CRC PRESS
Series in Medical Physics and Biomedical Engineering
www.crcpress.com
Welcome Welcome to our catalogue for the Series in Medical Physics and Biomedical Engineering. This leading international series is also the official series of the International Organization for Medical Physics (IOMP) and features four of the world’s leading academics in this field and who serve as Series Editors; Kwan-Hoong Ng, Russell Ritenour, Slavik Tabakov, and John G. Webster. The series describes the applications of physical sciences, engineering, and mathematics in medicine and clinical research, meeting the need for up-to-date texts in this rapidly developing field. Books in the series range in level from upper-level undergraduate and graduate textbooks to practical handbooks and advanced expositions of current research. First established in the 1980s, the series contains books by some of the leading experts in medical physics and biomedical engineering. Titles covering the latest advances in the field are published every year and we have ten new titles coming in 2018. One of which is Paolo Russo’s Handbook of X-ray Imaging; Physics and Technology. This highly comprehensive handbook, edited by one of the world's leading experts in X-ray physics and technology, offers extensive coverage of the field and discusses all major radiographic techniques, including mammography, dental radiography, fluoroscopy, and computed tomography. This title can be found on page 6. For more information on any of these titles featured within this catalogue or if you would like to place an order, please contact your local sales representative.
Prices, publication dates and content are correct at time of going to press, but may be subject to change without notice.
Contents Series in Medical Physics and Biomedical Engineering ............................................................................................ 2 Index ................................................................................................................................................................................... 12
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A Brief Survey of Quantitative EEG
Achieving Quality in Brachytherapy
Kaushik Majumdar Series: Series in Medical Physics and Biomedical Engineering
B.R. Thomadsen, University of Wisconsin-Madison, USA Series: Series in Medical Physics and Biomedical Engineering
This book covers various quantitative methods for preprocessing and analyzing human EEG signals. It presents a holistic approach to quantitative EEG from its neurological basis to simultaneous EEG and fMRI studies. Equal emphasis is given to major mathematical and statistical theories and computational techniques that have been in use in qEEG and their applications on clinical and laboratory experimental EEG. The book is compact and self-contained, requiring no background in EEG processing or acquisition and quantitative techniques.
Achieving Quality in Brachytherapy addresses the main issues that often prevent correct delivery of brachytherapy treatment. The book explains how to set up a functional quality assurance program in brachytherapy and covers all the steps needed to undertake particular treatment plans, from the initial planning required to the detailed specification. It highlights the importance of planning as a means of controlling and dealing with errors during the treatment process and advises on what to check and how to check during treatment to ensure effective quality assurance.
CRC Press November 2017: 235 x 156: 268pp Hb: 978-1-439-89616-7: £115.00 eBook: 978-1-315-11725-6 * For full contents and more information, visit: www.crcpress.com/9781439896167
CRC Press January 1999: 234x156: 252pp Hb: 978-0-750-30554-9: £161.00 eBook: 978-1-482-26857-7 * For full contents and more information, visit: www.crcpress.com/9780750305549
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A Guide to Outcome Modeling In Radiotherapy and Oncology
Advanced and Emerging Technologies in Radiation Oncology Physics
Listening to the Data
Edited by Siyong Kim and John W. Wong Series: Series in Medical Physics and Biomedical Engineering
Edited by Issam El Naqa, University of Michigan, Ann Arbor, USA Series: Series in Medical Physics and Biomedical Engineering This book serves as a tutorial for newcomers to the field of outcome modeling; including in-depth how-to recipes on modeling artistry and providing instructions on how such models can approximate the physical and biological realities of clinical treatment. The book will also be of value to seasoned practitioners as a reference on the varying aspects of outcome modeling and their current applications.
CRC Press Market: Physics February 2018: 254 x 178: 368pp Hb: 978-1-498-76805-4: £115.00 eBook: 978-1-498-76806-1 * For full contents and more information, visit: www.crcpress.com/9781498768054
This book educates readers about new technologies before they appear in hospitals, enabling medical physicists and clinicians to prepare for new technologies thoroughly and proactively, and provide better patient care immediately, once new equipment becomes available. The book is divided into three parts: (1) recently developed technologies available for practice; (2) technologies under development but very close to actual practice; and (3) any technology in an early stage but which has potential for radiotherapy application. CRC Press Market: Physics May 2018: 254 x 178: 432pp Hb: 978-1-498-72004-5: £140.00 * For full contents and more information, visit: www.crcpress.com/9781498720045
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Advanced MR Neuroimaging A Practical Approach to Medical Image Processing Elizabeth Berry, Elizabeth Berry Ltd, Leeds, UK Series: Series in Medical Physics and Biomedical Engineering Using an interactive workbook approach to introduce the concept in a nonmathematical way, A Practical Approach to Medical Image Processing explains the techniques through worked examples, exercises, and problems and validates each technique with a corresponding case study, which originates from a published journal article. The examples and exercises are supplied on an accompanying CD-ROM that uses well-known, readily available software such as the software package ImageJ. With an emphasis on the effects of a technique on an image, this text provides a thorough understanding of medical image processing that allows readers to make a reasoned choice of method. CRC Press December 2007: 235 x 156: 304pp Hb: 978-1-584-88824-6: £67.99 eBook: 978-1-584-88825-3 * For full contents and more information, visit: www.crcpress.com/9781584888246
From Theory to Clinical Practice Ioannis Tsougos, University of Thessaly, Medical School, Medical Physics, Larissa, Greece Series: Series in Medical Physics and Biomedical Engineering This book focuses on the basic principles and theories of diffusion, perfusion, magnetic resonance spectroscopy, and functional MRI. It also explores their clinical applications and places emphasis on the associated artifacts and pitfalls with a comprehensive and didactic approach. This book aims to bridge the gap between research applications and clinical practice. It will serve as an educational manual for neuroimaging researchers and radiologists, neurologists, neurosurgeons, and physicists with an interest in advanced MR techniques. It will also be a useful reference text for experienced clinical scientists who wish to optimize their multi-parametric imaging approach. CRC Press Market: Physics December 2017: 254 x 178: 221pp Hb: 978-1-498-75523-8: £115.00 eBook: 978-1-498-75525-2 * For full contents and more information, visit: www.crcpress.com/9781498755238
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Advances in Particle Therapy
Biomolecular Action of Ionizing Radiation
A Multidisciplinary Approach Edited by Manjit Dosanjh, CERN, Switzerland and Jacques Bernier, Genolier Clinic, Swiss Medical Network, Switzerland Series: Series in Medical Physics and Biomedical Engineering Hadron therapy is a groundbreaking new method of treating cancer. Boasting greater precision than other therapies, this therapy is now utilised in many clinical settings and the field is growing. More than 50 medical facilities currently perform (or are planned to perform) this treatment, with this number set to double by 2020. This new text covers the most recent advances in hadron therapy, exploring the physics, technology, biology, diagnosis, clinical applications, and economics behind the therapy. Providing essential and up-to-date information on recent developments in the field, this book will be of interest to current and aspiring specialists from a wide range of backgrounds. CRC Press Market: Physics May 2018: 254 x 178: 288pp Hb: 978-1-138-06441-6: £115.00 * For full contents and more information, visit: www.crcpress.com/9781138064416
Shirley Lehnert, McGill University, Montreal, Quebec, Canada Series: Series in Medical Physics and Biomedical Engineering Raising the standard for radiation biology textbooks, this graduate-level textoffers an up-to-date analysis of molecular responses in the body induced by ionizing radiation. It presents an in-depth perspective on clinical applications for the treatment of cancer and radiation injuries. Based on a popular course at McGill University,the bookclarifies the underlying mechanisms of radiation effects on signal transduction pathways using terms that non-experts in molecular biology can understand. With an emphasis on medical physics, it relates principles of radiobiophysics and key advances with potential applications of ionizing radiation for diagnosis and treatment. CRC Press October 2007: 235 x 156: 560pp Pb: 978-0-750-30824-3: £71.99 eBook: 978-1-420-01192-0 * For full contents and more information, visit: www.crcpress.com/9780750308243
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An Introduction to Radiation Protection in Medicine Edited by Jamie V. Trapp, Queensland University of Technology, Brisbane, Australia and Tomas Kron, Peter MacCullum Cancer Center, Melbourne, Australia Series: Series in Medical Physics and Biomedical Engineering With worked examples and real-world case studies, this text covers the physical and biological background of the subject and addresses the medical situations where radiation is the tool to diagnose or treat human disease. It examines the framework of radiation protection guidelines introduced by the ICRP, discusses the units and tools used in radiation protection, and introduces the concepts of a system of radiation protection in the workplace. The core of the book presents detailed information on the practical applications of radiation protection in the three areas of medicine where radiation is most widely used: radiology, nuclear medicine, and radiotherapy. CRC Press March 2008: 235 x 156: 296pp Hb: 978-1-584-88964-9: £67.99 eBook: 978-1-584-88965-6 * For full contents and more information, visit: www.crcpress.com/9781584889649
Clinical Radiotherapy Physics with MATLAB A Problem-Solving Approach Pavel Dvorak Series: Series in Medical Physics and Biomedical Engineering This much-needed book teaches users how to create their own applications using MATLAB, as a complement to commercial software particularly when the latter does not cover specific clinical needs. Readers will learn to independently analyse and/or process images and other clinical data in order to deal with standard and non-standard clinical situations. The primary objectives are real clinical problems and the demonstration of methods to deal with them. This book is expected to improve significantly readers' levels of understanding of areas such as data nature, information contents and data flow. Areas covered include diagnostics, radiotherapy, feedback following treatment and QA. CRC Press Market: Physics May 2018: 254 x 178: 224pp Hb: 978-1-498-75499-6: £100.00 * For full contents and more information, visit: www.crcpress.com/9781498754996
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An Introduction to Rehabilitation Engineering Edited by Rory A Cooper, University of Pittsburgh, Pennsylvania, USA, Hisaichi Ohnabe, University of Pittsburgh, Pennsylvania, USA and Douglas A. Hobson, University of Pittsburgh, Pennsylvania, USA Series: Series in Medical Physics and Biomedical Engineering This resource focuses on the principles, modeling, standards, devices, and technologies of rehabilitation engineering and assistive technology. It describes numerous design models and processes, including participatory action design and service delivery models. The book also discusses the components of devices such as cushions, wheelchairs, prostheses, orthoses, hearing aids, and TTYs. The contributors assess industry standards and explore innovative technology aids, such as sensors, robot-assisted therapy, and speech recognition software. The text contains a set of learning objectives and study questions in each chapter as well as a list of definitions at the end of the book. CRC Press December 2006: 234x156: 470pp Hb: 978-0-849-37222-3: £63.99 eBook: 978-1-420-01249-1 * For full contents and more information, visit: www.crcpress.com/9780849372223
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Contemporary IMRT Developing Physics and Clinical Implementation S. Webb, Institute of Cancer Research and Royal Marsden NHS Trust, UK Series: Series in Medical Physics and Biomedical Engineering Focusing on new developments and the preliminary clinical implementation, Contemporary IMRT: Developing Physics and Clinical Implementation discusses the relationship between these advances and applications. Capturing the latest technological advances, the book reviews modern applications of IMRT and shows how IMRT is used now and how it will be used in the future. The book begins with a historical background of IMRT as well as a discussion of the current state of IMRT. It also covers technical solutions that have been commercialized, such as the sliding window technique, step-and-shoot, tomotherapy, and the Cyberknife. The final chapter explores imaging developments and new planning methods, including gradient-descent and split modulation. CRC Press October 2004: 235 x 156: 492pp Hb: 978-0-750-31004-8: £161.00 eBook: 978-1-420-03453-0 * For full contents and more information, visit: www.crcpress.com/9780750310048
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Correction Techniques in Emission Tomography
Electrical Impedance Tomography
Edited by Mohammad Dawood, European Institute for Molecular Imaging, Münster, Germany, Xiaoyi Jiang, University of Münster, Germany and Klaus Schäfers, European Institute for Molecular Imaging, Münster, Germany Series: Series in Medical Physics and Biomedical Engineering
Methods, History and Applications Edited by David S. Holder, University College London, UK Series: Series in Medical Physics and Biomedical Engineering
Written by an interdisciplinary team of medical doctors, computer scientists, physicists, engineers, and mathematicians, this volume presents various correction methods used in emission tomography to generate and enhance images. It covers nuclear medicine imaging, hybrid emission tomography, and optical imaging. An important aspect of the book is on new and sophisticated motion correction techniques in PET imaging. The book also illustrates basic principles as well as recent advances, such as model-based iterative algorithms and 4D methods.
With contributions from leading international researchers, this reference provides an up-to-date review of the progress of EIT, the present state of knowledge, and a look at future advances and applications. The book discusses reconstruction algorithms, EIT instrumentation, and various EIT studies, such as breast cancer screening and artificial ventilation in intensive care units. It also surveys new developments in magnetic induction tomography and MREIT as well as offers insight into three of the most productive and longstanding EIT research groups. The book also includes two nontechnical appendices that provide a brief and simple introduction to bioimpedance and the methods of EIT.
CRC Press April 2012: 235 x 156: 287pp Hb: 978-1-439-81298-3: £109.00 eBook: 978-1-439-81301-0 * For full contents and more information, visit: www.crcpress.com/9781439812983
CRC Press December 2004: 234x156: 456pp Hb: 978-0-750-30952-3: £168.00 eBook: 978-1-420-03446-2 * For full contents and more information, visit: www.crcpress.com/9780750309523
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Design of Pulse Oximeters
Emerging Technologies in Brachytherapy
Edited by John G. Webster, University of Wisconsin, Madison, USA Series: Series in Medical Physics and Biomedical Engineering This book describes the hardware and software needed to make a pulse oximeter, and includes the equations, methods, and software required for them to function effectively. The book begins with describing how oxygen is delivered to the tissue, historical methods for measuring oxygenation, and the invention of the pulse oximeter in the early 1980s. Subsequent chapters cover oxygen saturation display, how to use an LED, light sensors, probes, cables, the techniques used to analyze pulse oximeter performance, and pulse oximetry applications. The book contains useful examples, several worked equations, flow charts, and examples of algorithms used to calculate oxygen saturation. CRC Press October 1997: 234x156: 260pp Hb: 978-0-750-30467-2: £161.00 eBook: 978-1-420-05079-0 * For full contents and more information, visit: www.crcpress.com/9780750304672
Edited by William Y. Song, Odette Cancer Centre, Sunnybrook Health Science Centre, Toronto, Canada, Kari Tanderup, Aarhus University Hospital, Aarhus University and Bradley Pieters Series: Series in Medical Physics and Biomedical Engineering Brachytherapy is continuously advancing. Years of accumulated experience have led to clinical evidence of its benefit in numerous clinical sites such as gynecological, prostate, breast, rectum, ocular, and many other cancers. But it is a true challenge for practicing professionals and students to readily grasp the overarching trends of the field, especially of those technologies and innovative practices that are not yet established but are certainly on the rise. Addressing this challenge, Emerging Technologies in Brachytherapy presents a comprehensive collection of chapters on the latest trending/emerging technologies and expert opinions. CRC Press Market: Physics May 2017: 254 x 178: 416pp Hb: 978-1-498-73652-7: £127.00 eBook: 978-1-498-73654-1 * For full contents and more information, visit: www.crcpress.com/9781498736527
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Diagnostic Endoscopy
Environmental Radioactivity and Emergency Preparedness
Edited by Haishan Zeng, BC Cancer Research Centre, University of British Columbia, Vancouver, Canada Series: Series in Medical Physics and Biomedical Engineering Combining material from a SPIE course on diagnostic endoscopy with the authors’ graduate-level course on biomedical optics, this work covers basic optics, details of design, and biomedical uses. It is written for researchers and graduate students in medical optics and biomedical engineering. The book uses extensive examples and case studies to illustrate the basics of endoscopic optics, the pros and cons of white light endoscopy and fluorescence endoscopy for diagnostic applications, and various endoscopic microscopy and spectroscopy imaging modalities. CRC Press Market: Medical Physics December 2013: 235 x 156: 272pp Hb: 978-1-420-08346-0: £75.99 eBook: 978-1-420-08347-7 * For full contents and more information, visit: www.crcpress.com/9781420083460
Mats Isaksson, Department of Radiation Physics, Institute of Clinical Sciences, The Sahlgrenska Academy, University of Gothenburg, Sweden and Christopher L. Raaf, Medical Physics, Department of Translational Medicine, Lund University, Sweden Series: Series in Medical Physics and Biomedical Engineering The book explores how to deal with the threats posed by different radiological sources, including those that are lost or hidden, and the issues posed by the use of such sources. It presents measurement methods and approaches to model and quantify the extent of threat, and also presents strategies for emergency preparedness, such as strategies for first-responders and radiological triage in case an accident should happen. CRC Press Market: Physics December 2016: 254 x 178: 614pp Hb: 978-1-482-24464-9: £76.00 eBook: 978-1-315-37287-7 * For full contents and more information, visit: www.crcpress.com/9781482244649
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Fundamental Mathematics and Physics of Medical Imaging
Graphics Processing Unit-Based High Performance Computing in Radiation Therapy
Jack Lancaster, Research Imaging Institute, University of Texas Health Science Center at San Antonio, Texas, USA and Bruce Hasegawa Series: Series in Medical Physics and Biomedical Engineering
Edited by Xun Jia, University of Texas Southwestern Medical Center, Dallas, USA and Steve B. Jiang, University of Texas Southwestern Medical Center, Dallas, USA Series: Series in Medical Physics and Biomedical Engineering
Authored by a leading educator, this book is ideal for medical imaging courses. Rather than focus on imaging modalities, the book delves into the mechanisms of image formation and image quality common to all imaging systems: contrast mechanisms, noise, and spatial and temporal resolution. This is an extensively revised new edition of The Physics of Medical X-Ray Imaging by Bruce Hasegawa (Medical Physics Publishing, 1991). A wide range of modalities are covered including X-ray CT, MRI and SPECT.
Written by international experts in radiation oncology, biomedical imaging, computing, and physics, this book collects state-of-the-art research on GPU computing and its applications to medical physics problems in radiation therapy. It summarizes advances and presents technical details and insightful discussions on the use of GPU in addressing key radiotherapy problems. The book also examines two real systems developed with GPU as a core component to accomplish important clinical tasks in modern radiotherapy.
CRC Press Market: Physics August 2016: 254 x 178: 322pp Hb: 978-1-498-75161-2: £63.99 eBook: 978-1-498-75163-6 * For full contents and more information, visit: www.crcpress.com/9781498751612
CRC Press Market: Physics January 2018: 235 x 156 Hb: 978-1-482-24478-6: £131.00 Pb: 978-1-138-89432-7: £75.00 eBook: 978-1-351-22928-9 * For full contents and more information, visit: www.crcpress.com/9781138894327
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Handbook of Anatomical Models for Radiation Dosimetry
Fundamentals of MRI An Interactive Learning Approach Elizabeth Berry, Elizabeth Berry Ltd, Leeds, UK and Andrew J. Bulpitt, University of Leeds, School of Computing, Leeds, UK Series: Series in Medical Physics and Biomedical Engineering
Edited by Xie George Xu, Rensselaer Polytechnic Institute, Troy, New York, USA and Keith F. Eckerman, Oak Ridge National Laboratory, Tennessee, USA Series: Series in Medical Physics and Biomedical Engineering
This interactive workbook provides a practical, self-contained introduction to the principles of MRI. Shaped by the authoritative experience of the authors, the book presents the fundamentals of MRI, while an accompanying CD-ROM offers animations and exercises that will help students develop a deeper understanding of the physical principles of MRI in practice. The text includes a number of exercises and worked examples with detailed solutions. Fundamentals of MRI: An Interactive Learning Approach provides radiologists, radiographers, and clinicians with a pragmatic approach to MRI that builds a solid foundation for further practice and study.
Covering the 40-year history of human model development, this volume presents all of the major anatomical and physical models that have been developed for human body radiation protection, diagnostic imaging, and nuclear medicine therapy. This comprehensive reference explores how these models have evolved over time and the role that modern technologies have played in this development. In addition, it evaluates the specific strengths of each model, discusses the wide range of applications available for these models, and addresses technical aspects of human modeling and computer simulations. Data sets are available for download on an accompanying website.
CRC Press December 2008: 234x156 Hb: 978-1-584-88901-4: £50.99 eBook: 978-1-584-88902-1 * For full contents and more information, visit: www.crcpress.com/9781584889014
CRC Press September 2009: 254 x 178: 757pp Hb: 978-1-420-05979-3: £117.00 eBook: 978-1-420-05980-9 * For full contents and more information, visit: www.crcpress.com/9781420059793
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Gamma Cameras for Interventional and Intraoperative Imaging Edited by Alan C. Perkins, University of Nottingham, United Kingdom and John E. Lees Series: Series in Medical Physics and Biomedical Engineering Gamma Cameras for Interventional and Intraoperative Imaging is the first book to cover this new area of imaging, andprovides a unique insight into the experimental and clinical use of small field of view gamma cameras in hospitals. This book explores advances in the design and operation of compact gamma cameras and conducts a thorough review of current SFOV systems, before exploring the clinical applications of the technology. It is an essential reference for surgeons, operating theatre staff, clinical scientists (medical physicists), technologists, nuclear physicians and radiologists whose patients could benefit from this technology. CRC Press Market: Physics November 2016: 235 x 156: 209pp Hb: 978-1-498-72928-4: £114.00 eBook: 978-1-315-37022-4 * For full contents and more information, visit: www.crcpress.com/9781498729284
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Handbook of Optical Sensing of Glucose in Biological Fluids and Tissues Edited by Valery V. Tuchin, Saratov State University, Russia Series: Series in Medical Physics and Biomedical Engineering With an extensive list of references on glucose sensing, glucose monitoring, and light-tissue interaction, this handbook analyzes trends in noninvasive optical glucose sensing and discusses its impact on tissue optical properties. It presents an up-to-date review of commercialized glucose sensors and the underlying science behind their functionality, discusses the fundamentals and basic research of light-tissue interaction, and describes biological fluids that contain glucose on physiological and hyperphysiological levels. The book also details new optical techniques for glucose diffusion coefficient measurements in human tissues and explains glucose-induced optical clearing effects in tissue and blood. CRC Press December 2008: 235 x 156: 744pp Hb: 978-1-584-88974-8: £129.00 eBook: 978-1-584-88975-5 * For full contents and more information, visit: www.crcpress.com/9781584889748
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Handbook of Photonics for Biomedical Science
Intensity-Modulated Radiation Therapy
Edited by Valery V. Tuchin, Saratov State University, Russia Series: Series in Medical Physics and Biomedical Engineering Addressing the latest problems in biomedical optics and biophotonics, this handbook describes advanced biophotonics methods and techniques intensively developed in recent years. It discusses optical and terahertz spectroscopy and imaging methods for biomedical diagnostics based on the interaction of coherent, polarized, and acoustically modulated radiation with tissues and cells. It covers modalities of nonlinear spectroscopic microscopies, photonic technologies for therapy and surgery, and nanoparticle photonic technologies for cancer treatment and UV radiation protection. The text also elucidates the advanced spectroscopy and imaging of normal and pathological tissues. CRC Press May 2010: 254 x 178: 868pp Hb: 978-1-439-80628-9: £146.00 eBook: 978-1-439-80629-6 * For full contents and more information, visit: www.crcpress.com/9781439806289
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Handbook of X-ray Imaging Physics and Technology
Key Title
Edited by Paolo Russo, University of Napoli Frederico II, Napoli, Italy Series: Series in Medical Physics and Biomedical Engineering
S. Webb, Institute of Cancer Research and Royal Marsden NHS Trust, UK Series: Series in Medical Physics and Biomedical Engineering Combining state-of-the-art literature together with the author's personal research experience, this book describes in detail the physics germane to the development of a particular form of clinical conformal radiotherapy called intensity modulated radiation therapy (IMRT). IMRT has become a topic of tremendous importance within the last several years and is now being seriously investigated for its potential to improve the outcome of radiation therapy. According to E-Streams, "It would be a very useful book for graduate students and researchers in many disciplines including medical physics, biomedical engineering, radiology, radiotherapy, and clinical research." CRC Press January 2001: 235 x 156: 454pp Pb: 978-0-750-30699-7: £92.00 eBook: 978-1-420-03411-0 * For full contents and more information, visit: www.crcpress.com/9780750306997
Linear Accelerators for Radiation Therapy, Second Edition David Greene, Christie Hospital, Manchester, UK and P.C Williams, Christie Hospital, Manchester, UK Series: Series in Medical Physics and Biomedical Engineering
This highly comprehensive handbook, edited by one of the world's leading experts in X-ray physics and technology, offers extensive coverage of the field. The book's scope includes X-rays as applied both to radiology for medical diagnostics and to industrial nondestructive testing. Basic introductory aspects are covered, as well as application-specific details on all major radiographic techniques, including mammography, dental radiography, fluoroscopy, and computed tomography. Industrial radiography and tomography is incorporated, including imaging of artworks. Phase contract X-ray radiography and tomography, radioprotection and educational aspects are also covered.
Linear Accelerators for Radiation Therapy, Second Edition focuses on the fundamentals of accelerator systems, explaining the underlying physics and the different features of these systems. This edition includes expanded sections on the treatment head, on x-ray production via multileaf and dynamic collimation for the production of wedged and other intensity modulated beams, on electron scattering systems, and on dosimetry. It contains a detailed description of electron beam optics and linear accelerator components. The final chapter explains how to use other equipment, such as scanners and simulators, in conjunction with linear accelerators for optimum treatment of cancers.
CRC Press Market: Physics January 2018: 279 x 216: 1393pp Hb: 978-1-498-74152-1: £385.00 eBook: 978-1-351-22825-1 * For full contents and more information, visit: www.crcpress.com/9781498741521
CRC Press January 1997: 234x156: 286pp Hb: 978-1-138-42951-2: £145.00 Pb: 978-0-750-30476-4: £80.00 eBook: 978-1-439-89295-4 * For full contents and more information, visit: www.crcpress.com/9780750304764
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Intelligent and Adaptive Systems in Medicine Edited by Olivier C. L. Haas, Coventry University, UK and Keith J. Burnham, Coventry University, UK Series: Series in Medical Physics and Biomedical Engineering This book clearly and concisely explains a range of adaptive and intelligent systems, highlighting their benefits and limitations with realistic medical examples. It illustrates how these systems can be used in all stages of medical treatment. Each chapter presents a family of an intelligent and adaptive system, explains the techniques and algorithms behind these systems, and explores how to solve medical and biomedical problems using intelligent and adaptive systems. The book focuses on the tools of fuzzy logic, artificial neural networks, neuro-fuzzy modeling, adaptive and predictive control, systems and statistical modeling, and image processing. CRC Press March 2008: 235 x 156: 400pp Hb: 978-0-750-30994-3: £146.00 eBook: 978-1-420-01208-8 * For full contents and more information, visit: www.crcpress.com/9780750309943
Medical Equipment Management Keith Willson, Imperial College London, Keith Ison, Head of Medical Physics, Guy's and St Thomas' NHS Foundation Trust and Slavik Tabakov, King's College Hospital, London, UK Series: Series in Medical Physics and Biomedical Engineering As medical technology in clinical care becomes more complex, clinical professionals and support staff must know how to keep patients safe and equipment working in the clinical environment. Accessible to all healthcare professionals and managers, this book presents an integrated approach to managing medical equipment in healthcare organizations. It explains the underlying principles and requirements and raises awareness of what needs to be done and what questions to ask. The book also provides practical advice and refers readers to appropriate legislation and guidelines. CRC Press December 2013: 235 x 156: 344pp Hb: 978-1-420-09958-4: £71.99 eBook: 978-1-420-09959-1 * For full contents and more information, visit: www.crcpress.com/9781420099584
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Medical Physics and Biomedical Engineering B.H Brown, ROYAL HALLAMSHIRE HOSPITAL, U.K., R.H Smallwood, University of Sheffield, England, UK, D.C. Barber, Royal Hallamshire Hospital, Sheffield, UK, P.V Lawford, ROYAL HALLAMSHIRE HOSPITAL and D.R Hose, University of Sheffield, Sheffield, UK Series: Series in Medical Physics and Biomedical Engineering Appropriate for senior undergraduates and graduates, this text presents the underlying physics, electronics, anatomy, and physiology as well as addresses practical applications. The structured approach of the text builds and broadens the material of opening chapters in the later chapters. The book covers biomechanics, image formation techniques, biomedical devices, physiological signals and responses, and respiratory and cardiovascular function and measurement. It includes chapter problems with short questions to test understanding of the main principles and longer questions to test more in-depth knowledge, along with detailed bibliographies that provide references to introductory texts and research materials. CRC Press January 1998: 246x174: 768pp Pb: 978-0-750-30368-2: £65.99 eBook: 978-1-315-27560-4 * For full contents and more information, visit: www.crcpress.com/9780750303682
Nuclear Medicine Physics Edited by Joao Jose De Lima, IBILI Biophysics Institute, Coimbra, Portugal Series: Series in Medical Physics and Biomedical Engineering Edited by a renowned international expert in the field, Nuclear Medicine Physics offers an up-to-date, state-of-the-art account of the physics behind the theoretical foundation and applications of nuclear medicine. It covers important physical aspects of the methods and instruments involved in modern nuclear medicine, along with related biological topics. The book discusses the production of radioisotopes and radiopharmaceuticals, positron physics and positron applications in medicine and biology, and modern radiation detectors and measuring methods. It also explores systems in nuclear medicine, imaging methodologies, dosimetry, and the biological effects of radiation. CRC Press November 2010: 235 x 156: 524pp Hb: 978-1-584-88795-9: £137.00 eBook: 978-1-584-88796-6 * For full contents and more information, visit: www.crcpress.com/9781584887959
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Minimally Invasive Medical Technology Edited by John G. Webster, University of Wisconsin, Madison, USA Series: Series in Medical Physics and Biomedical Engineering Collecting contributions from workers in various fields within the sphere of minimally invasive medical technology, this book provides essential information for those involved with researching, designing, and using minimally invasive devices and systems. It emphasizes the technology required to accomplish minimally invasive medicine. The book will be of interest to biomedical engineers, medical physicists, and health care providers who want to know the technical workings of their devices and instruments. CRC Press January 2001: 235 x 156: 334pp Hb: 978-0-750-30733-8: £161.00 eBook: 978-1-420-03391-5 * For full contents and more information, visit: www.crcpress.com/9780750307338
Monte Carlo Calculations in Nuclear Medicine, Second Edition Applications in Diagnostic Imaging Edited by Michael Ljungberg, Lund University Hospital, Sweden, and Lund University, Sweden, Sven-Erik Strand, Lund University Hospital, Sweden, and Lund University, Sweden and Michael A. King, University of Massachusetts Medical Center, Worcester, USA Series: Series in Medical Physics and Biomedical Engineering From first principles to current computer applications, this book covers the applications of Monte Carlo calculations in nuclear medicine and critically reviews them from a diagnostic perspective. New chapters in this edition cover codes and applications in pre-clinical PET and SPECT. The book explains how Monte Carlo methods and software packages can be applied to evaluate scatter in SPECT and PET imaging, collimation, and image deterioration. CRC Press Market: Nuclear Medicine November 2012: 234x156: 357pp Hb: 978-1-439-84109-9: £113.00 eBook: 978-1-439-84110-5 Prev. Ed Hb: 978-0-750-30479-5 * For full contents and more information, visit: www.crcpress.com/9781439841099
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Physics for Diagnostic Radiology, Third Edition Philip Palin Dendy, Addenbrookes NHS Trust, Cambridge, UK and Brian Heaton, Aberdeen Radiation Protection Services, UK Series: Series in Medical Physics and Biomedical Engineering Fully revised and updated, this bestselling text helps readers understand how various imaging techniques work. This edition includes new chapters on PET and PACS as well as new material on digital receptors, radiation doses and risks to patients, and special radiographic techniques, including subtraction techniques and interventional radiology. It also emphasizes the differences between analogue and digital images and covers multi-slice CT and three-dimensional resolution, dual energy applications, and cone beam CT. Exercises, multiple choice questions, extensive references, and further reading aid in understanding. CRC Press Market: Radiology August 2011: 254x178: 716pp Hb: 978-1-420-08315-6: £61.99 eBook: 978-1-439-89692-1 Prev. Ed Hb: 978-0-750-30590-7 * For full contents and more information, visit: www.crcpress.com/9781420083156
Physiology, Biophysics, and Biomedical Engineering Edited by Andrew W Wood, Swinburne University of Technology, Hawthorn, Victoria, Australia Series: Series in Medical Physics and Biomedical Engineering Showing how biophysics and biomedical engineering have advanced modern medicine, this text provides a multidisciplinary understanding of biological phenomena and the instrumentation for monitoring these phenomena. It also explores the application of physics and engineering methods to medicine and biology. The book includes a range of numerical ®
problems with worked solutions and offers MATLAB code for advanced mathematical analysis of physiological and clinical monitoring systems. A solutions manual is available with qualifying course adoption. CRC Press February 2012: 254 x 178: 782pp Hb: 978-1-420-06513-8: £60.99 eBook: 978-1-466-55279-1 * For full contents and more information, visit: www.crcpress.com/9781420065138
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Practical Biomedical Signal Analysis Using MATLAB®
Proton Therapy Physics
Katarzyn J. Blinowska, University of Warsaw, Poland and Jaroslaw Zygierewicz, University of Warsaw, Poland Series: Series in Medical Physics and Biomedical Engineering
Edited by Harald Paganetti, Massachusetts General Hospital and Harvard Medical School, Boston, USA Series: Series in Medical Physics and Biomedical Engineering
This book not only covers the current techniques of biomedical signal processing, but it also offers hands-on guidance on which methods are appropriate for a given task and different types of data. The first several chapters of the text describe signal analysis techniques—including the newest and most advanced
This practical guide goes beyond current books on proton therapy to provide an in-depth overview of the physics aspects of this radiation therapy modality, eliminating the need to dig through information scattered in the medical physics literature. Along with exploring QA issues and biological considerations, it collects the latest clinical studies on the use of protons in treatment planning and radiation monitoring. Suitable for both newcomers and more seasoned specialists, the book helps readers understand the uncertainties and limitations of precisely shaped dose distribution.
®
methods—in an easy and accessible way. MATLAB routines are listed when available and freely available software is discussed where appropriate. The final chapter explores the application of the methods to a broad range of biomedical signals, highlighting problems encountered in practice. CRC Press September 2011: 235 x 156: 324pp Hb: 978-1-439-81202-0: £86.00 eBook: 978-1-439-81203-7 * For full contents and more information, visit: www.crcpress.com/9781439812020
CRC Press December 2011: 234x156: 704pp Hb: 978-1-439-83644-6: £121.00 eBook: 978-1-439-83645-3 * For full contents and more information, visit: www.crcpress.com/9781439836446
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Prevention of Pressure Sores
Quantifying Morphology and Physiology of the Human Body Using MRI
Engineering and Clinical Aspects J.G Webster Series: Series in Medical Physics and Biomedical Engineering Prevention of Pressure Sores: Engineering and Clinical Aspects collects together material from throughout the literature. The book first discusses the causes of pressure sores and then describes warning signs and behavior to prevent the incidence of pressure sores. It also examines the numerous different devices used to alleviate and prevent pressure sores, including various types of seat cushions, hospital beds, complex pressure relief methods, wheelchair pressure reliefs, and other preventative methods. After comparing the accuracy of various methods of measuring pressure distributions using different types of sensors, the book discusses the treatment of pressure sores. CRC Press June 1991: 235 x 156: 260pp Hb: 978-0-750-30099-5: £153.00 eBook: 978-1-439-89286-2 * For full contents and more information, visit: www.crcpress.com/9780750300995
Edited by L. Tugan Muftuler, Department of Neurosurgery, Medical College of Wisconsin, Milwaukee, USA Series: Series in Medical Physics and Biomedical Engineering This book delivers an indispensable reference for readers who would like to explore in vivo MRI techniques to quantify changes in the morphology and physiology of tissues caused by various disease mechanisms. It presents a wide range of quantitative MRI techniques to study the morphology and physiology of the whole body, from the brain to musculoskeletal systems. With internationally renowned experts sharing their insight on the latest developments, the book goes beyond conventional MRI contrast mechanisms to include new techniques that measure electromagnetic and mechanical properties of tissues. CRC Press Market: Biomedical Engineering May 2013: 234x156: 525pp Hb: 978-1-439-85265-1: £146.00 eBook: 978-1-439-85268-2 * For full contents and more information, visit: www.crcpress.com/9781439852651
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Problems and Solutions in Medical Physics
Quantitative MRI of the Brain
Diagnostic Imaging Physics
Principles of Physical Measurement, Second edition
Kwan-Hoong Ng, University of Malaya, Kuala Lumpur, Malaysia, Jeannie Hsiu Ding Wong, University of Malaya, Kuala Lumpur, Malaysia and Geoffrey D. Clarke, Unnviersity of Texas, Health Science Center at San Houston, Texas Series: Series in Medical Physics and Biomedical Engineering While graduate programs in medical physics are increasing across the globe, there is no graduate-level book currently dedicated to solving problems in medical physics. Filling this need, the first volume of this set covers diagnostic imaging physics. It is suitable for graduate courses in medical physics, radiological sciences, and biomedical engineering. The book helps students understand how to apply theoretical concepts in real-world medical physics situations. CRC Press Market: Physics May 2018: 216 x 140: 128pp Hb: 978-1-138-54258-7: £115.00 Pb: 978-1-482-23995-9: £46.99 * For full contents and more information, visit: www.crcpress.com/9781482239959
Edited by Mara Cercignani, Brighton and Sussex Medical School, University of Sussex, UK, Nicholas G. Dowell, Brighton and Sussex Medical School, University of Sussex, Brighton, UK and Paul S. Tofts, Brighton and Sussex Medical School, University of Sussex, UK Series: Series in Medical Physics and Biomedical Engineering Building on the success of the first edition, the winner of the 2004 BMA Radiology Medical Book Competition, Quantitative MRI of the Brain: Principles of Physical Measurement gives a unique view on how to use an MRI machine in a new way. This indispensable 'how to' manual shows the MRI physicist and research clinician how to implement new techniques on an MRI scanner to understand more about the biological processes in the patient and physiological changes in healthy controls. This book is essential reading for anyone who wants to use the gamut of modern quantitative MRI methods to measure the effects of disease, its progression, and its response to treatment. CRC Press Market: Physics January 2018: 279 x 216: 342pp Hb: 978-1-138-03285-9: £140.00 eBook: 978-1-315-36357-8 * For full contents and more information, visit: www.crcpress.com/9781138032859
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Radiation Protection in Medical Imaging and Radiation Oncology
Rehabilitation Engineering Applied to Mobility and Manipulation Rory A Cooper, University of Pittsburgh, Pennsylvania, USA Series: Series in Medical Physics and Biomedical Engineering
Edited by Richard J. Vetter, Professor Emeritus, Radiation Safety Officer Emeritus, Mayo Clinic and Magdalena S. Stoeva, Chair, IOMP Medical Physics World Board, York, UK Series: Series in Medical Physics and Biomedical Engineering This book focuses on the professional, operational, and regulatory aspects of radiation protection. It summarizes evidence supporting changes in consensus recommendations, regulations, and health physics practices associated with recent advances in radiology, nuclear medicine, and radiation oncology. The book is based on current recommendations by the International Commission on Radiological Protection and also includes substantial information on international aspects of radiation protection. It supports intelligent and practical methods for protection of personnel, the public, and patients. CRC Press Market: Medical Physics December 2015: 235 x 156: 454pp Hb: 978-1-482-24537-0: £65.99 eBook: 978-1-482-24538-7 * For full contents and more information, visit: www.crcpress.com/9781482245370
Rehabilitation Engineering Applied to Mobility and Manipulation provides broad background and motivational material to ease readers' introduction to the subject. The book begins with a wide-ranging yet concise introduction to the legislative, technological, testing, and design basis of rehabilitation engineering, followed by the fundamentals of design and materials and a full account of the biomechanics of rehabilitation. Major sections of the book are devoted to various aspects of mobility, including detailed discussion of wheelchair design. Valuable additional material deals with seating, prosthetic devices, robotics, and the often-neglected subject of recreational devices and vehicles. CRC Press January 1995: 234x156: 534pp Hb: 978-0-750-30343-9: £248.00 eBook: 978-1-420-05032-5 * For full contents and more information, visit: www.crcpress.com/9780750303439
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Radiosensitizers and Radiochemotherapy in the Treatment of Cancer
Statistical Computing in Nuclear Imaging Arkadiusz Sitek, Associate Physicist, Department of Radiology, Massachusetts General Hospital, Harvard Medical School Series: Series in Medical Physics and Biomedical Engineering
Shirley Lehnert, McGill University, Montreal, Quebec, Canada Series: Series in Medical Physics and Biomedical Engineering This book gathers into a single volume the most up-to-date information on radiosensitizing drugs, the mechanisms of radiosensitization, and the clinical applications of this treatment modality. Written for radiation oncologists, medical oncologists, graduate students and residents in various branches of oncology, the text details a range of agents and treatment pathways. Intuitively organized by topic and application, it includes the latest clinical trials, extensive illustrations, and a wealth of references. CRC Press Market: Physics December 2014: 235 x 156: 548pp Hb: 978-1-439-82902-8: £119.00 eBook: 978-1-439-82903-5 * For full contents and more information, visit: www.crcpress.com/9781439829028
This book is highly focused on computational aspects of Bayesian data analysis of photon-limited data acquired in tomographic measurements in nuclear imaging. Basic Bayesian statistical concepts, elements of Bayesian decision theory, and counting statistics are discussed in the first chapters. Monte Carlo methods and Markov chains in posterior analysis are discussed next along with an introduction to nuclear imaging and applications. The final chapter includes illustrative examples of statistical computing based on Poisson-multinomial statistics. Examples include calculation of Bayes factors and risks, and Bayesian decision making and hypothesis testing. CRC Press Market: Physics December 2014: 235 x 156: 275pp Hb: 978-1-439-84934-7: £75.99 eBook: 978-1-498-72930-7 * For full contents and more information, visit: www.crcpress.com/9781439849347
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Radiotherapy and Clinical Radiobiology of Head and Neck Cancer
Stem Cell Labeling for Delivery and Tracking Using Noninvasive Imaging
Loredana G. Marcu, University of Oradea, Bihor, Romania; University of Adelaide, Australia, Iuliana Toma-Dasu, Stockholm University and Karolinska Institutet, Medical Radiation Physics Division, Stockholm, Sweden, Alexandru Dasu, Linköping University, Radiation Physics, Sweden and Claes Mercke, Karolinska Institutet and Karolinska University Hospital, Stockholm, Sweden Series: Series in Medical Physics and Biomedical Engineering Common factors that lead to treatment failure in head and neck cancer are the lack of tumour oxygenation, the accelerated division of cancer cells during treatment, and radioresistance. These tumour-related challenges and possible ways to overcome them are covered in this book, authored by three medical physicists and a clinical oncologist who explain how different radiobiological findings have led to the development of various treatment techniques for head and neck cancer. Novel treatment techniques as supported by current scientific evidence are comprehensively explored, as well as the major challenges that arise in the retreatment of patients who have already undergone a form of radiotherapy for primary head and neck cancer. CRC Press Market: Physics May 2018: 254 x 178: 240pp Hb: 978-1-498-77829-9: £92.00 * For full contents and more information, visit: www.crcpress.com/9781498778299
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Edited by Dara L. Kraitchman, Johns Hopkins University, Baltimore, Maryland, USA and Joseph C. Wu, Stanford University School of Medicine, Stanford, California, USA Series: Series in Medical Physics and Biomedical Engineering A comprehensive overview of cell therapy imaging, this book emphasizes the use of medical imaging for therapeutic delivery/targeting, cell tracking, and determining therapeutic efficacy. It presents background information and insight on the major classes of stem and progenitor cells and describes the main imaging modalities and state-of-the-art techniques currently employed for stem cell tracking. The book also offers clinical perspectives on existing and potential uses of stem cells as well as the impact of image-guided delivery and tracking in major organ systems. CRC Press November 2011: 234x156: 489pp Hb: 978-1-439-80751-4: £113.00 eBook: 978-1-439-80752-1 * For full contents and more information, visit: www.crcpress.com/9781439807514
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Targeted Muscle Reinnervation
The Physics of Modern Brachytherapy for Oncology
A Neural Interface for Artificial Limbs Edited by Todd A. Kuiken, Rehabilitation Institute of Chicago, Illinois, USA, Aimee E. Schultz Feuser, Rehabilitation Institute of Chicago, Illinois, USA and Ann K. Barlow, Rehabilitation Institute of Chicago, Illinois, USA Series: Series in Medical Physics and Biomedical Engineering Developed by Dr. Todd A. Kuiken and Dr. Gregory A. Dumanian, targeted muscle reinnervation (TMR) is a new approach to accessing motor control signals from peripheral nerves after amputation and providing sensory feedback to prosthesis users. This practical approach has many advantages over other neural-machine interfaces for the improved control of artificial limbs. With contributions from renowned leaders in the field, including Drs. Kuiken and Dumanian, this book provides a template for the clinical implementation of TMR and a resource for further research in this new area of science. CRC Press November 2017: 234x156: 225pp Hb: 978-1-439-86080-9: £140.00 Pb: 978-1-138-19864-7: £51.99 eBook: 978-1-439-86081-6 * For full contents and more information, visit: www.crcpress.com/9781138198647
Dimos Baltas, Klinikum Offenbach, Germany & University of Athens, Greece, Loukas Sakelliou, University of Athens, Greece and Nikolaos Zamboglou, Klinikum Offenbach, Germany Series: Series in Medical Physics and Biomedical Engineering Written by leading experts in the physics, development, and implementation of brachytherapy, The Physics of Modern Brachytherapy for Oncology discusses the basic physics behind modern brachytherapy and addresses all practical issues, such as production, calibration, and dosimetry of sources. Beginning with fundamental atomic and nuclear physics, the book discusses the radionuclides used in brachytherapy, reflecting upon past (radium), present (iodine, palladium, iridium, or cobalt), and future (ytterbium or thulium) methods. It proceeds to examine source calibration and dosimetry protocols for dose rate calculation while the final chapters explore more recent processes, including Monte Carlo-aided, experimental, and gel dosimetry. CRC Press September 2006: 235 x 156: 647pp Hb: 978-0-750-30708-6: £200.00 eBook: 978-1-420-01242-2 * For full contents and more information, visit: www.crcpress.com/9780750307086
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The Physical Measurement of Bone
The Physics of Three Dimensional Radiation Therapy
Edited by C.M. Langton, Hull Royal Infirmary, UK and C.F. Njeh, University of California, Los Angeles, USA Series: Series in Medical Physics and Biomedical Engineering The Physical Measurement of Bone provides a detailed description of all the major methods of bone analysis, including brief comments on clinical evaluation. The physics of each method are introduced as well as a summary of practical procedures. The book is essential reading for practicing medical physicists and technicians who need to know about the many methods of bone analysis open to them, and, more importantly, the wide coverage provides a good introductory framework for students of medical physics and biomedical engineering. CRC Press December 2003: 235 x 156: 639pp Hb: 978-0-750-30838-0: £232.00 eBook: 978-1-420-03334-2 * For full contents and more information, visit: www.crcpress.com/9780750308380
Conformal Radiotherapy, Radiosurgery and Treatment Planning S. Webb, Institute of Cancer Research and Royal Marsden NHS Trust, UK Series: Series in Medical Physics and Biomedical Engineering The Physics of Three Dimensional Radiation Therapy presents a broad study of the use of three-dimensional techniques in radiation therapy. These techniques are used to specify the target volume precisely and deliver radiation with precision to minimize damage to surrounding healthy tissue. The book discusses multimodality computed tomography, complex treatment planning software, advanced collimation techniques, proton radiotherapy, megavoltage imaging, and stereotactic radiosurgery. A review of the literature, numerous questions, and many illustrations make this book suitable for teaching a course. CRC Press January 1993: 234x156: 388pp Hb: 978-1-138-44571-0: £145.00 Pb: 978-0-750-30254-8: £71.99 eBook: 978-1-420-05036-3 * For full contents and more information, visit: www.crcpress.com/9780750302548
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The Physics of Conformal Radiotherapy
The Physiological Measurement Handbook
Advances in Technology (PBK) S. Webb, Institute of Cancer Research and Royal Marsden NHS Trust, UK Series: Series in Medical Physics and Biomedical Engineering The Physics of Conformal Radiotherapy: Advances in Technology provides a thorough overview of conformal radiotherapy and biological modeling, focusing on the underlying physics and methodology of three-dimensional techniques in radiation therapy. This carefully written, authoritative account evaluates three-dimensional treatment planning, optimization, photon multileaf collimation, proton therapy, transit dosimetry, intensity-modulation techniques, and biological modeling. It is an invaluable teaching guide and reference for all medical physicists and radiation oncologists/therapists that use conformal radiotherapy. CRC Press January 1997: 234x156: 382pp Hb: 978-1-138-44572-7: £145.00 Pb: 978-0-750-30397-2: £80.00 eBook: 978-1-420-05080-6 * For full contents and more information, visit: www.crcpress.com/9780750303972
Edited by John G. Webster, University of Wisconsin, Madison, USA Series: Series in Medical Physics and Biomedical Engineering This handbook describes the use of instruments and techniques for practical measurements required in medicine. It covers sensors, techniques, hardware, and software as well as processing systems, automatic data acquisition, reduction and analysis, and their incorporation for diagnosis. Suitable for both instrumentation designers and users, the book provides a guide to selecting the most appropriate physiological measurement method. It also gives invaluable information on designing new instruments to make physiological measurements. CRC Press Market: Physics December 2014: 254 x 178: 616pp Hb: 978-1-439-80847-4: £146.00 eBook: 978-1-439-80848-1 * For full contents and more information, visit: www.crcpress.com/9781439808474
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The Practice of Internal Dosimetry in Nuclear Medicine
Vibrational Spectroscopy for Tissue Analysis
Michael G. Stabin Series: Series in Medical Physics and Biomedical Engineering Written by one of the world's leading experts, this text describes in detail the use of internal dose calculations in nuclear medicine. While radiation therapy with external sources of radiation always employs calculations of dose, this is not routinely done in nuclear medicine therapy. This book discusses how to do dose calculations for diagnostic nuclear medicine drugs which is needed during drug approval. It also touches on how to perform more and better dose calculations in the future.
CRC Press Market: Medical Physics August 2016: 235 x 156: 204pp Hb: 978-1-482-24581-3: £63.99 eBook: 978-1-315-37279-2 * For full contents and more information, visit: www.crcpress.com/9781482245813
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Ihtesham ur Rehman, Department of Materials Science and Engineering, The Kroto Research Institute, The University of Sheffield, UK, Zanyar Movasaghi and Shazza Rehman, Airedale NHS Foundation Trust, Airedale General Hospital, UK Series: Series in Medical Physics and Biomedical Engineering This book presents a variety of vibrational spectroscopic techniques, focusing on Raman and Fourier transform infrared (FTIR) spectroscopy and their use in noninvasive optical tissue diagnosis. It covers the most recent research in this area to create a unique database of different chemical bands and their assignments of spectral bands. The text explores the spectroscopic investigation of different tissues and samples, including breast tissue, lung tissue, and brain tissue. Based on their years of experience with various applications, the authors provide definitions of peak frequencies as well as other aspects of spectroscopy that could be helpful to a wide range of scientists. CRC Press Market: Biophysics September 2012: 235 x 156: 356pp Hb: 978-1-439-83608-8: £138.00 eBook: 978-1-439-83609-5 * For full contents and more information, visit: www.crcpress.com/9781439836088
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Therapeutic Applications of Monte Carlo Calculations in Nuclear Medicine Edited by H. Zaidi, Geneva University Hospital, Switzerland and G Sgouros, Memorial Sloan Kettering Cancer Center, USA Series: Series in Medical Physics and Biomedical Engineering This book examines the applications of Monte Carlo (MC) calculations in therapeutic nuclear medicine, from basic principles to computer implementations of software packages and their applications in radiation dosimetry and treatment planning. The book covers the entire range of MC applications in therapeutic medical and health physics, from its use in imaging prior to therapy to dose distribution modeling in targeted radiotherapy. It discusses fundamental concepts of radiation dosimetry, radiobiological aspects of targeted radionuclide therapy, dose calculation, and treatment planning methodology. The book also explores several computer programs and radiation transport calculations. CRC Press September 2002: 235 x 156: 384pp Hb: 978-0-750-30816-8: £161.00 eBook: 978-1-420-03325-0 * For full contents and more information, visit: www.crcpress.com/9780750308168
Webb's Physics of Medical Imaging, Second Edition Edited by M A Flower, Institute of Cancer Research/Royal Marsden NHS Foundation Trust, UK Series: Series in Medical Physics and Biomedical Engineering Since the publication of the best-selling first edition, the technology and clinical applications of medical imaging have changed significantly. Gathering these developments into one volume, this comprehensive second edition presents the basic physics, modern technology, and up-to-date examples of clinical application across all the modalities of medical imaging. It now covers state-of-the-art detector technology and computer processing used in medical imaging. Along with many new examples and figures, this edition includes new chapters on medical image processing and multimodality imaging. CRC Press Market: Medical Physics June 2012: 254 x 178: 864pp Hb: 978-0-750-30573-0: £61.99 eBook: 978-1-466-56895-2 * For full contents and more information, visit: www.crcpress.com/9780750305730
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Ultrasound in Medicine Edited by Francis A. Duck, A.C Baker, Christian Michelsen Research AS, Bergen, Norway and H.C Starritt, Royal United Hospital, Bath, UK Series: Series in Medical Physics and Biomedical Engineering Ultrasound in Medicine is a broad-ranging study of medical ultrasound, including ultrasound propagation, interaction with tissue, and innovations in the application of ultrasound in medicine. The book focuses specifically on the science and technology-the underlying physics and engineering. It examines the most closely related aspects of these basic sciences in clinical application and reviews the success of technological innovations in improving medical diagnosis and treatment. The book bridges the gap between tutorial texts widely available for ultrasound and medical training and theoretical works on acoustics. CRC Press January 1998: 234x156: 500pp Hb: 978-0-750-30593-8: £178.00 eBook: 978-1-420-05037-0 * For full contents and more information, visit: www.crcpress.com/9780750305938
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INDEX BY TITLE
A
M
Achieving Quality in Brachytherapy ............................. 2 Advanced and Emerging Technologies in Radiation Oncology Physics .................................................................. 2 Advanced MR Neuroimaging ......................................... 2 Advances in Particle Therapy .......................................... 3
Medical Equipment Management ............................... 6 Medical Physics and Biomedical Engineering ............................................................................. 7 Minimally Invasive Medical Technology .................... 7 Monte Carlo Calculations in Nuclear Medicine, Second Edition ....................................................................................... 7
B Biomolecular Action of Ionizing Radiation ............... 3 Brief Survey of Quantitative EEG, A ............................... 2
Clinical Radiotherapy Physics with MATLAB ............ 3 Contemporary IMRT ............................................................ 3 Correction Techniques in Emission Tomography ........................................................................... 4
Physical Measurement of Bone, The .......................... 10 Physics for Diagnostic Radiology, Third Edition ....................................................................................... 7 Physics of Conformal Radiotherapy, The ................. 10 Physics of Modern Brachytherapy for Oncology, The ............................................................................................ 10 Physics of Three Dimensional Radiation Therapy, The ............................................................................................ 10 Physiological Measurement Handbook, The .......... 10 Physiology, Biophysics, and Biomedical Engineering ............................................................................. 7 Practical Approach to Medical Image Processing, A ................................................................................................... 2 Practical Biomedical Signal Analysis Using MATLABÂŽ .................................................................................. 8 Practice of Internal Dosimetry in Nuclear Medicine, The ............................................................................................ 11 Prevention of Pressure Sores ............................................ 8 Problems and Solutions in Medical Physics .............. 8 Proton Therapy Physics ...................................................... 8
E Electrical Impedance Tomography .............................. 4 Emerging Technologies in Brachytherapy ................. 4 Environmental Radioactivity and Emergency Preparedness .......................................................................... 4
F Fundamental Mathematics and Physics of Medical Imaging .................................................................................... 5 Fundamentals of MRI ......................................................... 5
G Gamma Cameras for Interventional and Intraoperative Imaging ...................................................... 5 Graphics Processing Unit-Based High Performance Computing in Radiation Therapy ................................. 5 Guide to Outcome Modeling In Radiotherapy and Oncology, A ............................................................................. 2
H Handbook of Anatomical Models for Radiation Dosimetry ................................................................................. 5 Handbook of Optical Sensing of Glucose in Biological Fluids and Tissues ................................................................. 5 Handbook of Photonics for Biomedical Science ...................................................................................... 6 Handbook of X-ray Imaging ............................................ 6
I Intelligent and Adaptive Systems in Medicine ................................................................................... Intensity-Modulated Radiation Therapy .................... Introduction to Radiation Protection in Medicine, An ................................................................................................ Introduction to Rehabilitation Engineering, An ................................................................................................
6 6
Q Quantifying Morphology and Physiology of the Human Body Using MRI .................................................... 8 Quantitative MRI of the Brain .......................................... 8
R Radiation Protection in Medical Imaging and Radiation Oncology ............................................................ 9 Radiosensitizers and Radiochemotherapy in the Treatment of Cancer ........................................................... 9 Radiotherapy and Clinical Radiobiology of Head and Neck Cancer ............................................................................ 9 Rehabilitation Engineering Applied to Mobility and Manipulation ......................................................................... 9
S Statistical Computing in Nuclear Imaging ............... 9 Stem Cell Labeling for Delivery and Tracking Using Noninvasive Imaging ......................................................... 9
T
3
Targeted Muscle Reinnervation ................................... 10 Therapeutic Applications of Monte Carlo Calculations in Nuclear Medicine .......................................................... 11
3
U
L Linear Accelerators for Radiation Therapy, Second Edition ....................................................................................... 6
Webb's Physics of Medical Imaging, Second Edition ..................................................................................... 11
Nuclear Medicine Physics .................................................. 7
P
D
W
N
C
Design of Pulse Oximeters ................................................ 4 Diagnostic Endoscopy ....................................................... 4
Vibrational Spectroscopy for Tissue Analysis .......... 11
Ultrasound in Medicine ................................................... 11
V
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INDEX BY AUTHOR
13
Stabin, Michael G. .............................................................. 11
B Baltas, Dimos ........................................................................ 10 Berry, Elizabeth ....................................................................... 2 Berry, Elizabeth ....................................................................... 5 Blinowska, Katarzyn ............................................................. 8 Brown, B.H ................................................................................. 7
C Cercignani, Mara ................................................................... 8 Cooper, Rory A ....................................................................... 3 Cooper, Rory A ....................................................................... 9
T Thomadsen, B.R. .................................................................... Trapp, Jamie V. ....................................................................... Tsougos, Ioannis ................................................................... Tuchin, Valery V. .................................................................... Tuchin, Valery V. ....................................................................
2 3 2 5 6
V Vetter, Richard J. .................................................................... 9
W
D Dawood, Mohammad ....................................................... 4 De Lima, Joao Jose .............................................................. 7 Dendy, Philip Palin ............................................................... 7 Dosanjh, Manjit ...................................................................... 3 Duck, Francis A. ................................................................... 11 Dvorak, Pavel ........................................................................... 3
E El Naqa, Issam ......................................................................... 2
Webb, S. ...................................................................................... 3 Webb, S. ...................................................................................... 6 Webb, S. ................................................................................... 10 Webb, S. ................................................................................... 10 Webster, J.G ............................................................................. 8 Webster, John G. ................................................................... 4 Webster, John G. ................................................................... 7 Webster, John G. ................................................................ 10 Willson, Keith ........................................................................... 6 Wood, Andrew ....................................................................... 7
X
F Flower, M ................................................................................ 11
Xu, Xie George ....................................................................... 5
Z
G Greene, David ......................................................................... 6
Zaidi, H. .................................................................................... 11 Zeng, Haishan ......................................................................... 4
H Haas, Olivier C. L. ................................................................... 6 Holder, David S. ..................................................................... 4
I Isaksson, Mats ......................................................................... 4
J Jia, Xun ........................................................................................ 5
K Kim, Siyong ............................................................................... 2 Kraitchman, Dara L. ............................................................. 9 Kuiken, Todd A. ................................................................... 10
L Lancaster, Jack ........................................................................ 5 Langton, C.M. ....................................................................... 10 Lehnert, Shirley ...................................................................... 3 Lehnert, Shirley ...................................................................... 9 Ljungberg, Michael ............................................................. 7
M Majumdar, Kaushik .............................................................. 2 Marcu, Loredana G. ............................................................. 9 Muftuler, L. Tugan ................................................................ 8
N Ng, Kwan-Hoong .................................................................. 8
P Paganetti, Harald .................................................................. 8 Perkins, Alan C. ....................................................................... 5
R Rehman, Ihtesham ur ...................................................... 11 Russo, Paolo ............................................................................. 6
S Sitek, Arkadiusz ...................................................................... 9 Song, William Y. ..................................................................... 4
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