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Handbook of Nuclear Medicine and Molecular Imaging for Physicists: Modelling, Dosimetry and Radiation Protection, Volume II book cover

1st Edition

Handbook of Nuclear Medicine and Molecular Imaging for Physicists Modelling, Dosimetry and Radiation Protection, Volume II

By Michael Ljungberg Copyright 2022
316 Pages 141 B/W Illustrations
by CRC Press

316 Pages 141 B/W Illustrations
by CRC Press

316 Pages 141 B/W Illustrations
by CRC Press
Also available as eBook on:
Mathematical modelling is an important part of nuclear medicine. Therefore, several chapters of this book have been dedicated towards describing this topic. In these chapters, an emphasis has been put on describing the mathematical modelling of the radiation transport of photons and electrons, as well as on the transportation of radiopharmaceuticals between different organs and compartments. It... Read more

Contents

Preface...............................................................................................................................vii

Editor ................................................................................................................................ix

Contributors.......................................................................................................................xi

Chapter 1 Introduction to Biostatistics..........................................................................1

Johan Gustafsson and Markus Nilsson

Chapter 2 Radiobiology....................................................................................................17

Lidia Strigari and Marta Cremonesi

Chapter 3 Diagnostic Dosimetry.............................................................................................33

Lennart Johansson† and Martin Andersson

Chapter 4 Time- activity Curves: Data, Models, Curve Fitting, and Model Selection..........................69

Gerhard Glatting

Chapter 5 Tracer Kinetic Modelling and Its Use in PET Quantification..............................................83

Mark Lubberink and Michel Koole

Chapter 6 Principles of Radiological Protection in Healthcare..........................................................101

Soren Mattsson

Chapter 7 Controversies in Nuclear Medicine Dosimetry..................................................................115

Michael G. Stabin

Chapter 8 Monte Carlo Simulation of Photon and Electron Transport in Matter..............................123

Jose M. Fernandez-​Varea

Chapter 9 Patient Models for Dosimetry Applications..........................................................141

Michael G. Stabin

Chapter 10 Patient- specific Dosimetry Calculations.............................................................155

Manuel Bardies, Naomi Clayton, Gunjan Kayal, and Alex Vergara Gil

Chapter 11 Whole- body Dosimetry..................................................169

Jonathan Gear

Chapter 12 Personalized Dosimetry in Radioembolization........................................................................................183

Remco Bastiaannet and Hugo W.A.M. de Jong

Chapter 13 Thyroid Imaging and Dosimetry..........................................................................207

Michael Lassmann and Heribert Hanscheid

Chapter 14 Bone Marrow Dosimetry........................................................................................223

Cecilia Hindorf

Chapter 15 Cellular and Multicellular Dosimetry...................................................................235

Roger W. Howell

Chapter 16 Alpha- particle Dosimetry................................................................267

Stig Palm

Chapter 17 Staff Radiation Protection........................................................................275

Lena Jonsson

Chapter 18 IAEA Support to Nuclear Medicine...........................................................293

Gian Luca Poli


 

Biography

Michael Ljungberg is a Professor at Medical Radiation Physics, Lund, Lund University, Sweden. He started his research in the Monte Carlo field in 1983 through a project involving a simulation of whole-body counters but later changed the focus to more general applications in nuclear medicine imaging and SPECT. Parallel to his development of the Monte Carlo code, SIMIND, he began working in 1985 with quantitative SPECT and problems related to attenuation and scatter. After earning his PhD in 1990, he received a research assistant position that allowed him to continue developing SIMIND for quantitative SPECT applications and to establish successful collaborations with international research groups. At this time, the SIMIND program became used world-wide. Dr. Ljungberg became an associate professor in 1994 and, in 2005, after working clinically as a nuclear medicine medical physicist, received a full professorship in the Science Faculty at Lund University. He became the Head of the Department of Medical Radiation Physics at Lund in 2013 and a full professor in the Medical Faculty in 2015.

Aside from the development of SIMIND – including new camera systems such as CZT detectors – his research includes an extensive project in oncological nuclear medicine. In this project, he and colleagues developed dosimetry methods based on quantitative SPECT, Monte Carlo absorbed-dose calculations, and methods for accurate 3D dose planning for internal radionuclide therapy. Lately, his work has focused on implementing Monte Carlo–based image reconstruction in SIMIND. He is also involved in the undergraduate education of medical physicists and bio-medical engineers and supervises MSc and PhD students. In 2012, Professor Ljungberg became a member of the European Association of Nuclear Medicines task group on Dosimetry and served that association for six years. He has published over a hundred original papers, 18 conference proceedings, 18 books and book chapters, and 14 peer-reviewed papers.

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