Biomedical Physics in Radiotherapy for Cancer
Autor Loredana Marcu, Eva Bezak Editat de Barry Allenen Limba Engleză Paperback – 21 mar 2012
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Specificații
ISBN-13: 9780857297327
ISBN-10: 0857297325
Pagini: 430
Ilustrații: XV, 430 p.
Dimensiuni: 210 x 279 x 28 mm
Greutate: 1.36 kg
Ediția:2012
Editura: SPRINGER LONDON
Colecția Springer
Locul publicării:London, United Kingdom
ISBN-10: 0857297325
Pagini: 430
Ilustrații: XV, 430 p.
Dimensiuni: 210 x 279 x 28 mm
Greutate: 1.36 kg
Ediția:2012
Editura: SPRINGER LONDON
Colecția Springer
Locul publicării:London, United Kingdom
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Public țintă
Professional/practitionerCuprins
Radiation interaction with matter.- Elements of radiobiology.- Elements of radiotherapy physics.- Tumour characteristics, development and response to radiation.- Fractionation and altered fractionation in radiotherapy.- Treatment planning techniques.- Three-dimensional conformal radiotherapy: radiobiology and physics aspects of treatment.- IMRT: radiobiology and physics aspects of treatment.- Brachytherapy: radiobiology and physics aspects of treatment.- SRS/SRT: radiobiology and physics aspects of treatment.- Whole-body irradiation: radiobiology and physics aspects of treatment.- Electron therapy: radiobiology and physics aspects of treatment.- Proton therapy: radiobiology and physics aspects of treatment.- Neutron therapy: radiobiology and physics aspects of treatment.- Predictive assays and treatment delivery verification.
Recenzii
From the reviews:
“Trying to combine an updated account of radiotherapy physics and radiobiology is a big but important task. … a useful resource for clinical supervisors and teachers who want to make sure their lecture is up to date. … I found ‘Biomedical Physics in Radiotherapy for Cancer’ a very valuable addition to my book collection. There is nothing comparable on the market and it will proof to be an excellent resource for clinical and academic physicists and oncologists. … It is an ambitious book that succeeds.” (Tomas Kron, Australasian Physical & Engineering Science in Medicine, Vol. 35, 2012)
“The book is comprehensive in that it also tackles brachytherapy (in almost all its clinical forms), stereotactic radiosurgery, TBI, electron and neutron therapy. It has an interesting chapter on targeted radiotherapy with a largely theoretical discussion of the potential of various radioisotopes in cancer therapy. … It is well presented here. Overall, I consider this an excellent book … and I recommend it.” (Nick Plowman, RAD Magazine, October, 2012)
“Trying to combine an updated account of radiotherapy physics and radiobiology is a big but important task. … a useful resource for clinical supervisors and teachers who want to make sure their lecture is up to date. … I found ‘Biomedical Physics in Radiotherapy for Cancer’ a very valuable addition to my book collection. There is nothing comparable on the market and it will proof to be an excellent resource for clinical and academic physicists and oncologists. … It is an ambitious book that succeeds.” (Tomas Kron, Australasian Physical & Engineering Science in Medicine, Vol. 35, 2012)
“The book is comprehensive in that it also tackles brachytherapy (in almost all its clinical forms), stereotactic radiosurgery, TBI, electron and neutron therapy. It has an interesting chapter on targeted radiotherapy with a largely theoretical discussion of the potential of various radioisotopes in cancer therapy. … It is well presented here. Overall, I consider this an excellent book … and I recommend it.” (Nick Plowman, RAD Magazine, October, 2012)
Notă biografică
A/Prof Loredana Marcu has a Masters Degree in Applied Physics and a PhD in Medical
Physics/Radiobiology. She has been lecturing since 1995, and previously published two
books on Mechanics and Teaching methodologies, respectively. She was awarded the title
‘Eminent Scientist of the year 2004’ by the International Council for Research and is the
recipient of the ‘Boyce Worthley award 2006’ given by the Australasian College of Physical
Scientists and Engineers in Medicine for her achievements in the areas of radiobiology
and medical physics.
A/Prof Eva Bezak has an MSc in both Nuclear and Medical Physics and a PhD in applied
Nuclear/Radiation Physics. She has been lecturing on radiation and radiotherapy physics
since 1999, and has supervised 13 postgraduate students in radiotherapy physics. She is
accredited by the Australasian College of Physical Scientists and Engineers in Medicine
(AC PSEM) in Radiotherapy Equipment Commissioning and Quality Assurance (2004) and
was nominated for the 2003 National Awards for Outstanding Women in Non-Traditional
Areas of Work and Study.
Prof Barry Allen is a biomedical physicist and Conjoint Professor of the St George Clinical
School, UNSW. Previously, he worked at ANSTO as a Chief Research Scientist. In the early
1980s Prof Allen turned his attention to the application of neutrons in medicine. He went
on to become President of the International Society for Neutron Capture Therapy and to
convene the Fourth International Symposium in Sydney in 1990. Prof Allen made the first
human body protein measurements in Australia, in collaboration with Sydney hospitals.
He has published more than 300 papers, and was elected President of the Asia Oceania
Federation of Medical Physics and President of the International Organisation of Medical
Physics in 2006. He was elected VicePresident of the International Union for Physical and
Engineering Science in Medicine and is Chair, Health Technology and Training Task Group
of the IUPESM.
Physics/Radiobiology. She has been lecturing since 1995, and previously published two
books on Mechanics and Teaching methodologies, respectively. She was awarded the title
‘Eminent Scientist of the year 2004’ by the International Council for Research and is the
recipient of the ‘Boyce Worthley award 2006’ given by the Australasian College of Physical
Scientists and Engineers in Medicine for her achievements in the areas of radiobiology
and medical physics.
A/Prof Eva Bezak has an MSc in both Nuclear and Medical Physics and a PhD in applied
Nuclear/Radiation Physics. She has been lecturing on radiation and radiotherapy physics
since 1999, and has supervised 13 postgraduate students in radiotherapy physics. She is
accredited by the Australasian College of Physical Scientists and Engineers in Medicine
(AC PSEM) in Radiotherapy Equipment Commissioning and Quality Assurance (2004) and
was nominated for the 2003 National Awards for Outstanding Women in Non-Traditional
Areas of Work and Study.
Prof Barry Allen is a biomedical physicist and Conjoint Professor of the St George Clinical
School, UNSW. Previously, he worked at ANSTO as a Chief Research Scientist. In the early
1980s Prof Allen turned his attention to the application of neutrons in medicine. He went
on to become President of the International Society for Neutron Capture Therapy and to
convene the Fourth International Symposium in Sydney in 1990. Prof Allen made the first
human body protein measurements in Australia, in collaboration with Sydney hospitals.
He has published more than 300 papers, and was elected President of the Asia Oceania
Federation of Medical Physics and President of the International Organisation of Medical
Physics in 2006. He was elected VicePresident of the International Union for Physical and
Engineering Science in Medicine and is Chair, Health Technology and Training Task Group
of the IUPESM.
Textul de pe ultima copertă
The scientific and clinical foundations of Radiation Therapy are cross-disciplinary. This book endeavours to bring together the physics, the radiobiology, the main clinical aspects as well as available clinical evidence behind Radiation Therapy, presenting mutual relationships between these disciplines and their role in the advancements of radiation oncology.
Caracteristici
Updated information on radiotherapy physics, technology and radiobiology Explanation of the rationale in using radiation in the treatment of cancer Easy accessibility to information for both under- and postgraduate students to use in their courses Textbook for oncology registrars in their preparation for exams Comprehensive overview of the major aspect of treatment with radiotherapy