I. Gräßlin scite author profile

Multichannel transmit magnetic resonance imaging (MR) systems have the potential to compensate for signal-intensity variations occurring at higher field strengths due to wave propagation effects in tissue. Methods such as RF shimming and local excitation in combination with parallel transmission can be applied to compensate for these effects. Moreover, parallel transmission can be applied to ease the excitation of arbitrarily shaped magnetization patterns. The implementation of these methods adds new requirements in terms of MRI hardware. This article describes the design of a decoupled eight-element transmit/receive body coil for 3T. The setup of the coil is explained, starting with standard single-channel resonators. Special focus is placed on the decoupling of the elements to obtain independent RF resonators. After a brief discussion of the underlying theory, the properties and limitations of the coil are outlined. Finally, the functionality and capabilities of the coil are demonstrated using RF measurements as well as MRI sequences.

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Simultaneous dual‐nuclei imaging for motion corrected detection and quantification of ¹⁹F imaging agents

Keupp

Rahmer

Gräßlin

et al. 2011

Magnetic Resonance in Med

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Fluorine MRI offers broad potential for specific detection and quantification of molecularly targeted agents in diagnosis and therapy planning or monitoring. Because non-proton MRI applications lack morphological information, accompanying proton images are needed to elucidate the spatial tissue context. Furthermore, low concentrations typical of targeted molecular imaging agents require long examinations for signal averaging during which physiological motion may lead to blurring, underestimation in signal quantification, and erroneous localization of the agent distribution. Novel methods for truly simultaneous acquisition of dual-nuclei MR data are presented that offer efficient and precise anatomical localization of fluorine signals using accurate motion correction based on contemporaneous proton signals. The feasibility of simultaneous dual-nuclei MRI motion correction and corresponding dual-resolution reconstruction, providing nuclei-specific spatial resolution to retrospectively optimize the balance between signal-to-noise ratio and resolution, is shown on a clinical 3 T MR system. Magn Reson Med 66:1116-1122,

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Free‐breathing whole‐heart coronary MR angiography on a clinical scanner in four minutes

Nehrke

Börnert

Mazurkewitz

et al. 2006

Magnetic Resonance Imaging

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Purpose: To set up a robust and patient-friendly wholeheart protocol based on 32-receive-channel technology that will potentially allow a large part of the patient population to be addressed. Materials and Methods:Ten volunteers were examined on a clinical 1.5 T scanner equipped with a 32-channel data acquisition system using an experimental 32-element coil array. A magnetization-prepared, navigator-gated and -tracked 3D Cartesian balanced FFE sequence was used for whole-heart coronary MR angiography (MRA). With the use of sensitivity encoding (SENSE) and partial Fourier encoding for scan acceleration, nearly isotropic high-resolution data sets were acquired during free breathing in four minutes. Results:A high contrast and sufficient signal-to-noise ratio (SNR) were obtained, which allowed visualization of the major vessels up to the distal regions and detection of major branches. Phase encoding in the anterior-posterior (AP) direction was the most favorable SENSE configuration and allowed a reasonable scan time reduction with moderate SENSE factors. Conclusion:The employed 32-receive channel technology enabled a robust trade-off among SNR, spatial resolution, and scan time. In this study the most robust results were obtained using the smallest possible SENSE factors for a given voxel size and scan time.

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I. Gräßlin

Eight‐channel transmit/receive body MRI coil at 3T

Simultaneous dual‐nuclei imaging for motion corrected detection and quantification of ¹⁹F imaging agents

Free‐breathing whole‐heart coronary MR angiography on a clinical scanner in four minutes

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I. Gräßlin

Eight‐channel transmit/receive body MRI coil at 3T

Simultaneous dual‐nuclei imaging for motion corrected detection and quantification of 19F imaging agents

Free‐breathing whole‐heart coronary MR angiography on a clinical scanner in four minutes

Contact Info

Product

Resources

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Simultaneous dual‐nuclei imaging for motion corrected detection and quantification of ¹⁹F imaging agents