Emerging Technologies in Brachytherapy

Dr. William Y. Song is the Head of the Department of Medical Physics at the Odette Cancer Centre, Sunnybrook Health Sciences Centre, in Toronto, Canada. This is one of the largest medical physics units in the world with 50+ staff. Along with a busy external beam radiotherapy program, the centre sees close to 600 brachytherapy patients a year, making it the busiest program in Canada. Since joining the centre in 2014, he has been an Associate Professor in the Department of Radiation Oncology, Adjunct Professor in the Institute of Medical Sciences, Institute of Biomaterials and Biomedical Engineering, and Department of Mechanical and Industrial Engineering, at the University of Toronto. He is also an Adjunct Professor in the Department of Physics, at the Ryerson University, Toronto, Canada. He received his PhD degree in 2006 at the University of Western Ontario, London, Canada, on the topic of image guided treatment approaches for prostate cancer. Since then, he has pursued research in the field of image guidance systems, 4D motion management technologies, and brachytherapy, resulting in over 50+ peer-reviewed publications and 130+ conference abstracts. Along the way, he became a fully certified medical physicist (American Board of Radiology, 2010), directly supervised(ing) 20+ MSc and PhD graduate students, an ad hoc reviewer for 20+ research journals, and is a member of the Board of Associate Editors for the Journal of Medical Physics. In brachytherapy particular, his research focus has been in developing novel applicators and MR image processing techniques that enhances plan quality and plan quality evaluations; one in particular, in cleverly designing MR-compatible metal alloys to create non-isotropic dose distributions that can, in combination with inverse planning, gain exceptional dosimetric conformality for use in image guided adaptive brachytherapy. Dr. Kari Tanderup is Professor at Department of Oncology, Aarhus University H

Introduction



Sources and Loading Technologies



Applicators



Applicator Reconstruction



Dose Calculation



Dose Optimization



Image Processing for Brachytherapy



FMEA for Brachytherapy



Real-Time In Vivo Dosimetry



Quality Assurance Technologies



Additive Manufacturing (3D Printing) in Brachytherapy



Robotics in Brachytherapy



Optical Imaging and Navigation Technologies



Ultrasound



X-Ray and Computed Tomography



Magnetic Resonance Imaging



Positron Emission Tomography



Imaging for Treatment Verification



Medical University of Vienna, Vienna, Austria



University Medical Center Utrecht, Utrecht, The Netherlands



Emerging Technologies in Brachytherapy



Hospital Charles Lemoyne, Montreal, Canada



Sunnybrook Health Sciences Centre, Toronto, Canada



Princess Margaret Cancer Centre, Toronto, Canada



Tata Memorial Hospital, Mumbai, India



Institut Joliot-Curie Cancer Center, Dakar, Senegal: Implementing a Brachytherapy Program in a Resource Limited Setting



EBRT or Brachytherapy?



Particle Therapy or Brachytherapy?



Is Brachytherapy Cost Effective?



Elekta Brachytherapy



Eckert & Ziegler BEBIG