Cancer Nursing: Principles and Practice by Connie Henke Yarbro; Debra Wujcik; Barbara Holmes Gobel

A Field Guide to Radiation by Wayne Biddle

Fundamentals of Occupational Safety and Health by Mark Friend; James P. Kohn

Handbook of Nuclear Chemistry by Attila Vértes (Editor); Sándor Nagy (Editor); Zoltán Klencsár (Editor); Rezso György Lovas (Editor); Frank Rösch (Editor)

Introduction to Health Physics by Herman Cember; Thomas E. Johnson A dynamic, all-inclusive overview of the field of health physics A Doody's Core Title for 2011! If it's an important topic in the field of health physics, you'll find it in this trusted text . . . in sections on physical principles, atomic and nuclear structure, radioactivity, biological effects of radiation, and instrumentation. This one-of-a-kind guide spans the entire scope of the field and offers a problem-solving approach that will serve you throughout your career. Features: A thorough overview of need-to-know topics, from a review of physical principles to a useful look at the interaction of radiation with matter More than 380 "Homework Problems" and 175+ "Example Problems" Essential background material on quantitative risk assessment for radiation exposure Authoritative radiation safety and environmental health coverage that supports the International Commission on Radiological Protection's standards for specific populations High-yield appendices to expand your comprehension of chapter material NEW! Essential coverage of non-ionizing radiation, lasers and microwaves, computer use in dose calculation, and dose limit recommendations

An Introduction to Medical Physics by Muhammed Maqbool (Editor) This book begins with the basic terms and definitions and takes a student, step by step, through all areas of medical physics. The book covers radiation therapy, diagnostic radiology, dosimetry, radiation shielding, and nuclear medicine, all at a level suitable for undergraduates. This title not only describes the basics concepts of the field, but also emphasizes numerical and mathematical problems and examples. Students will find An Introduction to Medical Physics to be an indispensible resource in preparations for further graduate studies in the field.

The Physics of Radiation Therapy by Faiz M. Khan Dr. Khan's classic textbook on radiation oncology physics is now in its thoroughly revised and updated Fourth Edition. It provides the entire radiation therapy team—radiation oncologists, medical physicists, dosimetrists, and radiation therapists—with a thorough understanding of the physics and practical clinical applications of advanced radiation therapy technologies, including 3D-CRT, stereotactic radiotherapy, HDR, IMRT, IGRT, and proton beam therapy. These technologies are discussed along with the physical concepts underlying treatment planning, treatment delivery, and dosimetry. This Fourth Edition includes brand-new chapters on image-guided radiation therapy (IGRT) and proton beam therapy. Other chapters have been revised to incorporate the most recent developments in the field. This edition also features more than 100 full-color illustrations throughout. A companion Website will offer the fully searchable text and an image bank.

Principles of Nuclear Chemistry by Peter A. C. McPherson

Radiochemistry and Nuclear Chemistry by Gregory R. Choppin; Jan Rydberg; Jan-Olov Liljenzin

Strange Glow by Timothy J. Jorgensen

Understanding Radiation Science by James Mannie Shuler The purpose of Understanding Radiation Science: Basic Nuclear and Health Physics is to provide the reader a basic understanding of radiation science. Therefore, basic nuclear physics and health physics principles are presented through chapters on atomic structure, types of radiation, terminology and units, radiation biology, exposure and controls, background radiation, personnel monitoring, and radiation instrumentation. The book concludes with chapters on historical events and definitions. This book provides introductory information for students starting their education in nuclear physics, health physics and nuclear engineering. The material covered in this book is appropriate for all types of radiation workers. Persons studying to take the health physics certification exam, radiation protection technologist exam, or the certifying examinations to become radiologic technologists, radiation therapy technologists, ultrasound technologists, or nuclear medicine technologists will find this information most useful.

Yellow Dirt by Judy Pasternak

Basics of Medical Physics by Jirák, Daniel, Vítek, František

Hot Carbon by John F. Marra

Nuclear Medicine by Daniel A. Pryma

Physical Aspects of Organs and Imaging by Hartmut Zabel Medical Physics covers the applied branch of physics concerned with the application of concepts and methods of physics to diagnostics and therapeutics of human diseases. The first part, Physical and Physiological Aspects of the Body, covers those body systems that have a strong physical component, such as body mechanics, energy household, action potential, signal transmission in neurons, respiratory and circulatory system as well as visual and sound perception. The second part of this volume, Imaging Modalities without Ionizing Radiation, introduces sonography, endoscopy, and magnetic resonance imaging. The second volume complements the imaging modalities with the use of ionizing radiation: x-ray radiography, scintigraphy, SPECT, and PET. This first part is followed by chapters on radiation treatment of tumors, in particular x-ray radiotherapy, proton and neutron radiation therapy, and brachytherapy. The last part treats aspects of diagnostics and therapeutics beyond radiology, including laser applications, multifunctional nanoparticles and prosthetics. This first volume - connects the basic principles of physics with the functionality of the body and with physical methods used for diagnostics and therapeutics. - covers the first part of the entire field, including the physics of the body and imaging methods without the use of ionizing radiation. - provides an introduction for Bachelor students to the main concepts of Medical Physics during their first semesters guiding them to further specialized and advanced literature. - contains many questions & answers related to the content of each chapter. - is also available as a set together with Volume 2. Contents Part A: Physical and physiological aspects of the body Brief overview of body parts and functions Body mechanics and muscles Elastomechanics: bones and fractures Energy household of the body Resting potential and action potential Signal transmission in neurons Electrophysical aspects of the heart The circulatory system The respiratory system Kidneys Basic mechanism of vision Sound and sound perception Part B: Imaging modalities without ionizing radiation Sonography Endoscopy Magnetic resonance imaging Questions & answers

Physics in Radiation Oncology by Andrew Godley; Ping Xia; John Suh This guide - a companion to the Radiation Oncology Self-Assessment Guide - is a comprehensive physics review for anyone in the field of radiation oncology looking to enhance their knowledge of medical physics. It covers in depth the principles of radiation physics as applied to radiation therapy along with their technical and clinical applications. To foster retention of key concepts and data, the resource utilizes a user-friendly "flash card" question and answer format with over 800 questions. The questions are supported by detailed answers and rationales along with reference citations for source information. The guide is comprised of 14 chapters that lead the reader through the radiation oncology physics field, from basic physics to current practice and latest innovations. Aspects of basic physics covered include fundamentals, photon and particle interactions, and dose measurement. A section on current practice covers treatment planning, safety, regulations, quality assurance, and SBRT, SRS, TBI, IMRT, and IGRT techniques. A chapter unique to this volume is dedicated to those topics in diagnostic imaging most relevant to radiology, including MRI, ultrasound, fluoroscopy, mammography, PET, SPECT, and CT. New technologies such as VMAT, novel IGRT devices, proton therapy, and MRI-guided therapy are also incorporated. Focused and authoritative, this must-have review combines the expertise of clinical radiation oncology and radiation physics faculty from the Cleveland Clinic Taussig Cancer Institute. Key Features: Includes more than 800 questions with detailed answers and rationales A one-stop guide for those studying the physics of radiation oncology including those wishing to reinforce their current knowledge of medical physics Delivered in a "flash card" format to facilitate recall of key concepts and data Presents a unique chapter on diagnostic imaging topics most relevant to radiation oncology Content provided by a vast array of contributors, including physicists, radiation oncology residents, dosimetrists, and physicians

Radiobiology Self-Assessment Guide by Jennifer Yu; Mohamed Abazeed Radiobiology Self-Assessment Guide--a companion to the Radiation Oncology Self-Assessment Guide and Physics in Radiation Oncology Self-Assessment Guide--is a comprehensive review for practitioners of radiation oncology looking to enhance their knowledge of radiobiology. It covers in depth the principles of radiobiology as applied to radiation oncology along with their clinical applications. To foster retention of key concepts and data, the resource utilizes a user-friendly "flash card" question and answer format with over 700 questions. The questions are supported by detailed answers and rationales along with reference citations for source information. The guide is comprised of 29 chapters and cover topics commonly found on the radiation and cancer biology portion of the radiation oncology board examination. Aspects of basic radiobiology covered include fundamentals such as cell cycle, cell survival curves and interactions of radiation with matter, and acute and long-term sequelae of radiation. Modern concepts such as immunotherapy, radiogenomics, and normal and cancer stem cells are also included. Focused and authoritative, this must-have review provides the expertise of faculty from the Department of Radiation Oncology at the Cleveland Clinic Taussig Cancer Institute and Lerner Research Institute. Key Features: Provides a comprehensive study guide for the Radiation and Cancer Biology portion to the Radiation Oncology Board ExamIncludes more than 700 questions with detailed answers and rationales on flip pages for easy, flash card-like reviewIncludes essential review of cancer biology concepts such as immunotherapy, stem cells, gene therapy, chemotherapy and targeted agentsContent provided by a vast array of contributors, including attending radiation oncology physicians, physicists, and radiation oncology residents

Radiologic Physics Taught Through Cases by Jonathon Nye High-yield, image-rich study guide presents complex physics concepts in reader-friendly format Physics is a key component of the American Board of Radiology core and certifying exams, therefore it is an essential area of study for radiology residents and young radiologists prepping for these exams. Radiology residents gather their medical physics knowledge from many sources, often beginning with their first encounter of a radiologic image. As such, Radiologic Physics Taught Through Cases by Jonathon A. Nye and esteemed contributors incorporates an image-rich, case-based layout conducive to learning challenging physics concepts. The book encompasses physical diagnostic radiology scenarios commonly encountered during residency in a format that fosters learning and is perfect for board preparation. Seven technology-specific chapters cover fluoroscopy, mammography, computed tomography, magnetic resonance imaging, nuclear medicine, ultrasound imaging, and image processing. Each chapter features 10 succinct case-based topics intended to quickly convey information. Key Highlights Every chapter starts with a general introduction, followed by case background, images, findings, and a brief explanation of the physical factors underlying the image's creation and displayed contrast Schematics detail important radiation safety topics, such as potential occupational or patient hazards related to fluoroscopic-guided procedures End-of-chapter references provide inspiration for further study Review questions with correct answers at the end of each chapter reinforce key concepts This is a must-have resource for residents prepping for the radiology core exam review and early-career radiologists looking for a robust study guide for radiology certification exam review. This book includes complimentary access to a digital copy on https://medone.thieme.com.

Radiology, Lasers, Nanoparticles and Prosthetics by Hartmut Zabel Order the Set Medical Physics and save almost 25e. Medical Physics covers the applied branch of physics concerned with the application of concepts and methods of physics to diagnostics and therapeutics of human diseases. This second volume in a series of two complements the imaging modalities presented in the first volume by those methods, which use ionizing radiation. The first chapters in part A on Radiography provide a solid background on radiation sources, interaction of radiation with matter, and dosimetry for the safe handling of radiation before introducing x-ray radiography, scintigraphy, SPECT and PET. The second part B on Radiotherapy starts from basic information on the life cycle of cells, radiation response of healthy and tumorous cells. In subsequent chapters the main methods of radiation treatment are presented, in particular x-ray radiotherapy, proton and neutron radiation therapy, and brachytherapy. The last part C, Diagnostics and Therapeutics beyond Radiology, covers laser applications, multifunctional nanoparticles and prosthetics. The present volume introduces the physical background on ionizing radiation, the biological effectiveness of radiation, as well as radiation based methods for diagnostics and therapeutics. covers the second part of the entire field of medical physics, including imaging methods with the use of ionizing radiation; radiation therapy with photons, protons, and neutrons; laser methods, nanomedicine and prosthetics. provides an introduction for Bachelor students to the main concepts of Medical Physics during their fi rst semesters guiding them to further specialized and advanced literature. contains many questions & answers related to the content of each chapter. is also available as a set together with Volume 1. Contents Part A: Radiography X-ray generation Nuclei and isotopes Interaction of radiation with matter Radiation detection and protection X-ray radiography Scintigraphy Positron emission tomography Part B: Radiotherapy Cell cycle and cancer X-ray radiotherapy Charged particle radiotherapy Neutron radiotherapy Brachytherapy Part C: Diagnostics and therapeutics beyond radiology Laser applications in medicine Nanoparticles for nanomedical applications Prosthetics

Radon by Audrey M. Stacks

Selman's the Fundamentals of Imaging Physics and Radiobiology by Victor White This tenth edition of Selman's The Fundamentals of Imaging Physics and Radiobiology is the continuation of a seminal work in radiation physics and radiation biology first published by Joseph Selman, MD, in 1954 by Charles C Thomas, Publisher, Ltd., Springfield, IL. Many significant changes have been made in this tenth edition. Color photographs and new illustrations have been provided for several existing chapters and for the new chapters in this book. Revisions and updates have been completed for Chapters 1 through 28, whereas Chapters 29 to 33 are all new. The overall style of Doctor Selman is still present, but, with any revision, the style of the present author is also present. In essence, the author's raison d'être in revising this book was to better reflect current radiology practice and to honor the work of Doctor Selman. Topics discussed in this textbook deal with the physics of x-radiation, the biological interaction of radiation with matter, and all aspects of imaging equipment and technology commonly found in the modern radiology department. The chapter on computed tomography (CT) has been heavily revised and updated. Protective measures regarding radiation safety and radiation hazards for workers and patients are thoroughly discussed and new chapters on dual energy x-ray absorptiometry (DXA), magnetic resonance imaging (MRI), ultrasound (US), fusion and molecular imaging have been added. This book will be very helpful to students about to take the ARRT (R) registry examination, but it is not a registry review book per se. This book also serves as a good overview of radiologic imaging physics for radiographers and other medical professionals.

The State of Art of Nuclear Chemistry: Theoretical and Practical Aspects by Maria Emilova Velinova (Editor)

Uranium by Alix Ya Vasiliev; Mikhail Sidorov

Atomic Americans : Citizens in a Nuclear State by Sarah E. Robey

Critical Reflections on Nuclear and Renewable Energy by Way Kuo Provides a personal yet scientific comparative study of nuclear energy and a spectrum of other energies from a reliability point of view, as well as outlining guidelines for developing energy policies The Fukushima nuclear accident made people ponder and question nuclear safety again, resulting in national decisions to phase out nuclear power completely. Is this the right decision? Are there better ways to deal with this important issue of the 21st century? Critical Reflections on Nuclear and Renewable Energy examines both the real and unreal potential dangers of nuclear power as well as a range of other energy sources, including coal, oil, gas, and renewable energies like solar, hydro, wind, and wave energy sources. The book analyzes the pros and cons of a spectrum of energies in the wake of the Fukushima nuclear accident in March 2011. It maintains that we should look at nuclear energy from a rational point of view instead of being influenced by emotions or politicians' arguments. The book also examines policies that concern science and technology, energy resources, environmental protection, and occupational safety, emphasizing the need to deepen the general populace's understanding of the concept of reliability. Critical Reflections on Nuclear and Renewable Energy provides both perspective and detail on the relative merits and state of the various energies and the real-life cost of new energies. The analysis considers mining, emissions, sustainability, cost implications, and energy security and safety. Through the discussion of the real cost and impact on environment of individual sources, this book provides a valuable insight into prospects for future energy development.

E-Learning in Medical Physics and Engineering by Vassilka Tabakova The need for qualified specialists to work with and apply sophisticated technology in contemporary medicine is rapidly growing. Professional bodies predict that meeting the needs of healthcare globally will require almost tripling the number of Medical Physicists by 2035. Similar challenges exist in the constantly growing profession of Medical Engineering. They can be solved most efficiently and effectively with the tools of e-Learning, and a free and open-source Virtual Learning Environment (VLE) platform such as Moodle is a welcome solution. The Moodle VLE platform is a free, open source learning management system that is the most popular choice for higher educational institutions worldwide. However, the best practices of the Moodle system are still unknown to many. This practical guide provides educators, programme administrators, and programme directors with a condensed guide to Moodle and step-by-step instructions on how to create a single course or an entire educational programme. It also discusses cost-effective ways to apply e-Learning in an educational institution. This guide is accessible to all professionals, even those without specialist IT skills, and will be helpful to educators of all levels in Medical Physics and Engineering, as well as in other medical and medical-related specialties or disciplines with a strong imaging component. Features: Provides step-by-step instructions of how to build a course/module for Higher Education on Moodle Gives practical solutions to implementing e-Learning in Medical Physics and Engineering Explores useful tips and tricks for best practice

Hazardous Waste Management and Health Risks by Gabriella Marfe (Editor); Carla Di Stefano (Editor)

A Methodology for Establishing a National Strategy for Education and Training in Radiation, Transport and Waste Safety by International Atomic Energy Agency (Editor) This publication provides Member States with a detailed methodology to establish a national strategy for education and training in radiation, transport and waste safety, in order to build competence in a sustainable and timely manner. Guidance is provided on assessing education and training needs, giving consideration to the national legal and regulatory framework for education and training, and the current and future facilities and activities; designing the national education and training programme based on the needs; and optimizing national resources to complement external assistance. A practical example of the application of the methodology is generated for a hypothetical country, outlining the chronological sequence of the actions to be taken, their timeframe, including the role and contribution from the different national stakeholders. This methodology has been tested in the field during 20 regional workshops attended by about 300 participants from more than 80 Member States.

A Methodology for Establishing a National Strategy for Education and Training in Radiation, Transport and Waste Safety by International Atomic Energy Agency (Editor) This publication provides Member States with a detailed methodology to establish a national strategy for education and training in radiation, transport and waste safety, in order to build competence in a sustainable and timely manner. Guidance is provided on assessing education and training needs, giving consideration to the national legal and regulatory framework for education and training, and the current and future facilities and activities; designing the national education and training programme based on the needs; and optimizing national resources to complement external assistance. A practical example of the application of the methodology is generated for a hypothetical country, outlining the chronological sequence of the actions to be taken, their timeframe, including the role and contribution from the different national stakeholders. This methodology has been tested in the field during 20 regional workshops attended by about 300 participants from more than 80 Member States.

Radiobiology for the Radiologist by Eric J. Hall; Amato J. Giaccia Selected as a Doody's Core Title for 2022 and 2023! Considered the "gold standard" in the field for over 45 years, Radiobiology for the Radiologist combines traditional and molecular radiation biology principles and appeals to students, residents, and veteran clinical practitioners. This edition continues the two-part format of previous editions and features brand-new chapters, thoroughly updated content, and hundreds of figures that provide a visual context to the information in each chapter. Organized into two sections. Part1 is sufficient for students of Radiology and Nuclear Medicine and follows the syllabus published by RSNA. Students in Radiation Oncology need the general information contained in Part 1, but also need the more specialized information contained in Part 2. New chapters introduce new therapies on medical countermeasures to radiation exposure and new molecular techniques in radiology. Mirrors the format of the Syllabus in Radiation Biology prepared by the Radiological Society of North America (RSNA). Written for residents, researchers, and graduate students in radiology, nuclear medicine, radiation oncology, and medical physics. Generally considered the most comprehensive textbook on cellular and molecular radiobiology. Enrich Your eBook Reading Experience with Enhanced Video, Audio and Interactive Capabilities! Read directly on your preferred device(s), such as computer, tablet, or smartphone. Easily convert to audiobook, powering your content with natural language text-to-speech. Adapt for unique reading needs, supporting learning disabilities, visual/auditory impairments, second-language or literacy challenges, and more.