Atnaujinkite slapukų nuostatas

Handbook of Anatomical Models for Radiation Dosimetry [Kietas viršelis]

5.00/5 (2 ratings by Goodreads)
Edited by (Rensselaer Polytechnic Institute, Troy, New York, USA), Edited by (Oak Ridge National Laboratory, Tennessee, USA)
  • Formatas: Hardback, 757 pages, aukštis x plotis: 254x178 mm, weight: 1560 g, 82 Tables, black and white; 31 Illustrations, color; 379 Illustrations, black and white
  • Serija: Series in Medical Physics and Biomedical Engineering
  • Išleidimo metai: 01-Sep-2009
  • Leidėjas: CRC Press Inc
  • ISBN-10: 1420059793
  • ISBN-13: 9781420059793
Kitos knygos pagal šią temą:
Handbook of Anatomical Models for Radiation DosimetryDidesnis paveikslėlis
  • Formatas: Hardback, 757 pages, aukštis x plotis: 254x178 mm, weight: 1560 g, 82 Tables, black and white; 31 Illustrations, color; 379 Illustrations, black and white
  • Serija: Series in Medical Physics and Biomedical Engineering
  • Išleidimo metai: 01-Sep-2009
  • Leidėjas: CRC Press Inc
  • ISBN-10: 1420059793
  • ISBN-13: 9781420059793
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9781420059793.html
Raktažodžiai:
Over the past few decades, the radiological science community has developed and applied numerous models of the human body for radiation protection, diagnostic imaging, and nuclear medicine therapy. The Handbook of Anatomical Models for Radiation Dosimetry provides a comprehensive review of the development and application of these computational models, known as "phantoms."

An ambitious and unparalleled project, this pioneering work is the result of several years of planning and preparation involving 64 authors from across the world. It brings together recommendations and information sanctioned by the International Commission on Radiological Protection (ICRP) and documents 40 years of history and the progress of those involved with cutting-edge work with Monte Carlo Codes and radiation protection dosimetry. This volume was in part spurred on by the ICRPs key decision to adopt voxelized computational phantoms as standards for radiation protection purposes. It is an invaluable reference for those working in that area as well as those employing or developing anatomical models for a a number of clinical applications.

Assembling the work of nearly all major phantom developers around the world, this volume examines:











The history of the research and development in computational phantoms Detailed accounts for each of the well-known phantoms, including the MIRD-5, GSF Voxel Family Phantoms, NCAT, UF Hybrid Pediatric Phantoms, VIP-Man, and the latest ICRP Reference Phantoms Physical phantoms for experimental radiation dosimetry The smallest voxel size (0.2 mm), phantoms developed from the Chinese Visible Human Project



Applications for radiation protection dosimetry involving environmental, nuclear power plant, and internal contamination exposures









Medical applications, including nuclear medicine therapy, CT examinations, x-ray radiological image optimization, nuclear medicine imaging, external photon and proton treatments, and management of respiration in modern image-guided radiation treatment Patient-specific phantoms used for radiation treatment planning involving two Monte Carlo code systems: GEANT4 and EGS Future needs for research and development

Related data sets are available for download on the authors website. The breadth and depth of this work enables readers to obtain a unique sense of the complete scientific process in computational phantom development, from the conception of an idea, to the identification of original anatomical data, to solutions of various computing problems, and finally, to the ownership and sharing of results in this groundbreaking field that holds so much promise.
Series Preface ix
Preface xi
Editors xv
Contributors xvii
Part I Phantoms
Computational Phantoms for Radiation Dosimetry: A 40-Year History of Evolution
3(40)
X. George Xu
Stylized Computational Phantoms Developed at ORNL and Elsewhere
43(22)
Keith F. Eckerman
John W. Poston, Sr.
Wesley E. Bolch
X. George Xu
The GSF Voxel Computational Phantom Family
65(22)
Maria Zankl
The ADELAIDE Teenage Female Voxel Computational Phantom
87(18)
Martin Caon
Giovanni Bibbo
John E. Pattison
The MCAT, NCAT, XCAT, and MOBY Computational Human and Mouse Phantoms
105(30)
W. Paul Segars
Benjamin M. W. Tsui
The 3D and 4D VIP-Man Computational Phantoms
135(28)
X. George Xu
Tsi-Chian Ephraim Chao
Ahmet Bozkurt
Chengyu Shi
Juying Zhang
The FAX06 and the MAX06 Computational Voxel Phantoms
163(36)
Richard Kramer
Helen Jamil Khoury
Jose Wilson Vieira
Vanildo Junior de Melo Lima
Eduardo Cesar de Miranda Loureiro
Gabriela Hoff
Iwan Kawrakow
The University of Florida Pediatric Phantom Series
199(22)
Choonsik Lee
Daniel L. Lodwick
Deanna Hasenauer Pafundi
Scott R. Whalen
Jonathan L. Williams
Wesley E. Bolch
Japanese Computational Phantoms: Otoko, Onago, JM, JM2, JF, TARO, HANAKO, Pregnant Woman, and Deformable Child
221(34)
Kimiaki Saito
Kaoru Sato
Sakae Kinase
Tomoaki Nagaoka
Korean Computational Phantoms: KMIRD, KORMAN, KORWOMAN, KTMAN-1, KTMAN-2, and HDRK-Man
255(24)
Choonsik Lee
Chan Hyeong Kim
Chinese Voxel Computational Phantoms: CNMAN, VCH, and CVP
279(26)
Binquan Zhang
Jizeng Ma
Guozhi Zhang
Qian Liu
Rui Qiu
Junli Li
Pregnant Female/Fetus Computational Phantoms and the Latest RPI-P Series Representing 3, 6, and 9 Month Gestational Periods
305(32)
X. George Xu
Chengyu Shi
Michael G. Stabin
Valery Taranenko
The Vanderbilt University Reference Adult and Pediatric Phantom Series
337(10)
Michael G. Stabin
Mary Ann Emmons-Keenan
W. Paul Segars
Michael J. Fernald
Mesh-Based and Anatomically Adjustable Adult Phantoms and a Case Study in Virtual Calibration of a Lung Counter for Female Workers
347(30)
Yong Hum Na
Juying Zhang
Aiping Ding
X. George Xu
The ICRP Reference Computational Phantoms
377(12)
Maria Zankl
Keith F. Eckerman
Wesley E. Bolch
Physical Phantoms for Experimental Radiation Dosimetry
389(24)
David E. Hintenlang
William E. Moloney
James Winslow
Part II Applications
Applications to Environmental Exposures
413(12)
Nina Petoussi-Henss
Kimiaki Saito
Applications to External Radiation Exposures in Nuclear Power Plants
425(24)
Warren Dan Reece
Chan Hyeong Kim
X. George Xu
Applications to Bioassay for Internal Radiation Contamination
449(22)
Gary H. Kramer
Applications to Nuclear Medicine
471(16)
Michael G. Stabin
Manuel Bardies
Applications to Computed Tomography for Pediatric Patients
487(24)
Wesley E. Bolch
Choonsik Lee
Jorge Hurtado
Jonathan L. Williams
Applications to Computed Tomography for Adult Patients
511(14)
John J. DeMarco
Michael McNitt-Gray
Applications to Optimization of X-Ray Radiographic Imaging
525(24)
Birsen Yazici
Young Son
An Jin
X. George Xu
Applications to Nuclear Medicine Imaging and Dosimetry Involving MCAT, NCAT, and MOBY Phantoms
549(18)
Benjamin M. W. Tsui
W. Paul Segars
Applications to Secondary Radiation Dosimetry in External Beam Radiation Therapy
567(24)
Harald Paganetti
Applications to Image-Guided Radiation Treatment Planning
591(16)
Chengyu Shi
Martin Fuss
Niko Papanikolaou
X. George Xu
Dose Calculations in Radiation Therapy Based on Patient Models Using the Geant4 Monte Carlo Code
607(26)
Harald Paganetti
Applications to Patient-Specific Voxel Computational Phantoms in EGS Monte Carlo Codes for Radiation Treatment Involving Photons and Electrons
633(22)
C.-M. Charlie Ma
Applications to Nonionizing Radiation Protection
655(24)
Ji Chen
Wolfgang Kainz
Dagang Wu
Summary and Future Needs Related to Computational Phantoms
679(6)
X. George Xu
Michael G. Stabin
Wesley E. Bolch
W. Paul Segars
About the Contributors 685(20)
Index 705
Dr. X. George Xu is a professor of nuclear engineering and biomedical engineering at Rensselaer Polytechnic Institute (RPI), Troy, New York. Dr. Keith F. Eckerman is the leader of the Dosimetry Research Team in the Environmental Science Division at the Oak Ridge National Laboratory (ORNL).