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Clinical Nuclear Medicine Physics with MATLAB®

Clinical Nuclear Medicine Physics with MATLAB®
Author: Maria Lyra Georgosopoulou
Publisher: CRC Press
Total Pages: 374
Release: 2021-09-28
Genre: Science
ISBN: 1000410226
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The use of MATLAB® in clinical Medical Physics is continuously increasing, thanks to new technologies and developments in the field. However, there is a lack of practical guidance for students, researchers, and medical professionals on how to incorporate it into their work. Focusing on the areas of diagnostic Nuclear Medicine and Radiation Oncology Imaging, this book provides a comprehensive treatment of the use of MATLAB in clinical Medical Physics, in Nuclear Medicine. It is an invaluable guide for medical physicists and researchers, in addition to postgraduates in medical physics or biomedical engineering, preparing for a career in the field. In the field of Nuclear Medicine, MATLAB enables quantitative analysis and the visualization of nuclear medical images of several modalities, such as Single Photon Emission Computed Tomography (SPECT), Positron Emission Tomography (PET), or a hybrid system where a Computed Tomography system is incorporated into a SPECT or PET system or similarly, a Magnetic Resonance Imaging system (MRI) into a SPECT or PET system. Through a high-performance interactive software, MATLAB also allows matrix computation, simulation, quantitative analysis, image processing, and algorithm implementation. MATLAB can provide medical physicists with the necessary tools for analyzing and visualizing medical images. It is useful in creating imaging algorithms for diagnostic and therapeutic purposes, solving problems of image reconstruction, processing, and calculating absorbed doses with accuracy. An important feature of this application of MATLAB is that the results are completely reliable and are not dependent on any specific γ-cameras and workstations. The use of MATLAB algorithms can greatly assist in the exploration of the anatomy and functions of the human body, offering accurate and precise results in Nuclear Medicine studies. KEY FEATURES Presents a practical, case-based approach whilst remaining accessible to students Contains chapter contributions from subject area specialists across the field Includes real clinical problems and examples, with worked through solutions Maria Lyra Georgosopoulou, PhD, is a Medical Physicist and Associate Professor at the National and Kapodistrian University of Athens, Greece. Photo credit: The Antikythera Mechanism is the world’s oldest known analog computer. It consisted of many wheels and discs that could be placed onto the mechanism for calculations. It is possible that the first algorithms and analog calculations in mathematics were implemented with this mechanism, invented in the early first centuries BC. It has been selected for the cover to demonstrate the importance of calculations in science.

Clinical Nuclear Medicine Physics with MATLAB

Clinical Nuclear Medicine Physics with MATLAB
Author: Maria Lyra Georgosopoulou
Publisher:
Total Pages:
Release: 2021
Genre: MATLAB.
ISBN: 9780367756079
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"Focusing on the areas of diagnostic Nuclear Medicine and Radiation Oncology Imaging, this book provides a comprehensive treatment of the use of MATLABa in clinical Medical Physics. It is an invaluable guide for medical physicists and researchers, in addition to postgraduates in medical physics or biomedical engineering preparing for a career in the field"--

Clinical Radiotherapy Physics with MATLAB

Clinical Radiotherapy Physics with MATLAB
Author: Pavel Dvorak
Publisher: CRC Press
Total Pages: 247
Release: 2018-06-12
Genre: Medical
ISBN: 0429019297
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The first MATLAB® programming book written specifically for clinical radiotherapy medical physicists and medical physics trainees, this much-needed book teaches users how to create their own clinical applications using MATLAB®, as a complement to commercial software particularly when the latter does not cover specific local clinical needs. Chapters explore key radiotherapy areas such as handling volumes, 3D dose calculation, comparing dose distributions, reconstructing treatment plans and their summations, and automated tests for machine quality assurance. Readers will learn to independently analyse and process images, doses, structures, and other radiotherapy clinical data to deal with standard and non-standard situations in radiotherapy. This book will also significantly improve understanding of areas such as data nature, information content, DICOM RT standard, and data flow. It will be an invaluable reference for students of medical physics, in addition to clinical radiotherapy physicists and researchers working in radiotherapy. Features: Includes real clinical medical physics applications derived from actual clinical problems Provides commented MATLAB® scripts working with sample data and/or own data matching input requirements Promotes critical thinking and practical problem solving skills

Diagnostic Radiology Physics with MATLAB®

Diagnostic Radiology Physics with MATLAB®
Author: Johan Helmenkamp
Publisher: CRC Press
Total Pages: 310
Release: 2020-11-23
Genre: Medical
ISBN: 1351188178
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Imaging modalities in radiology produce ever-increasing amounts of data which need to be displayed, optimized, analyzed and archived: a "big data" as well as an "image processing" problem. Computer programming skills are rarely emphasized during the education and training of medical physicists, meaning that many individuals enter the workplace without the ability to efficiently solve many real-world clinical problems. This book provides a foundation for the teaching and learning of programming for medical physicists and other professions in the field of Radiology and offers valuable content for novices and more experienced readers alike. It focuses on providing readers with practical skills on how to implement MATLAB® as an everyday tool, rather than on solving academic and abstract physics problems. Further, it recognizes that MATLAB is only one tool in a medical physicist’s toolkit and shows how it can be used as the "glue" to integrate other software and processes together. Yet, with great power comes great responsibility. The pitfalls to deploying your own software in a clinical environment are also clearly explained. This book is an ideal companion for all medical physicists and medical professionals looking to learn how to utilize MATLAB in their work. Features Encompasses a wide range of medical physics applications in diagnostic and interventional radiology Advances the skill of the reader by taking them through real-world practical examples and solutions with access to an online resource of example code The diverse examples of varying difficulty make the book suitable for readers from a variety of backgrounds and with different levels of programming experience.

MATLAB for Medical Physics

MATLAB for Medical Physics
Author: Jidi Sun
Publisher: Springer Nature
Total Pages: 288
Release: 2023-01-23
Genre: Science
ISBN: 9811975655
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This book gives the practical introduction for medical physics students and clinical physicists to learn MATLAB programming. The first part of the book explains the MATLAB software layout and ways to get help followed by the demonstration of the fundamentals of MATLAB programming through over 100 examples. The second part of the book features eighteen real-life clinical scenarios and projects and twenty-three scenario expansions. The scenarios cover many of the common clinical medical physics areas including DICOM file manipulation, film dosimetry, brachytherapy application, linear accelerator and CT quality assurance and their automations, medical image processing and analysis. All scenarios include the step-by-step solution as a guidance for readers to learn MATLAB by practicing. The data files (e.g. DICOM) used for all clinical scenarios are provided

Radiotheranostics - A Primer for Medical Physicists I

Radiotheranostics - A Primer for Medical Physicists I
Author: Cari Borrás
Publisher: CRC Press
Total Pages: 231
Release: 2024-02-20
Genre: Science
ISBN: 1003836070
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This book covers scientific, clinical, and educational aspects of radiotheranostics in cancer control. Setting the framework, the first volume defines radiotheranostics and describes the history of radionuclide therapy and theranostics, and the biology of cancer. It examines the clinical applications of unconjugated radionuclides, such as 131I and 223Ra, and of radionuclide-conjugated cancer-specific vectors: peptides, small molecules, antibodies, and nanoparticles; introduces clinical trials and drug development; and reviews epidemiological studies and the adverse effects of radionuclide therapy – both radiation injuries and chemical toxicity. It presents the chemistry and physics of radionuclide production, discusses radioactivity measurements and traceability, and addresses important instrumentation aspects: calibration, quantitative imaging, and quality control. Volume I concludes with guidance on the education, training, and competence of a radiotheranostic multidisciplinary team and summarizes the principal physics characteristics of theranostics today – including many to be expanded in the second volume – while offering a glimpse into tomorrow. This volume provides the foundations for the more advanced second volume, which explores dosimetric and radiation safety, aiming to empower medical physicists and demonstrate to the cancer community how to improve cancer control and yield increased patient survival times.It will be a valuable reference for medical and health physicists with basic knowledge of nuclear medicine. Key Features Provides a comprehensive introduction to the topic, presenting readers with thorough treatment in a cohesive two-volume book Presents a rigorous approach while remaining accessible to students and trainees in the field Contains consistent and extensive references to allow readers to delve deeper into the subject

Introduction to Medical Physics

Introduction to Medical Physics
Author: Stephen Keevil
Publisher: CRC Press
Total Pages: 480
Release: 2022-01-18
Genre: Medical
ISBN: 1498744818
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This textbook provides an accessible introduction to the basic principles of medical physics, the applications of medical physics equipment, and the role of a medical physicist in healthcare. Introduction to Medical Physics is designed to support undergraduate and graduate students taking their first modules on a medical physics course, or as a dedicated book for specific modules such as medical imaging and radiotherapy. It is ideally suited for new teaching schemes such as Modernising Scientific Careers and will be invaluable for all medical physics students worldwide. Key features: Written by an experienced and senior team of medical physicists from highly respected institutions The first book written specifically to introduce medical physics to undergraduate and graduate physics students Provides worked examples relevant to actual clinical situations

Clinical Insights for Image-Guided Radiotherapy

Clinical Insights for Image-Guided Radiotherapy
Author: Mike Kirby
Publisher: CRC Press
Total Pages: 165
Release: 2024-07-10
Genre: Science
ISBN: 1040043747
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This book provides a clinical insight into image-guided radiation therapy (IGRT) for prostate cancer. It starts by setting the clinical scene, discussing immobilisation and standard IGRT practice and then considering important developments like IGRT with non-ionising radiation, adaptive radiotherapy, particle therapy, margins, hypofractionation, clinical outcomes, AI and training. Good IGRT requires both technical and clinical focus. So, in complement to our first study guide on IGRT, this book now brings together key, clinical insights into IGRT for Prostate Cancer patients, with a view to helping the professional learn more about ‘how-to’ undertake IGRT for these patients more accurately, effectively and safely, throughout the whole course of a patient’s treatment with radiation. This clinical insight guide will be of interest to newly qualified radiation therapists, therapeutic radiographers, medical dosimetrists, medical physicists, radiotherapy physicists and clinical oncologists. It will also be of use for trainees and can be used alongside continuing competency and clinical training within real clinical departments and radiation therapy centres worldwide. This is the first in a forthcoming series of clinical insights, each tackling a different treatment area. Further areas in the series will be: Head and Neck; Thorax; Breast; Pelvis; and the Brain. Key Features: • Internationally applicable, clinically focused, up-to-date and evidence based. · Accompanied by suitable electronic multimedia resources. · Authored by experts with decades of experience of pioneering electronic portal imaging and IGRT in clinical practice, pedagogic research and substantial experience of teaching/supervising students, trainees and qualified therapists/medical physicists at bachelors, postgraduate and doctoral levels. Mike Kirby and Kerrie-Anne Calder are well-respected authors and radiotherapy professionals, who have worked in radiotherapy physics/radiotherapy clinical and academic practice for nearly 35 years and 25 years respectively. Mike Kirby is a Senior Lecturer in Radiotherapy Physics at the University of Liverpool, UK, and an Honorary Lecturer at the University of Manchester, UK. He holds graduate and postgraduate qualifications in medical physics and has in total over 200 books, papers, oral and poster presentations to his name in the field of radiotherapy. Dr. Kirby holds professional membership of the Institute of Physics and Engineering in Medicine, the American Association of Physicists in Medicine, the American Society for Radiation Oncology, the European Society for Radiotherapy and Oncology and the British Institute of Radiology, is a Fellow of the Higher Education Academy and the British Institute of Radiology in the UK. Kerrie-Anne Calder is a Lecturer at the University of Liverpool, UK, where she educates undergraduate and post graduate students in many aspects of radiotherapy with a special interest and role in imaging training. Kerrie-Anne has graduate and postgraduate qualifications in radiotherapy, education and academic practice, is a member of the Society and College of Radiographers, and is a Fellow of the Higher Education Academy in the UK. She was a clinical and professional lead in IGRT (on-treatment verification imaging) within the NHS in the UK for over ten years.

Handbook of Nuclear Medicine and Molecular Imaging for Physicists

Handbook of Nuclear Medicine and Molecular Imaging for Physicists
Author: Michael Ljungberg
Publisher: CRC Press
Total Pages: 655
Release: 2022-01-24
Genre: Medical
ISBN: 0429952252
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This state-of-the-art handbook, the first in a series that provides medical physicists with a comprehensive overview into the field of nuclear medicine, is dedicated to instrumentation and imaging procedures in nuclear medicine. It provides a thorough treatment on the cutting-edge technologies being used within the field, in addition to touching upon the history of their use, their development, and looking ahead to future prospects. This text will be an invaluable resource for libraries, institutions, and clinical and academic medical physicists searching for a complete account of what defines nuclear medicine. The most comprehensive reference available providing a state-of-the-art overview of the field of nuclear medicine Edited by a leader in the field, with contributions from a team of experienced medical physicists Includes the latest practical research in the field, in addition to explaining fundamental theory and the field's history

Electrical Impedance Tomography

Electrical Impedance Tomography
Author: Andy Adler
Publisher: CRC Press
Total Pages: 518
Release: 2021-12-19
Genre: Medical
ISBN: 0429680880
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With contributions from leading international researchers, this second edition of Electrical Impedance Tomography: Methods, History and Applications has been fully updated throughout and contains new developments in the field, including sections on image interpretation and image reconstruction. Providing a thorough review of the progress of EIT, the present state of knowledge, and a look at future advances and applications, this accessible reference will be invaluable for mathematicians, physicists dealing with bioimpedance, electronic engineers involved in developing and extending its applications, and clinicians wishing to take advantage of this powerful imaging method. Key Features: Fully updated throughout, with new sections on image interpretation and image reconstruction Overview of the current state of experimental and clinical use of EIT as well as active research developments Overview of related research in geophysics, industrial process tomography, magnetic-resonance and magnetic-induction impedance imaging