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Understanding X-Rays: A Synopsis of Radiology is very different from other texts. This easy-to-read handbook begins with the basics on how to "understand" X-rays and then goes on to discuss the details. It is a practical reference guide, easy to carry to ward rounds and tutorials, and despite its small size, contains a wealth of information. Radiologists are often consulted regarding normal variants that mimic disease, and these are discussed in detail. Exhaustive lists of differential diagnoses are featured. The X-ray quizzes are informative yet challenging. This synopsis will be invaluable for day-to-day hospital work and in preparing for qualifying examinations.
X-rays are valuable diagnostic tools that help you visualize patient progress; document outcomes of nursing interventions, target care to specific problems, and communicate more effectively with other healthcare professionals. This reference set will help you learn to distinguish improper tube and line placement; common respiratory conditions; abdominal and respiratory foreign bodies; ARDS; abnormal air and fluid collections; chest, neck, abdominal and head trauma; abnormal bowel patterns; strains, sprains, dislocations and fracture.
This popular guide to the examination and interpretation of chest radiographs is an invaluable aid for medical students, junior doctors, nurses, physiotherapists and radiographers. Translated into over a dozen languages, this book has been widely praised for making interpretation of the chest X-ray as simple as possible The chest X-ray is often central to the diagnosis and management of a patient. As a result every doctor requires a thorough understanding of the common radiological problems. This pocketbook describes the range of conditions likely to be encountered on the wards and guides the reader through the diagnostic process based on the appearance of the abnormality shown. - Covers the full range of common radiological problems. - Includes valuable advice on how to examine an X-ray. - Assists the doctor in determining the nature of the abnormality. - Points the clinician towards a possible differential diagnosis. - A larger page size allows for larger and clearer illustrations. - A new chapter on the sick patient covers the patient on ITU and the appearance of lines and tubes. - There is extended use of CT imaging with advice on choosing modalities depending on the clinical circumstances. - A new section of chest x-ray problems incorporates particularly challenging case histories. - The international relevance of the text has been expanded with additional text and images.
This open access book gives a complete and comprehensive introduction to the fields of medical imaging systems, as designed for a broad range of applications. The authors of the book first explain the foundations of system theory and image processing, before highlighting several modalities in a dedicated chapter. The initial focus is on modalities that are closely related to traditional camera systems such as endoscopy and microscopy. This is followed by more complex image formation processes: magnetic resonance imaging, X-ray projection imaging, computed tomography, X-ray phase-contrast imaging, nuclear imaging, ultrasound, and optical coherence tomography.
When Jessica goes to the hospital after she breaks her arm, she learns about different X-ray techniques. Includes six actual X-ray images printed on film.
"This well-known publication has been revised and brought up-to-date with this new edition. Chapters have undergone revision and new knowledge relating to automation equipment, methods, techniques and procedures have been assembled. The nature of the radio graphic image, film and processing, intensifying serees, focal distance, and the remnant beam are among the major subjects that are updated."
This study guide amplifies and clarifies the material found in the main text, UNDERSTANDING RADIOGRAPHY. With its parallel format, the study guide will help the reader understand and remember the information presented. The guide has been expanded to include the material added to the Third Edition, including a new chapter on computed tomography. In the study guide, the author concentrates on helping the reader prepare for the registry examination. He poses hundreds of questions that will help the student retain each lesson and assess his or her own mastery of it. These questions are arranged by subject and immediately follow the material with which they deal. In addition, each chapter concludes with an examination that will help the student review the materials and put it into perspective. Multiple-choice, fill-in-the-blank, and identification/explanation of illustration questions are all included. An answer section is provided at the back of the text.
Calculating x-ray tube spectra provides a comprehensive review of the modelling of x-ray tube emissions, with a focus on medical imaging and radiotherapy applications. It begins by covering the relevant background, before discussing modelling approaches, including both analytical formulations and Monte Carlo simulation. Historical context is provided, based on the past century of literature, as well as a summary of recent developments and insights. The book finishes with example applications for spectrum models, including beam quality prediction and the calculation of dosimetric and image-quality metrics. This book will be a valuable resource for postgraduate and advanced undergraduate students studying medical radiation physics, in addition to those in teaching, research, industry and healthcare settings whose work involves x-ray tubes. Key Features: Covers simple modelling approaches as well as full Monte Carlo simulation of x-ray tubes. Bremsstrahlung and characteristic contributions to the spectrum are discussed in detail. Learning is supported by free open-source software and an online repository of code. An online repository of the code that accompanies this book can be found here: https://bitbucket.org/caxtus
This book first provides readers with an introduction to the underlying physics and state-of-the-art application of photon counting detectors for X-ray imaging. The authors explain that a photon-counting imaging detector can realize quantitative analysis because the detector can derive X-ray attenuation information based on the analysis of intensity changes of individual X-ray. To realize this analysis, it is important to consider the physics of an object and detector material. In this book, the authors introduce a novel analytical procedure to create quantitative X-ray images for medical diagnosis.
Filling the need for a book bridging the effect of matter on X-ray radiation and the interaction of x-rays with plasmas, this monograph provides comprehensive coverage of the topic. As such, it presents and explains such powerful new X-ray sources as X-ray free-electron lasers, as well as short pulse interactions with solids, clusters, molecules, and plasmas, and X-ray matter interactions as a diagnostic tool. Equally useful for researchers and practitioners working in the field.