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Author: Gangchea Lee
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Magnetic resonance imaging (MRI) is one of the major medical imaging diagnostic tool in todays daily clinical routine. This technique produces either two-dimensional (2D) or three-dimensional (3D) images with high resolution and contrast predominantly in soft tissues non-invasively, therefore, providing physiological information that other imaging modality cannot offer. The quality of a MRI image often depends on the signal to noise ratio (SNR), and the high SNR can be sacrificed to achieve either higher resolutions or shorter acquisition times. Therefore, MR research is striving for the highest achievable SNR in the images. There are two major ways to achieve higher SNR: 1) the use of higher static magnetic fields (B0), or 2) the use of optimized radiofrequency (RF) resonator for the image acquisition. However, the optimization of RF resonators at higher B0 becomes harder as the working frequency of the RF resonator increases proportional to B0 (radiation losses, lumped element losses, coil to cable interactions, low quality factors, and dielectric effect becomes problematic at high frequencies).This dissertation describes conventional RF resonator designs and new concepts of RF resonators at a very high magnetic field of 14.1 T. Proton MRI will be conducted on selected biological applications requiring the RF resonator to operate at 600 MHz. The fabrication of conventional coils a surface coil, a birdcage coil, and scroll coils is described in the earlier chapters (chapter 2, 3, 4). These coils were fabricated to image the mouse eye in vivo, the mouse brain in vivo, and fixed 3D printed cell strands respectively. Simultaneous imaging concept is also elaborated in chapter 4. In the later chapters (chapter 5, 6), two unconventional design RF resonators a dielectric resonator, and a patch antenna were fabricated, tested, and compared with state of the art RF resonators to investigate the possibility of substituting the conventional RF resonators. These two designs provided higher homogeneity but less SNRs. Therefore, improvements to be made to increase SNR are discussed in each chapter.
Author: Gangchea Lee
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Magnetic resonance imaging (MRI) is one of the major medical imaging diagnostic tool in todays daily clinical routine. This technique produces either two-dimensional (2D) or three-dimensional (3D) images with high resolution and contrast predominantly in soft tissues non-invasively, therefore, providing physiological information that other imaging modality cannot offer. The quality of a MRI image often depends on the signal to noise ratio (SNR), and the high SNR can be sacrificed to achieve either higher resolutions or shorter acquisition times. Therefore, MR research is striving for the highest achievable SNR in the images. There are two major ways to achieve higher SNR: 1) the use of higher static magnetic fields (B0), or 2) the use of optimized radiofrequency (RF) resonator for the image acquisition. However, the optimization of RF resonators at higher B0 becomes harder as the working frequency of the RF resonator increases proportional to B0 (radiation losses, lumped element losses, coil to cable interactions, low quality factors, and dielectric effect becomes problematic at high frequencies).This dissertation describes conventional RF resonator designs and new concepts of RF resonators at a very high magnetic field of 14.1 T. Proton MRI will be conducted on selected biological applications requiring the RF resonator to operate at 600 MHz. The fabrication of conventional coils a surface coil, a birdcage coil, and scroll coils is described in the earlier chapters (chapter 2, 3, 4). These coils were fabricated to image the mouse eye in vivo, the mouse brain in vivo, and fixed 3D printed cell strands respectively. Simultaneous imaging concept is also elaborated in chapter 4. In the later chapters (chapter 5, 6), two unconventional design RF resonators a dielectric resonator, and a patch antenna were fabricated, tested, and compared with state of the art RF resonators to investigate the possibility of substituting the conventional RF resonators. These two designs provided higher homogeneity but less SNRs. Therefore, improvements to be made to increase SNR are discussed in each chapter.
Author: Xiaoliang Zhang
Publisher:
ISBN:
Category : Magnetic resonance imaging
Languages : en
Pages : 560
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Book Description
Author: Gene Bogdanov
Publisher:
ISBN:
Category : Magnetic resonance imaging
Languages : en
Pages : 404
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Book Description
Author: Sven Junge
Publisher:
ISBN:
Category :
Languages : de
Pages : 266
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Book Description
Author: Lawrence J. Berliner
Publisher: Springer Nature
ISBN: 303047318X
Category : Science
Languages : en
Pages : 237
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Book Description
This book describes the methods of analysis and determination of oxidants and oxidative stress in biological systems. Reviews and protocols on select methods of analysis of ROS, RNS, oxygen, redox status, and oxidative stress in biological systems are described in detail. It is an essential resource for both novices and experts in the field of oxidant and oxidative stress biology.
Author: BuSik Park
Publisher:
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Category :
Languages : en
Pages :
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Book Description
Radiofrequency magnetic (B1) field inhomogeneity and absorbed power in sample and RF coil have been among the main causes for image degradation in magnetic resonance imaging (MRI) since its inception. The problem becomes more pronounced at high frequencies as wavelengths in tissue become shorter. To address these problems, we present methods for design, implementation, and evaluation of RF coils considering excitation uniformity and/or specific absorption rate (SAR) for high field nuclear magnetic resonance (NMR) and MRI. Specifically, we present 1) the design of a novel radiofrequency (RF) coil for imaging of histological slices of tissue using a 7.0 T MRI system, 2) numerical model of a dielectric resonator for high field MRI, 3) a method to separate conservative and magnetically-induced electric fields from numerical calculations for MR microscopy, 4) a simple method to decrease sample heating using conductive wires, 5) a numerical analysis of conservative and magnetically-induced electric field for low-frequency human imaging, 6) numerical calculation results for the B1 field and SAR evaluation in a 3T neonate head coil, and 7) design of a slice-selective array-optimized composite pulse to improve B1 uniformity and reduce SAR using an 8-channel transmit head array loaded with a head model. The methods and results presented here can provide very useful information for designing RF coils considering excitation uniformity and SAR simultaneously in high field MRI/NMR.
Author: Gillian Haemer
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Author: Joel Mispelter
Publisher: World Scientific Publishing Company
ISBN: 1783268042
Category : Technology & Engineering
Languages : en
Pages : 754
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Book Description
NMR Probeheads for Biophysical and Biomedical Experiments 2nd Edition is essential reading for anyone in the field of NMR or MRI, from students to medical or biological scientists performing experiments under certain physical and/or geometrical conditions, unattainable by conventional or available probes. The material guides the reader through the most basic and comprehensive stages in accomplishing a correct probe design, from a very basic oscillating circuit to much more elaborate designs.This new edition has been revised and updated to include a chapter dedicated to RF components, which are commonly used for probes realization and their frequency-dependent characteristics. Another completely revised chapter concerns the multiple coil systems and discusses arrays coils, different decoupling methods, and some principles for interfacing coils with low-noise preamplifiers. The principles of linear circuit analysis are presented in a dedicated chapter. Last but not least, accompanying files containing updated software for probe design have been made available from the publisher's website.
Author: Daniel James Lee
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
This thesis describes the design, construction and testing of a dome coil. The dome coil is hemispherical in shape and is intended to be used within a set of hemispherical gradient coils in a seven tesla magnetic resonance imaging magnet. The dome coil has eight independent elements and is designed to be used for parallel transmission and reception. It is shown that the dome coil produces less specific absorption rate than a conventional birdcage coil and is suitable for head imaging. A study of travelling wave magnetic resonance imaging is also presented. In this study two different methods of generating a travelling wave (using a patch antenna and an end-fire helix antenna) are compared, and the power requirements and specific absorption rate of the travelling wave approach are considered. It is concluded that travelling wave magnetic resonance imaging is best performed using a local receive coil and with the travelling wave antenna placed at least 50 cm from the subject. All theory relevant to the design, construction, testing and use of these coils and antennas is also presented.
Author: Pierre-Marie Robitaille
Publisher: Springer Science & Business Media
ISBN: 0387496483
Category : Medical
Languages : en
Pages : 487
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Book Description
The foundation for understanding the function and dynamics of biological systems is not only knowledge of their structure, but the new methodologies and applications used to determine that structure. This volume in Biological Magnetic Resonance emphasizes the methods that involve Ultra High Field Magnetic Resonance Imaging. It will interest researchers working in the field of imaging.
