[edited by] Michael Ljungberg, Sven-Erik Strand, Michael A. King.
EDITION STATEMENT
Edition Statement
2nd ed.
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Boca Raton :
Name of Publisher, Distributor, etc.
CRC Press,
Date of Publication, Distribution, etc.
2013.
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
1 online resource (xx, 337 pages) :
Other Physical Details
illustrations.
SERIES
Series Title
Series in medical physics and biomedical engineering
INTERNAL BIBLIOGRAPHIES/INDEXES NOTE
Text of Note
Includes bibliographical references and index.
CONTENTS NOTE
Text of Note
1. Introduction to the Monte Carlo method / Michael Ljungberg -- 2. Variance reduction techniques / David R. Haynor and Robert L. Harrison -- 3. Anthropomorphic phantoms : early developments and current advances / I. George Zubal and W. Paul Segars -- 4. The gamma camera : basic principles / Sven-Erik Strand, Mikael Peterson, and Magnus Dahlbom -- 5. Positron emission tomography / Kjell Erlandsson and Tomas Ohlsson -- 6. The SimSET program / Robert L. Harrison and Tom K. Lewellen -- 7. The SIMIND Monte Carlo program / Michael Ljungberg -- 8. GATE : a toolkit for Monte Carlo simulations in tomography and radiation therapy / Irène Buvat, Didier Benoit, and Sébastien Jan -- 9. The MCNP Monte Carlo program / Per Munck of Rosenschöld and Erik Larsson -- 10. The EGS family of code systems / Scott J. Wilderman and Yoshihito Namito -- 11. ASIM : an analytic PET simulator / Brian F. Elston [and others] -- 12. Monte Carlo in SPECT scatter correction / Kenneth F. Koral and Yuni K. Dewaraja -- 13. Monte Carlo in quantitative 3D PET : scatter / Robert L. Harrison and Robert S. Miyaoka -- 14. Design of molecular imaging systems assisted by the Monte Carlo methods / Irène Buvat -- 15. Introduction to task-based assessment of image quality for investigators employing Monte Carlo simulation of imaging systems / Michael A. King -- 16. Monte Carlo method applied to nuclear medicine dosimetry / Michael Ljungberg.
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SUMMARY OR ABSTRACT
Text of Note
"Preface Monte Carlo methods have become an important tool for exploring complicated systems and especially for investigation of imaging parameters in nuclear medicine. By using sampling methods based on probability distribution function in combination with methods that simulate the various particle interaction that can occur, a detailed radiation transport can be simulated from the patient into the imaging system. Monte Carlo simulation does not replace experimental measurements but offers a unique possibility to gain understanding in the underlying physics phenomena that form nuclear medicine images. It also provides a substantial help to researchers to develop methods for image improvement. When combining an accurate model of the imaging system and a realistic model of the patient's geometry and activity distribution, the simulated images can be highly clinically realistic and almost undistinguishable from a real patient measurement. The first edition of this book was published in 1998. It was one of the first books that combined a description of the Monte Carlo methods and principles with relevant Monte Carlo programs and applications in the field of diagnostic nuclear medicine. It is now 14 years since that publication and we therefore felt that it was important to have a second edition since new and very powerful Monte Carlo programs and methods have become available. This new edition provides the background to, and a summary of, the current Monte Carlo techniques that are in use today. The focus is still on the diagnostic imaging application but several programs that are described in the book also allow for charge-particle simulations applicable to dosimetryrelated applications"--