Quantitative MRI in cancer

Title:

Series:

Imaging in medical diagnosis and therapy

Publication Information:

Boca Raton, FL. : CRC Press, c2012.

Physical Description:

xviii, 312 p. : ill. (some col.) ; 29 cm.

ISBN:

9781439820575

Abstract:

"Recent years have seen a tremendous explosion in both the number and quantity of imaging techniques that can be applied in the quantitative characterization of cancer. These techniques have come from all fields of non-invasive, in vivo medical imaging including magnetic resonance imaging (MRI), optical imaging, computed tomography (CT), positron emission tomography (PET), single photon emission computed tomography (SPECT), and ultrasound. Relevant techniques that have been developed report on, for example, tumor cellularity, vessel perfusion and permeability, hypoxic fractions, as well as cellular and molecular signatures. It is a reasonable hypothesis that characterization of tissue status can offer increased sensitivity and specificity when diagnosing and grading tumors. Furthermore, as many current anti-cancer drugs are designed to alter these specific tumor characteristics, imaging metrics designed to report on those phenomena promise to offer improved methods of planning treatment as well as assessing the response of tumors to treatment"--Provided by publisher.

Subject Term:

Cancer -- Magnetic resonance imaging

Magnetic resonance imaging

Added Author:

Yankeelov, Thomas

Pickens, David R.

Price, Ronald R.

Available:*

Library	Item Barcode	Call Number	Material Type	Item Category 1	Status
Searching... PSZ JB	30000010297223	RC270.3.M33 Q83 2012 f	Open Access Book	Book	Searching... Unknown
Searching... PSZ KL	33000000001181	RC270.3.M33 Q83 2012 f	Open Access Book	Book	Searching... Unknown

On Order

Summary

Propelling quantitative MRI techniques from bench to bedside, Quantitative MRI in Cancer presents a range of quantitative MRI methods for assessing tumor biology. It includes biophysical and theoretical explanations of the most relevant MRI techniques as well as examples of these techniques in cancer applications.

The introductory part of the book covers basic cancer biology, theoretical aspects of NMR/MRI physics, and the hardware required to form MR images. Forming the core of the book, the next three parts illustrate how to characterize tissue properties with endogenous and exogenous contrast mechanisms and discuss common image processing techniques relevant for cancer. The final part explores emerging areas of MR cancer characterization, including radiation therapy planning, cellular and molecular imaging, pH imaging, and hyperpolarized MR. Each of the post-introductory chapters describes the salient qualitative and quantitative aspects of the techniques before proceeding to preclinical and clinical applications. Each chapter also contains references for further study.

Leading the way toward more personalized medicine, this text brings together existing and emerging quantitative MRI techniques for assessing cancer. It provides a self-contained overview of the theoretical and experimental essentials and state of the art in cancer MRI.

Author Notes

Thomas E. Yankeelov is the director of Cancer Imaging Research at the Vanderbilt University Institute of Imaging Science. He is also an associate professor of radiology and radiological sciences, physics and astronomy, biomedical engineering, and cancer biology at Vanderbilt University.

David R. Pickens is an associate professor of radiology and radiological sciences at the Vanderbilt University School of Medicine.

Ronald R. Price is a professor of radiology and radiological sciences as well as physics and astronomy at Vanderbilt University.