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Universal parallel transmit pulses for a 2-dimensional local excitation target pattern at 9.4T
{In this study, the concept of \textquoteleftUniversal pTx pulses\textquoteright for local excitation is tested in vivo at 9.4T. Based on B0/B1+ maps from eight different subject heads, universal pulses for a 2-dimensional local excitation target pattern were designed. The pulses aiming to excite the visual cortex of the human brain (with a flip angle of 90 and 7 degree, respectively), while the remaining areas should experience no effective excitation. In simulations and in vivo at 9.4T, the resulting universal pules perform just slightly worse compared to the subject specific tailored pulses (on non-database heads).}
@misc{item_3319839, title = {{Universal parallel transmit pulses for a 2-dimensional local excitation target pattern at 9.4T}}, booktitle = {{2021 ISMRM \& SMRT Annual Meeting \& Exhibition (ISMRM 2021)}}, abstract = {{In this study, the concept of \textquoteleftUniversal pTx pulses\textquoteright for local excitation is tested in vivo at 9.4T. Based on B0/B1+ maps from eight different subject heads, universal pulses for a 2-dimensional local excitation target pattern were designed. The pulses aiming to excite the visual cortex of the human brain (with a flip angle of 90 and 7 degree, respectively), while the remaining areas should experience no effective excitation. In simulations and in vivo at 9.4T, the resulting universal pules perform just slightly worse compared to the subject specific tailored pulses (on non-database heads).}}, year = {2021}, slug = {item_3319839}, author = {Geldschl\"ager, O and Bosch, D and Henning, A} }