
Magnetic resonance (MR) measures the tiny radio frequency signals emitted by the nucleus of the atom when living or inanimate material is placed in a magnetic field. On the one hand, these signals allow scientists to picture the architecture of molecules too small to be seen under the most powerful microscope, while on the other hand they give medical doctors a detailed picture of the internal structure of the human body without resorting to surgery of any kind. These two applications (high-resolution NMR spectroscopy and the MRI scanner) seem to be worlds apart, but the underlying physical principles are the same, and it makes sense to treat them together.Chemists and clinicians who use magnetic resonance have much to learn about each other's specialities if they are to make the best use of magnetic resonance technology. Many in the medical fraternity will benefit from a general appreciation of how high-resolution NMR has advanced our understanding of human biochemistry, diagnostic medicine, and the search for new drugs. A broad general understanding of magnetic resonance should prove of interest to doctors who make use of the MRI scanner, and to those of their patients who wish to learn more about these daunting machines, even if it is only the question of their own personal safety.At the other end of the spectrum, chemists and biochemists who use high-resolution NMR spectroscopy in their everyday investigations will benefit by broadening their horizons to cover the exciting new developments in MR imaging and in vivo spectroscopy, as one justification for their research is the eventual benefit to health care.Finally, anyone interested in how the human mind works (cognitive neuroscience) will find a chapter devoted to the exciting new developments in functional magnetic resonance imaging of the brain. Each disparate group has something useful to learn from the others. The treatment is pictorial rather than mathematical.
This book investigates the shared physical principles underlying both high-resolution nuclear magnetic resonance (NMR) spectroscopy and medical magnetic resonance imaging (MRI). Ray Freeman, a distinguished expert in the field, bridges the gap between chemical research and clinical diagnostics by demonstrating how these seemingly disparate applications rely on the same fundamental atomic interactions. The text provides a conceptual framework that connects molecular architecture analysis with human internal imaging, arguing that cross-disciplinary knowledge enhances both scientific research and medical practice.
What You Will Find
Experts and readers frequently highlight the text's success in prioritizing conceptual understanding over complex mathematical derivations, making it accessible to both chemists and clinicians. It is widely regarded as a valuable interdisciplinary resource for professionals seeking to understand the broader implications of magnetic resonance technology in health care and research.
Page Count:
290
Publication Date:
2003-06-19
Publisher:
Oxford University Press
ISBN-10:
019926225X
ISBN-13:
9780199262250
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