确性或可重复性的情况下,扫描时间更短。这些初步结果将为未来使用最先进的化学探针进行体内 qMRI 研究铺平道路。
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CiteScore
1.90
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