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An excellent orientation to the field of radiologic technology, this book has launched the careers of generations of successful radiographers. It covers basic learning skills and provides a historical overview of medicine and radiology. With this text, readers will have not only a solid introduction to the coursework that will follow in their radiography program, but they will also know what to expect from a career in the imaging sciences, what will be required in the practice environment, and what their options will be for advancement. Critical Thinking Skills chapter provides an excellent introduction to what critical thinking is and why it is important to RTs, through developing a useful definition of critical thinking, examining common mindsets that can hinder sound reasoning, and presenting four important steps for readers to take on their way to becoming critical thinkers. Thorough introduction to the field of radiologic technology covers topics in just the right amount of detail to give an informative overview of subjects that will be covered in depth in future courses. Comprehensive information about the profession of radiologic technology includes customer service, ethics and professionalism, and how to join professional organizations and keep up with continuing education requirements after graduation. Reader-friendly style leads from one topic to the next in a logical progression, with relevant discussions, and without assuming prior knowledge of the subject matter. Review questions are located at the end of each chapter with answers in the Appendix. Content updates and additions include the following: Registry exam changes Imaging equipment advances, especially digital Medical-legal content expansion with HIPAA and other privacy concerns Implications of aging populations and challenges of caring for the elderly A new chapter on cultural diversity, a topic now mandated in the ASRT Core Curriculum Expanded Instructor's Resource Manual includes back-of-book CD with all print content, an expanded test bank with approximately 10 multiple-choice questions per chapter, and an electronic image collection of images from the book.
In 1890, Professor Arthur Willis Goodspeed, a professor of physics at Pennsylvania USA was working with an English born photographer, William N Jennings, when they accidentally produced a Röntgen Ray picture. Unfortunately, the significance of their findings were overlooked, and the formal discovery of X-rays was credited to Wilhelm Roentgen in 1895. The discovery has since transformed the practice of medicine, and over the course of the past 130 years, the development of new radiological techniques has continued to grow. The impact has been seen in virtually every hospital in the world, from the routine use of ultrasound for pregnancy scans, through to the diagnosis of complex medical issues such as brain tumours. More subtly, X-rays were also used in the discovery of DNA and in military combat, and their social influence through popular culture can be seen in cartoons, books, movies and art. Written by two radiologists who have a passion for the history of their field, The History of Radiology is a beautifully illustrated review of the remarkable developments within radiology and the scientists and pioneers who were involved. This engaging and authoritative history will appeal to a wide audience including medical students studying for the Diploma in the History of Medicine of the Society of Apothecaries (DHMSA), doctors, medical physicists, medical historians and radiographers.
The second edition of Rad Tech's Guide to MRI provides practicing and training technologists with a succinct overview of magnetic resonance imaging (MRI). Designed for quick reference and examination preparation, this pocket-size guide covers the fundamental principles of electromagnetism, MRI equipment, data acquisition and processing, image quality and artifacts, MR Angiography, Diffusion/Perfusion, and more. Written by an expert practitioner and educator, this handy reference guide: Provides essential MRI knowledge in a single portable, easy-to-read guide Covers instrumentation and MRI hardware components, including gradient and radio-frequency subsystems Provides techniques to handle flow imaging issues and improve the quality of MRIs Explains the essential physics underpinning MRI technology Rad Tech's Guide to MRI is a must-have resource for student radiographers, especially those preparing for the American Registry of Radiation Technologist (ARRT) exams, as well as practicing radiology technologists looking for a quick reference guide.
Radiation Technology for Advanced Materials presents a range of radiation technology applications for advanced materials. The book aims to bridge the gap between researchers and industry, describing current uses and future prospects. It describes the mature radiation processing technology used in preparing heat shrinkable materials and in wire and cable materials, giving commercial cases. In addition, the book illustrates future applications, including high-performance fibers, special self-lubricating materials, special ultra-fine powder materials, civil fibers, natural polymeric materials, battery separator membranes, special filtration materials and metallic nanomaterials. Chapters cover radiation technology in high-performance fiber and functional textiles, radiation crosslinking and typical applications, radiation crosslinking for polymer foaming material, radiation degradation and application, radiation emulsion polymerization, radiation effects of ionic liquids, radiation technology in advanced new materials, and future prospects. - Presents a range of radiation technology applications and their application to advanced materials - Covers the mature radiation processing technology used to prepare heat shrinkable materials and wire cable materials, describing real-world commercial applications - Shows the promising application of radiation technology in preparing high-performance Si and carbon fibers - Describes the radiation degradation/radiation effect used to prepare fine powder materials - Discusses radiation modification and radiation grafting techniques used to synthesize materials, such as civil fibers, natural polymeric materials and others
Comprehensive, yet concise, 3D Printing for the Radiologist presents an overview of three-dimensional printing at the point of care. Focusing on opportunities and challenges in radiology practice, this up-to-date reference covers computer-aided design principles, quality assurance, training, and guidance for integrating 3D printing across radiology subspecialties. Practicing and trainee radiologists, surgeons, researchers, and imaging specialists will find this an indispensable resource for furthering their understanding of the current state and future outlooks for 3D printing in clinical medicine. - Covers a wide range of topics, including basic principles of 3D printing, quality assurance, regulatory perspectives, and practical implementation in medical training and practice. - Addresses the challenges associated with 3D printing integration in clinical settings, such as reimbursement, regulatory issues, and training. - Features concise chapters from a team of multidisciplinary chapter authors, including practicing radiologists, researchers, and engineers. - Consolidates today's available information on this timely topic into a single, convenient, resource.
Radiation protection is a core element of radiologic technology programmes and daily practice alike. Rad Tech's Guide to Radiation Protection is a comprehensive yet compact guide designed to illuminate the extensive field of radiation protection for technologists, trainees, and radiology students. Organised into ten digestible chapters, the second edition of this popular book provides new discussions of dose factors in computed tomography, the debate concerning the use of the LNT model, Diagnostic Reference Levels (DRLs), dose optimization, and more. Written by a recognised expert in medical radiation sciences, this valuable guide: Helps students and technologists acquire the skills required to protect patients, personnel, and members of the public in the radiology department Reflects the most current standards for radiation protection, with references to relevant organisations and resources Covers basic radiobiology, sources of radiation exposure, dose management regulations and optimization, and more Presents essential information in a bulleted, easy-to-reference format Rad Tech's Guide to Radiation Protection is a must-have resource for student radiographers and radiology technologists, particularly those preparing for the American Registry of Radiation Technologist (ARRT) exams.
If you've ever gotten wrapped up in the arcana of "E.R." or "House," or been absorbed by a piece in The New Yorker by Gawande, Groopman, or Nuland, or sat on that exam table wondering what's really going on in your doctor's head, then this book is for you. Expertise versus commonsense practice; moral judgments on young patients or their parents; asking tough questions; death and physician-assisted suicide; daily life with a doctor's job (yours or a family member's); doctors as patients-Klass addresses the primary issues in the life of any doctor and, by extension, the lives of those for whom they care. Perri Klass, M.D., is a writer, teacher, pediatrician, and mentor. In her frequent contributions to the New York Times, she takes on a host of issues particular to the life of a doctor-secrecy, ethics, fear, grief, and competition-with a warmth and wit her readers have come to love. Now, in the newest addition to Basic's Art of Mentoring series, she offers her guidance, and her stories, to a new generation of doctors and readers.
Gives an up-to-date summary of X-ray source design for applications in modern diagnostic medical imaging. Lays a sound groundwork for education and advanced training in the physics of X-ray production and X-ray interactions with matter. Includes a historical overview of X-ray tube and generator development, including key achievements leading up to the current technological and economic state of the field.