双示踪剂:基于约束演化重建的高分辨率 fMRI。
Dual-TRACER: High resolution fMRI with constrained evolution reconstruction.
机构信息
Center for Biomedical Imaging Research, Department of Biomedical Engineering, Tsinghua University, Beijing, China.
Center for Biomedical Imaging Research, Department of Biomedical Engineering, Tsinghua University, Beijing, China; Philips Healthcare, Shanghai, China.
出版信息
Neuroimage. 2018 Jan 1;164:172-182. doi: 10.1016/j.neuroimage.2017.02.087. Epub 2017 Mar 2.
fMRI with high spatial resolution is beneficial for studies in psychology and neuroscience, but is limited by various factors such as prolonged imaging time, low signal to noise ratio and scarcity of advanced facilities. Compressed Sensing (CS) based methods for accelerating fMRI data acquisition are promising. Other advanced algorithms like k-t FOCUSS or PICCS have been developed to improve performance. This study aims to investigate a new method, Dual-TRACER, based on Temporal Resolution Acceleration with Constrained Evolution Reconstruction (TRACER), for accelerating fMRI acquisitions using golden angle variable density spiral. Both numerical simulations and in vivo experiments at 3T were conducted to evaluate and characterize this method. Results show that Dual-TRACER can provide functional images with a high spatial resolution (1×1mm) under an acceleration factor of 20 while maintaining hemodynamic signals well. Compared with other investigated methods, dual-TRACER provides a better signal recovery, higher fMRI sensitivity and more reliable activation detection.
高空间分辨率 fMRI 有益于心理学和神经科学研究,但受到成像时间长、信噪比低和先进设备稀缺等多种因素的限制。基于压缩感知 (CS) 的 fMRI 数据采集加速方法具有广阔的应用前景。其他先进算法,如 k-t FOCUSS 或 PICCS,也已被开发用于提高性能。本研究旨在探索一种新方法,即基于时频分辨率加速的双轨迹重建 (Dual-TRACER),用于使用黄金角度可变密度螺旋加速 fMRI 采集。通过在 3T 上进行数值模拟和体内实验,对该方法进行了评估和特征分析。结果表明,在加速度因子为 20 的情况下,双轨迹重建 (Dual-TRACER) 可以提供高空间分辨率 (1×1mm) 的功能图像,同时很好地保持了血流动力学信号。与其他研究方法相比,双轨迹重建 (Dual-TRACER) 提供了更好的信号恢复、更高的 fMRI 灵敏度和更可靠的激活检测。
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