Real-time MRI at a resolution of 20 ms

2010 | journal article; research paper. A publication of Göttingen

Jump to: Cite & Linked | Documents & Media | Details | Version history

Cite this publication

​Real-time MRI at a resolution of 20 ms​
Uecker, M. ; Zhang, S.; Voit, D.; Karaus, A.; Merboldt, K.-D. & Frahm, J. ​ (2010) 
NMR in Biomedicine23(8) pp. 986​-994​.​ DOI: 

Documents & Media


GRO License GRO License


Uecker, Martin ; Zhang, Shuo; Voit, Dirk; Karaus, Alexander; Merboldt, Klaus-Dietmar; Frahm, Jens 
The desire to visualize noninvasively physiological processes at high temporal resolution has been a driving force for the development of MRI since its inception in 1973. In this article, we describe a unique method for real-time MRI that reduces image acquisition times to only 20 ms. Although approaching the ultimate limit of MRI technology, the method yields high image quality in terms of spatial resolution, signal-to-noise ratio and the absence of artifacts. As proposed previously, a fast low-angle shot (FLASH) gradient-echo MRI technique (which allows for rapid and continuous image acquisitions) is combined with a radial encoding scheme (which offers motion robustness and moderate tolerance to data undersampling) and, most importantly, an iterative image reconstruction by regularized nonlinear inversion (which exploits the advantages of parallel imaging with multiple receiver coils). In this article, the extension of regularization and filtering to the temporal domain exploits consistencies in successive data acquisitions and thereby enhances the degree of radial undersampling in a hitherto unexpected manner by one order of magnitude. The results obtained for turbulent flow, human speech production and human heart function demonstrate considerable potential for real-time MRI studies of dynamic processes in a wide range of scientific and clinical settings. Copyright (c) 2010 John Wiley & Sons, Ltd.
Issue Date
John Wiley & Sons Ltd
NMR in Biomedicine 



Social Media