2010
DOI: 10.1002/mrm.22439
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RF encoding using a multielement parallel transmit system

Abstract: Radiofrequency (RF) encoding using spatially variant RF transmission fields represents an alternative to the conventional signal-encoding techniques applied in MRI, which are based on main field gradients. Thus, RF encoding might allow omitting the use of all main field gradients, alleviating acoustic noise and other main field gradient-related problems. This study investigates the potential of RF transmit encoding using spatially nonlinear RF fields generated by an eight-channel parallel transmit system equip… Show more

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Cited by 11 publications
(14 citation statements)
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“…Other RF encoding imaging mechanisms have been proposed, but we believe that none offers the flexibility and high resolution demonstrated here. A key distinction of the presented method is that encoding is neither based on a single excitation event at the beginning of the sequence , nor on a single reception event at the sequence end , but rather on a process that can be repeated during the sequence – namely refocusing. This allows the progressive encoding action to, in effect, amplify the strength of the RF phase gradient and leads to high resolution.…”
Section: Discussionmentioning
confidence: 99%
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“…Other RF encoding imaging mechanisms have been proposed, but we believe that none offers the flexibility and high resolution demonstrated here. A key distinction of the presented method is that encoding is neither based on a single excitation event at the beginning of the sequence , nor on a single reception event at the sequence end , but rather on a process that can be repeated during the sequence – namely refocusing. This allows the progressive encoding action to, in effect, amplify the strength of the RF phase gradient and leads to high resolution.…”
Section: Discussionmentioning
confidence: 99%
“…This access to high spatial resolution is very surprising as it has been an axiom of MRI that imaging is derived from the B 0 gradient and, indeed, the Nobel Prize for Physiology or Medicine in 2003 was awarded for this discovery. Of fundamental importance is that, unlike B 1 amplitude gradients , B 1 phase gradients can be produced effectively over a volume, resulting in whole‐volume high‐resolution imaging. In addition, in contrast with B 0 encoding, RF encoding is independent of γ , the gyromagnetic ratio, meaning that identical high‐resolution encoding can be achieved for multi‐nuclear MRI, even for important low γ species, such as 13 C, 31 P and 129 Xe.…”
Section: Theorymentioning
confidence: 99%
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“…However, the duration of such 2D‐selective pulses is currently in the order of 5–10 ms, and therefore, they may not be well‐suited as part of segmented k ‐space gradient echo imaging sequences or steady‐state with free precession approaches. However, with advances in scanner hardware and particularly multitransmit capabilities (24, 36), such 2D‐selective pulses may be abbreviated significantly, which may enable the use of 2D‐selective pulses as part of segmented k ‐space gradient echo imaging sequences as well.…”
Section: Discussionmentioning
confidence: 99%