Article citationsMore>>

Kiefer, C., Brockhaus, L., Cattapan-Ludewig, K., Ballinari, P., Burren, Y., Schroth, G. and Wiest, R. (2009) Multiparametric Classification of Alzheimer’s Disease and Mild Cognitive Impairment: The Impact of Quantitative Magnetization Transfer MR Imaging. Neuroimage, 48, 657-667.
http://dx.doi.org/10.1016/j.neuroimage.2009.07.005

has been cited by the following article:

• TITLE: Simultaneous Echo Refocused Magnetization Transfer Imaging

  AUTHORS: Claus Kiefer

  KEYWORDS: MRI, Magnetization Transfer Imaging, Fast Imaging, Pulse Sequences, Simultaneous Echo Refocusing

  JOURNAL NAME: Open Journal of Medical Imaging, Vol.4 No.3, September 22, 2014

  ABSTRACT: Purpose: To increase the efficiency of densely encoded magnetization transfer imaging of the brain, we time-multiplex multiple slices within the same readout using simultaneous echo refocusing FLASH imaging with magnetization transfer (MT) preparation (MT-SER-FLASH). Materials and Methods: Inefficiency in total scan time results from the number of frequency samples needed for sufficient quality of quantitative parameter maps for a binary spin bath model. We present a highly efficient multiplexing method, simultaneous echo refocused magnetization transfer imaging (MT-SER-FLASH) for reducing the total scan time of MT imaging by one-third. The specific absorption rate (SAR) was also reduced by reducing the number of MT-pulses per volume. Results: 2D-MT-SER-FLASH is performed in 19 minutes rather than 1 hour, acceptable for routine clinical application. The SAR could be reduced to 69% instead of more than 100% with a standard 2D or 3D-FLASH with MT-preparation. Conclusion: The net reduction of scan time and SAR enables the use of quantitative model based magnetization transfer imaging within a clinical environment.