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3D printing in Radiation Therapy: A Handbook presents a comprehensive and practical view of the many forms in which 3D printing is being integrated into radiation oncology practice. Radiation oncology employs among the most sophisticated digital technologies in medicine.
James L. Robar, PhD, FCCPM is a globally recognized medical physicist, the Chief of Medical Physics at Nova Scotia Health, a professor of radiation oncology at Dalhousie University and a specialist in the high technology of radiotherapy- a treatment technique used for roughly half of all patients with cancer. He is also co-founder and CSO at Adaptiiv Medical Technologies, a medical-tech firm in Halifax, with the mission of improving the accuracy of cancer treatment. As a scientist, inventor, and entrepreneur, Dr. Robar has pioneered multiple advancements improving imaging and treatment delivery for radiotherapy. These technologies include enhanced imaging to improve the accuracy of targeting tumors with radiation, hardware and software detecting submillimeter motion of patients to improve the precision of treatment, planning algorithms to provide improved sparing of healthy tissues and organs, and turnkey solutions allowing intelligent design of 3D printed, patient-specific accessories used during radiotherapy. For his contributions in this field, he became a Canadian Governor General's Innovation Laureate in 2021.
Chapter 1 Introduction and Clinical Perspective Chapter 2 A brief introduction to 3D printing Chapter 3 Biocompatibility and sterilization of 3D printed radiation therapy devices Chapter 4 3D printing for external beam photon therapy Chapter 5 3D printing for electron therapy Chapter 6 3D printing for proton therapy Chapter 7 Applications on brachytherapy Chapter 8 3D printed patient immobilization Chapter 9 3D printed radiation detectors Chapter 10 3D printed phantoms in RT Chapter 11 Operationalizing 3D printing in the radiation oncology department Index
