Thimo Grotz scite author profile

MR-Encephalography (MREG) is a technique that allows real time observation of functional changes in the brain that appears within 100 msec. The high sampling rate is achieved at the cost of some spatial resolution. The article describes a novel imaging method for fast three-dimensional-MR-encephalography whole brain coverage based on rosette trajectories and the use of multiple small receiver coils. The technique allows the observation of changes in brain physiology at very high temporal resolution. A highly undersampled three-dimensional rosette trajectory is chosen, to perform single shot acquisition of k-space data within 23 msec. By using a 32-channel head coil array and regularized nonuniform Fourier transformation reconstruction, the spatial resolution is sufficient to detect even subtle centers of activation (e.g. human MT1). The method was applied to visual block design paradigms and compared with echo planar imaging-based functional MRI. As a proof-of-principle of the method's ability to detect local differences in the hemodynamic response functions, the analyzed MR-encephalography data revealed a spatially dependent delay of the arrival of the blood oxygenation level dependent response within the visual cortex. Magn Reson Med 65:1260-1268,

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Fast functional brain imaging using constrained reconstruction based on regularization using arbitrary projections

Grotz

Zahneisen

Ella

et al. 2009

Magnetic Resonance in Med

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This work describes a novel method for highly undersampled projection imaging using constrained reconstruction by Tikhonov-Phillips regularization and its application for high temporal resolution functional MRI (fMRI) at a repetition time of 80 ms. The high-resolution reference image used as in vivo coil sensitivity is acquired in a separate acquisition using otherwise identical parameters. Activation studies using a standard checkerboard activation paradigm demonstrate the inherent high sensitivity afforded by the possibility to separate activation-related effects from "physiological noise.". In this first proof-of-principle of the constrained reconstruction based on regularization using arbitrary projections (

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Quantum dynamics in fluctuating traps: Master equation, decoherence, and heating

2006

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Thimo Grotz

Three-dimensional MR-encephalography: Fast volumetric brain imaging using rosette trajectories

Fast functional brain imaging using constrained reconstruction based on regularization using arbitrary projections

Quantum dynamics in fluctuating traps: Master equation, decoherence, and heating

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