High permittivity pads reduce specific absorption rate, improve B1 homogeneity, and increase contrast-to-noise ratio for functional cardiac MRI at 3 T.
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Unmasking Latent Inhibitory Connections in Human Cortex to Reveal Dormant Cortical MemoriesImproved image quality and reduced power deposition in the spine at 3 T using extremely high permittivity materials.Compressed perovskite aqueous mixtures near their phase transitions show very high permittivities: New prospects for high-field MRI dielectric shimming.High-permittivity thin dielectric padding improves fresh blood imaging of femoral arteries at 3 TPractical methods for improving B1+ homogeneity in 3 Tesla breast imaging.Clinical applications of dual-channel transmit MRI: A review.Passive radiofrequency shimming in the thighs at 3 Tesla using high permittivity materials and body coil receive uniformity correction.The effect of high-permittivity pads on specific absorption rate in radiofrequency-shimmed dual-transmit cardiovascular magnetic resonance at 3T.Improvements of transmit efficiency and receive sensitivity with ultrahigh dielectric constant (uHDC) ceramics at 1.5 T and 3 T.Metamaterial-based transmit and receive system for whole-body magnetic resonance imaging at ultra-high magnetic fields.Improved detection of fMRI activation in the cerebellum at 7T with dielectric pads extending the imaging region of a commercial head coil.A specific absorption rate reduction method for simultaneous multislice magnetic resonance imaging.A theoretical approach based on electromagnetic scattering for analysing dielectric shimming in high-field MRI.Manipulating transmit and receive sensitivities of radiofrequency surface coils using shielded and unshielded high-permittivity materials.Potential for high-permittivity materials to reduce local SAR at a pacemaker lead tip during MRI of the head with a body transmit coil at 3 T.Dynamic multi-coil tailored excitation for transmit B1 correction at 7 Tesla.Improvement of Electromagnetic Field Distributions Using High Dielectric Constant (HDC) Materials for CTL-Spine MRI: Numerical Simulations and Experiments.
P2860
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P2860
High permittivity pads reduce specific absorption rate, improve B1 homogeneity, and increase contrast-to-noise ratio for functional cardiac MRI at 3 T.
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name
High permittivity pads reduce ...... functional cardiac MRI at 3 T.
@en
High permittivity pads reduce ...... functional cardiac MRI at 3 T.
@nl
type
label
High permittivity pads reduce ...... functional cardiac MRI at 3 T.
@en
High permittivity pads reduce ...... functional cardiac MRI at 3 T.
@nl
prefLabel
High permittivity pads reduce ...... functional cardiac MRI at 3 T.
@en
High permittivity pads reduce ...... functional cardiac MRI at 3 T.
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P2860
P356
P1476
High permittivity pads reduce ...... functional cardiac MRI at 3 T.
@en
P2093
Andrew G Webb
Wyger M Brink
P2860
P304
P356
10.1002/MRM.24778
P577
2013-05-09T00:00:00Z