Meeting Banner
Abstract #3314

Simultaneous Multi-Slice Spectral-Spatial Excitation for Reduced Signal Loss Artifact in BOLD FMRI

Robert James Anderson1, Benedikt A. Poser1, Victor Andrew Stenger1

1Dept. of Medicine, University of Hawaii, Honolulu, HI, United States

Simultaneous Multi-Slice (SMS) imaging methods can increase BOLD fMRI acquisition speeds by factors of four and greater. However, fMRI in the inferior brain still remains difficult due to susceptibility induced signal loss in gradient-echo EPI. Recently, spectral spatial (SPSP) pulses have been shown to correct signal loss in a single excitation. Here we extend the SPSP method to SMS excitations and demonstrate Multi-Band (MB) and Power Independent Number of Slices (PINS) SPSP pulses that are capable of exciting multiple signal-loss corrected slices simultaneously. Using breath-hold fMRI at 3T, we demonstrate that the pulses successfully recover lost signal and activation.

Abstract PDF Presentation Video

Keywords

achieved acquisition activation alternative analyze apart arrows artifact audience band blipped blips bold brain breath canals capable careful cavity channel coil communities concern correct corrected correcting correction created dept difficult effective enabling equation example excitation excitations excite exciting extend five formed frequency frontal future goes gradient greater half head hence hold holding implemented independent indicated induced inferior kernel linear lobe loss lost made magnetization medicine modulated modulation nasal nearby nine note patterns peak phasing physicist pins poser positioning power produces pulse pulses recently reconstruction recover recovery reduced relationship remains repeating requires resolution roughly runs scanner selective separated separation series simulations simultaneous simultaneously slew slice slices smoothing spatial spectral spectrally speeds stat still studies subsequently successfully superposition supported susceptibility target temporal thick threshold transverse typically undetected unwanted useful victor voltage volume volumes waveform waveforms yang