Download Radiography in the Digital Age: Physics, Exposure, Radiation Biology (4th Ed.) by Quinn Carroll

Download Radiography in the Digital Age: Physics, Exposure, Radiation Biology (4th edition) by Quinn B. Carroll.

Quinn B. Carroll’s Radiography in the Digital Age (4th edition) offers an exhaustive and up-to-date exploration of the world of radiography, merging complex physics, practical exposure techniques, and critical insights into radiation biology. As one of the leading texts for students and professionals in the field of radiologic technology, this edition enhances its reputation as an authoritative guide, while keeping pace with the rapidly evolving digital landscape of radiographic imaging.

One of the book’s most compelling features is its ability to demystify the technical physics behind radiography without oversimplifying key concepts. Carroll’s writing is clear, structured, and thorough, making intricate ideas such as X-ray production, electromagnetic spectrum interactions, and the physics of digital detectors accessible to both newcomers and experienced radiographers.

The text breaks down difficult subjects into digestible sections, supported by detailed diagrams, charts, and illustrations that make the scientific principles easier to grasp.

The digital shift in radiography is a core focus of the book, reflecting the ongoing transition from traditional film-based methods to modern digital systems. Carroll adeptly navigates this transformation, providing comprehensive coverage of digital imaging techniques such as computed radiography (CR), digital radiography (DR), and the advanced principles behind image receptors and processing.

This focus ensures that readers not only understand the functionality of digital systems but also how these technologies optimize image quality while reducing patient exposure to radiation.

One of the strengths of this edition is its emphasis on practical application. Carroll presents real-world examples and technical scenarios that help bridge the gap between theoretical knowledge and clinical practice. The sections on image quality, exposure parameters, and troubleshooting common issues in digital imaging are invaluable for technologists aiming to refine their skills and enhance diagnostic accuracy.

Additionally, the inclusion of a wealth of practice questions and review exercises makes this book an excellent self-assessment tool for students preparing for certification exams or professionals seeking continuing education.

Carroll also provides a thorough and critical examination of radiation biology and safety, which is crucial for anyone working with ionizing radiation. His discussions on dose reduction, patient protection, and the biological effects of radiation are both scientifically grounded and framed in a way that reinforces the importance of ethical and safe practice.

The emphasis on ALARA (As Low As Reasonably Achievable) principles is particularly strong, ensuring that students and practitioners are not only proficient in the technical aspects of radiography but are also deeply aware of their responsibility to minimize radiation exposure to both patients and staff.

The 4th edition includes updated references and incorporates recent advances in radiographic equipment and techniques, making it highly relevant in today’s clinical environment. Carroll’s attention to the latest developments in radiologic technology ensures that the book remains on the cutting edge, addressing the needs of modern-day radiography professionals.

Part I: The Physics of Radiography

Introduction to Radiographic Science
Basic Physics for Radiography
Unit Conversions and Help with Math
The Atom
Electromagnetic Waves
Magnetism and Electrostatics
Electrodynamics
X-Ray Machine Circuits and Generators
The X-Ray Tube
X-Ray Production

Part II: Production of the Radiographic Image

Creation of the Radiographic Image
Production of Subject Contrast
Visibility Qualities of the Image
Geometrical Qualities of the Image
Milliampere-Seconds (mAs)
Kilovoltage-Peak (kVp)
Generators and Filtration
Field Size Limitation
Patient Condition, Pathology, and Contrast Agents
Scattered Radiation and Grids
The Anode Bevel and Focal Spot
Source-to-Image Receptor Distance (SID)
OID and Distance Ratios
Alignment and Motion
Analyzing the Latent Radiographic Image
Simplifying and Standardizing Technique
Using Automatic Exposure Controls (AEC)

Part III: Digital Radiography

Creating the Digital Image
Digital Image Preprocessing and Processing (Rescaling)
Digital Image Postprocessing
Postprocessing Operations in Practice
Applying Radiographic Technique to Digital Imaging
Capturing the Digital Image: DR and CR
Display Systems and Electronic Images
PACS, MIMPS, and Imaging Informatics
Quality Control
Mobile Radiography, Fluoroscopy, and Digital Fluoroscopy

Part IV: Radiation Biology and Protection

Radiation Perspectives
Radiation Units and Measurement
Radiation Biology: Cellular Effects
Radiation Biology: Organism Effects
Radiation Protection: Procedures and Policies

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Radiography in the Digital Age: Physics, Exposure, Radiation Biology (4th Ed.) by Quinn B. Carroll

Contents

Radiography in the Digital Age: Physics, Exposure, Radiation Biology (4th Ed.) by Quinn B. Carroll

Contents

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