The Chemistry of Hyperpolarized Magnetic Resonance Probes

Product details:

ISBN13:	9780323918428
ISBN10:	0323918425
Binding:	Paperback
No. of pages:	200 pages
Size:	276x216 mm
Weight:	450 g
Language:	English
700

Category:

Analytical chemistry

Electricity, magnetism science

Analytical chemistry (charity campaign)

Electricity, magnetism science (charity campaign)

The Chemistry of Hyperpolarized Magnetic Resonance Probes

Suh, Eul Hyun; Kovacs, Zoltan;

Series: Advances in Magnetic Resonance Technology and Applications; 12;

Publisher: Academic Press

Date of Publication: 17 May 2024

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Long description:

The Chemistry of Hyperpolarized Magnetic Resonance Probes, Volume Seven focuses on the chemical aspects of hyperpolarized NMR/MRI technology, with synthesis and characterizations of labeled compounds discussed from a practical point-of-view. A brief overview of the various hyperpolarization techniques are given, with the optimization of hyperpolarization conditions and the determination of critical parameters such as polarization level and T1 relaxation values described. A practical guide on the in vivo applications of hyperpolarized compounds in small animals is also included.

Helps readers understand the structural features that determine the properties of HP-probes, such as chemical shift and relaxation times
Aids readers in selecting stable isotope labeled probes for hyperpolarized NMR/MRI applications
Teachers readers how to use the most appropriate synthetic methodology for the labeled probes
Covers how to find the most suitable polarization technique (DNP, PHIP etc.) for the probe

Table of Contents:

1. Hyperpolarized tracer design, synthesis and characterization
2. Optimization of hyperpolarized NMR signals in dissolution dynamic nuclear polarization
3. The chemistry of parahydrogen induced polarization (PHIP)
4. Beyond 13C-pyruvate: Biomedical applications with alternate hyperpolarized probes
5. Technical Considerations of MRI methods for validating DNP probes in small animals