Last edited by Gakasa
Sunday, July 19, 2020 | History

1 edition of In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations found in the catalog.

In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations

by M. Rudin

  • 306 Want to read
  • 27 Currently reading

Published by Springer Berlin Heidelberg in Berlin, Heidelberg .
Written in English

    Subjects:
  • Organic Chemistry,
  • Analytical biochemistry,
  • Chemistry,
  • Physical organic chemistry,
  • Medical Radiology

  • About the Edition

    Isolated Cells and Perfused Organs 1. O. Kaplan, P.C.M. van Zijl, J.S. Cohen, Washington, DC/USA NMR Studies of Metabolism of Cells and Perfused Organs Individual Nuclei 2. S.R. Williams, London, UK In Vivo Proton Spectroscopy: Experimental Asoects and Potential 3. N. Beckmann, Basel, Switzerland In Vivo 13C Spectroscopy in Humans 4. M.J.W. Prior, R.J. Maxwell, J.R. Griffiths, London, UK Fluorine - 19F NMR Spectroscopy and Imaging In Vivo 5. J.S. Ingwall, Boston, MA/USA Measuring Cation Movements Across the Cell Wall Using NMR Spectroscopy: Sodium Movements in Striated Muscle 6. M. Rudin, A. Sauter, Basel, Switzerland In Vivo Phosphorus-31 NMR: Potential and Limitations.

    Edition Notes

    Statementedited by M. Rudin
    SeriesNMR Basic Principles and Progress -- 28, NMR Basic Principles and Progress -- 28.
    Classifications
    LC ClassificationsQD450-882
    The Physical Object
    Format[electronic resource] /
    Pagination1 online resource (xii, 190 pages 56 illustrations).
    Number of Pages190
    ID Numbers
    Open LibraryOL27047251M
    ISBN 10364277220X, 3642772188
    ISBN 109783642772207, 9783642772184
    OCLC/WorldCa851784132

      Recent developments in magnetic resonance imaging and spectroscopy afford the possibility of detecting and assessing transfer, expression and subsequent therapeutic changes of effector or marker.   In this work, we applied state-of-the-art magnetic resonance microscopy (MRM) in conjunction with localised spectroscopy at ultra-high magnetic field ( T), using a home-built solenoid RF coil.

      Signal/noise and spectral resolution limitations in magnetic resonance spectroscopy (MRS) have forced quantification of combined Glu-Gln as Glx. Several studies report reductions in Glx in major depressive disorder (MDD)[ 21 – 23 ], while manic [ 24, 25 ], depressed [ 26, 27 ], and fully-recovered BD subjects [ 28 ] show elevated Glx.   Andronesi, O. C. et al. Detection of 2-hydroxyglutarate in IDH-mutated glioma patients by in vivo spectral-editing and 2D correlation magnetic resonance spectroscopy. Sci. Transl. Med. 4, .

    Noninvasive quantitation of cytosine deaminase transgene expression in human tumor xenografts with in vivo magnetic resonance spectroscopy. Proc Natl Acad Sci USA – Kraitchman, D. L., Bulte, J. W. (). PURPOSE: To assess the relationship between breast cancer subtypes and choline detection by using in vivo proton magnetic resonance (MR) spectroscopy and to assess the feasibility of proton MR spectroscopy in the study of axillary lymph node metastases. MATERIALS AND METHODS: Breast and lymph node MR spectroscopy of lesions identified at contrast material–enhanced MR imaging was .


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In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations by M. Rudin Download PDF EPUB FB2

Buy In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations (NMR Basic Principles and Progress Book 28): Read Kindle Store Reviews - Price: $ In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations.

Editors (view affiliations) M. Rudin; Book. 27 Citations; Downloads; Part of the NMR Basic Principles and Progress book series (NMR, volume 28) Log in to check access. Buy eBook. USD Instant download; Readable on all devices. In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations.

In Vivo Magnetic Resonance Spectroscopy: In-Vivo MR Spectroscopy - Potential and Limitations Volume 3 by N. Beckmann,available at Book Depository with free delivery worldwide.

Magnetic Resonance Spectroscopy: Tools for Neuroscience Research and Emerging Clinical Applications is the first comprehensive book for non-physicists that addresses the emerging and exciting technique of magnetic resonance spectroscopy.

Divided into three sections, this book provides coverage of the key areas of concern for researchers. In vivo magnetic resonance spectroscopy III: In vivo MR spectroscopy: Potential and limitations. Springer, Berlin,ISBN 3‐‐‐1, DM ‐00 (hard cover) John C.

Waterton. Magnetic Resonance. MR is a technique with a wide range of applications in orthopedics, as it is capable of characterizing healthy bone tissue, diagnosing areas of bone degeneration and weakness, demonstrating structural characteristics of bone biomaterials, and testing the biocompatibility of.

Abstract. Due to the low natural abundance of 13 C nuclei, to their unfavourable gyromagnetic ratio, and to the necessity of removing the 13 C-1 H couplings using double resonance techniques the development of in vivo 13 C NMR spectroscopy has been slower than its 1 H and 31 P counterparts.

Nevertheless, in the past few years 13 CNMR has also been extended to in vivo applications in humans. Abstract.

The biochemical and clinical information which 1 H NMR spectroscopy can give in vivo is described. The major metabolites which have been detected in vivo are considered in turn. The measurement of lactate in ischaemia and anoxia is discussed, and the complementary role of 31 P spectroscopy is emphasised.

The use of N-acetylaspartate as a concentration standard, and as a. Abstract. The 19 F nucleus is useful for studies using NMR in vivo as it has a high sensitivity and there is a low background signal from the body.

The 19 F nucleus has a wide range of chemical shifts which offer advantages for studies using 19 F NMR spectroscopy, though they can be a problem for imaging experiments. Drugs, such as fluoropyrimidines, perfluoroearbon blood substitutes.

In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations. Vol. 28, Issue., p. Study of moderately rapid chemical exchange reactions by means of nuclear magnetic double resonance.

In-Vivo MR Spectroscopy: Potential and Limitations. Vol. 28, Issue., p. CrossRef. Get this from a library. In-Vivo Magnetic Resonance Spectroscopy III: In-Vivo MR Spectroscopy: Potential and Limitations. [M Rudin] -- Isolated Cells and Perfused Organs 1.

Kaplan, P.C.M. van Zijl, J.S. Cohen, Washington, DC/USA NMR Studies of Metabolism of Cells and Perfused Organs Individual Nuclei 2. S.R. Williams, London, UK. Based on the requirements of test protocols developed to evaluate clinical MRS single slice and volume localisation sequences, two clinical test objec.

Mass spectrometry (MS) and nuclear magnetic resonance (NMR) have evolved as the most common techniques in metabolomics studies, and each brings its own advantages and limitations.

Magnetic resonance (MR) imaging and MR spectroscopic imaging of a yr-old patient with prostate cancer (prostate-specific antigen level ng/ml, Gleason score 4 + 5). (A) T2-weighted MR image of the prostate with a tumour in the left peripheral zone (PZ). For tumour localisation, histopathology (B) is used as the gold standard.

In vivo magnetic resonance (MR)–near-infrared fluorescent imaging of U87MG tumor. Images were taken before and after injection of nanoparticles (NPs) using MR imaging and optical imaging. MR–NIRF dual-modality imaging can be also achieved by combining SPIOs as MRI contrast agents and QDs as semiconductor nanocrystals for NIRF imaging.

Magnetic resonance spectroscopy (MRS) MRS and magnetic resonance spectroscopy imaging (MRSI) can provide accurate and precise noninvasive measures of pH in vivo with reasonable spatial resolution.

An ideal MR pH indicator should have the following criteria: large pH sensitivity, a pKa in the physiological range, non-toxic at useful concentrations, metabolically stable and provide a high SNR. In vivo magnetic resonance spectroscopy (MRS) is a non-invasive brain imaging method that can explore metabolic concentrations within certain brain regions.

MRS detects radiofrequency signals generated by the magnetic nuclear spins of magnetically active nuclei such as protons, phosphorus, carbon and fluorine, which are excited by external. Schnall, Philadelphia, PA/USA Probes Tuned to Multiple Frequencies for In-Vivo NMR RF Pulses 3. P.C.M. van Zijl, Rockville, MD/USA; C.T.W.

Moonen, Bethesda, MD/USA Solvent Suppression Strategies for In Vivo Magnetic Resonance Spectroscopy 4. Download Citation | In Vivo 3-T MR Spectroscopy in the Distinction of Recurrent Glioma versus Radiation Effects: Initial Experience1 | To determine if 3-T magnetic resonance (MR) spectroscopy.

Magnetic resonance imaging (MRI) of the human spinal cord in vivo suffers from multiple practical limitations: low signal-to-noise ratio, the need for high resolution, and the detrimental influence of various motions, both voluntary and involuntary.Kyu-Ho Song, Hyeon-Man Baek, Do-Wan Lee and Bo-Young Choe, In vivo proton magnetic resonance spectroscopy of liver metabolites in non-alcoholic fatty liver disease in rats: T2 relaxation times in methylene protons, Chemistry and Physics of Lipids, /yslip.

These actions of CBD upon glutamate-GABA pathways may be especially important in ASD, where post mortem, genetic, and in vivo proton magnetic resonance spectroscopy (MRS) studies have shown.