Magnetic resonance imaging at frequencies below 1 kHz |
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| Authors: | Ingo Hilschenz Rainer Körber Hans-Jürgen Scheer Tommaso Fedele Hans-Helge Albrecht Antonino Mario Cassará Stefan Hartwig Lutz Trahms Jürgen Haase Martin Burghoff |
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| Institution: | 1. Physikalisch-Technische Bundesanstalt (PTB), Abbestrasse 2–12, 10587 Berlin, Germany;2. University of Leipzig, Department MQF, Linnéstr.5, Leipzig, Germany;3. Department of Neurology, Charité Campus Benjamin Franklin, Hindenburgdamm 30, 12200 Berlin, Germany;4. Museo Storico della Fisica e Centro Studi e Ricerche “E. Fermi”, Rome, Italy |
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| Abstract: | Within the magnetic resonance imaging (MRI) community the trend is going to higher and higher magnetic fields, ranging from 1.5 T to 7 T, corresponding to Larmor frequencies of 63.8–298 MHz. Since for high-field MRI the magnetization increases with the applied magnetic field, the signal-to-noise-ratio increases as well, thus enabling higher image resolutions. On the other hand, MRI is possible also at ultra-low magnetic fields, as was shown by different groups. The goal of our development was to reach a Larmor frequency range of the low-field MRI system corresponding to the frequency range of human brain activities ranging from near zero-frequency (near-DC) to over 1 kHz. Here, first 2D MRI images of phantoms taken at Larmor frequencies of 100 Hz and 731 Hz will be shown and discussed. These frequencies are examples of brain activity triggered by electrostimulation of the median nerve. The method will allow the magnetic fields of the brain currents to influence the magnetic resonance image, and thus lead to a direct functional imaging modality of neuronal currents. |
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| Keywords: | Low-field MRI Neuronal currents Resonant mechanism MEG |
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