Magnetic resonance imaging (MRI) is a technique used in biomedical imaging and radiology to visualize internal structures of the body. Because MRI provides excellent contrast between different soft tissues, the technique is especially useful for diagnostic imaging of the brain, muscles, and heart.In the past 20 years, MRI technology has improved si
Magnetic resonance imaging (MRI) is a technique used in biomedical imaging and radiology to visualize internal structures of the body. Because MRI provides excellent contrast between different soft tissues, the technique is especially useful for diagnostic imaging of the brain, muscles, and heart.In the past 20 years, MRI technology has improved si
This project is posthumously dedicated to Dr. Gregory Dana Bossart. Whether you knew him as colleague, mentor, friend, family member or simply ‘knew of him’, you could not help but be awestruck by his dedication, intelligence, thoughtfulness, work ethic and passion for scientific inquiry, especially for conservation of the marine environment Many of his publications were seminal in marine mammal health, including infectious, environmental and zoonotic diseases. As we collected manuscripts for this special Frontiers edition, it was heartwarming to hear the comments from contributors. So many research scientists, field biologists and veterinarians could easily have given up and said, ‘I just can’t do this now’, especially with the added challenges posed by the current COVID-19 pandemic. Instead, contributors from around the world were determined to contribute to this collection because of their inspiration and shared commitment with Greg’s vision. The love and admiration within the marine community for Greg is phenomenal. With that said, we would be remiss if we did not say a few words about Greg as a mentor and friend. Greg had a knack for helping students realize their abilities and pursue their own independent contributions to the marine mammal community. He shared in their successes and worked tirelessly to facilitate their aspirations. Greg would involve students, early-career scientists and colleagues in projects, introduce them to collaborators and promote them and their work. Greg was a genuinely caring person. When he asked you ‘how are you doing’, he honestly wanted to know. He was always there, ready to listen and provide guidance. If you were to ask Greg what was most important to him in life, he would say God, family and marine life (and one could argue that he had a special fondness for manatees). He believed in the beauty of nature and that God had a hand in all of it. He was in pursuit of ensuring that we all share this earth responsibly and sustainably. We miss Greg dearly, but honor and celebrate him as we carry on in our pursuits.
This two volume set covers the engineering and clinical benefits in diagnosis of human pathologies, including the protocols and potential of advanced tomography scanning with very high quality CT images. With contributions from world-class experts, the book examines all aspects of CT technologies related to neck-brain, cardiovascular systems, thorax, abdomen and GI system, pelvis and urinary system, and musculoskeletal system. It also provides coverage of CAD applications to CT along with a discussion of the potential dangers of CT in terms of over-radiation, particularly related to children.
Developments in CT technology during the last 20 years have impressively improved its diagnostic potentialities. Part of a two-volume set that covers all aspects of CT imaging, Multi-Detector CT Imaging: Abdomen, Pelvis, and CAD Applications contains easily searchable clinical specialty chapters that provide specific information without need of an
This book highlights the integration of science and imaging and demonstrates how we can teach and learn in a much more accessible, innovative, and engaging way using technology. This volume is particularly focused on three main themes: advanced microscopy, anatomy education, and radiology visualisation related to patient care. The chapters pertaining to advanced microscopy convey complex biomedical information by visual means. These chapters provide both an overview on the principles of microscopy and specific applications of microscopy that have led to groundbreaking discoveries. Chapters pertaining to education summarise the recent trends in teaching gross and microscopic anatomy and emphasise the creation and use of novel tools to support student learning. Lastly, the radiological visualisation segment dives into the history of radiographic imaging and highlights the profound effect technology has had on improving patient outcomes. This volume will be of particular interest to many; the scope of this book encompasses medicine, dentistry, allied health professions, biomedical sciences, anatomy and histology education, radiology, and microscopy. Students, researchers, educators, and clinicians will learn something new, be stimulated to ask innovative questions, and be inspired to continue the technological advancements pushing science forward.
The scope of applications of forensic radiology includes determination of identity, evaluation of injury and death, use in criminal and civil litigation, in administrative proceedings such as workman's compensation hearings, in medical education, and in research. Until now, there has been no single source of radiologic knowledge for various disciplines to turn to when examining X-rays or other radiologic records as forensic evidence. This is the first book to cover the entire spectrum of radiological applications in forensic science. Discover how forensic radiology can be used to: Identify remains and determine issues such as animal vs. human remains; whether one or more bodies are involved; and the age, sex, and stature of remains Evaluate causes of death and whether it was accidental, homicidal, or self-inflicted Establish evidence in both criminal and non-criminal proceedings Analyze bite marks to identify perpetrators Detect fakes and forgeries in art works Determine whether child, spousal, or geriatric abuse is occurring And much more Copiously illustrated with more than 640 pictures, Forensic Radiology is a visual guide and standard reference not only for radiologists, but for everyone involved in the field of forensics-from anthropologists to trial lawyers. This extremely readable text requires no background of medical training to understand, yet is detailed enough to inform physicians and dentists interested in this specialty field.
Magnetic resonance imaging (MRI) is an imaging technique used in biomedical imaging and radiology to visualize detailed internal structures of the body. The purpose of this book is to cover engineering and clinical benefits in diagnosing human pathologies using MRI. It will cover the protocols and potentialities of advanced MRI scanners in addition to explaining the physical principles of MRI and how to use this technique correctly. Each organ’s anatomy and pathological processes are highlighted with high-quality images.