I. R. Young scite author profile

To assess the effect of stimulus correlated motion on the appearance of functional magnetic resonance images, conventional visual and motor protocols were each performed by four normal volunteers and an image co-registration technique was used to retrospectively monitor subject motion. In three studies synthetic data sets were constructed from single baseline images using the positional information obtained from the co-registration procedure. Cumulative difference images were then created from both the synthetic and functional image sets. Stimulus correlated motion was detected in all eight studies and the synthetic cumulative difference images showed striking similarities to the equivalent functional images in each case.

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Microstructured Magnetic Materials for RF Flux Guides in Magnetic Resonance Imaging

Wiltshire¹,

Pendry

Young

et al. 2001

Science

437

254

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Magnetic resonance imaging and spectroscopy systems use coils, either singly or as arrays, to intercept radio-frequency (RF) magnetic flux from regions of interest, often deep within the body. Here, we show that a new magnetic material offers novel possibilities for guiding RF flux to the receiver coil, permitting a clear image to be obtained where none might otherwise be detectable. The new material contains microstructure designed according to concepts taken from the field of photonic band gap materials. In the RF range, it has a magnetic permeability that can be produced to specification while exhibiting negligible direct-current magnetism. The latter property is vital to avoid perturbing the static and audio-frequency magnetic fields needed to obtain image and spectral data. The concept offers a new paradigm for the manipulation of RF flux in all nuclear magnetic resonance systems.

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Use of multicoil arrays for separation of signal from multiple slices simultaneously excited

Larkman

Hajnal

Herlihy

et al. 2001

J. Magn. Reson. Imaging

474

234

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MRI: Use of the inversion recovery pulse sequence

1998

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I. R. Young

Use of multicoil arrays for separation of signal from multiple slices simultaneously excited

Artifacts due to stimulus correlated motion in functional imaging of the brain

Microstructured Magnetic Materials for RF Flux Guides in Magnetic Resonance Imaging

Use of multicoil arrays for separation of signal from multiple slices simultaneously excited

MRI: Use of the inversion recovery pulse sequence

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