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Table of Contents
PART I) TARGET VOLUME DEFINITION
Chapter 1) Use of [18F] FDG-PET for target volume definition in radiotherapy
Chapter 2) Specific PET tracers for solid tumors and for definition of the biological target volume
Chapter 3) Use of anatomical and functional MRI in radiation treatment planning-. PART II) IMAGE-GUIDED RT TECHNIQUES
Chapter 4) In-room systems for patient positioning and motion control
Chapter 5) IMRT/VMAT, SABR
Chapter 6) Magnetic resonance-guided adaptive radiotherapy technical concepts
Chapter 7) MR-integrated linear accelerators first clinical results
Chapter 8) Image-guided adaptive brachytherapy
Chapter 9) Ultrasonography in image-guided radiotherapy current status and future challenges
Chapter 10) Means for target volume delineation and stabilisation: fiducial markers, balloons, and others
Chapter 11) Artificial intelligence in radiation oncology: a rapidly evolving picture
PART III) OUTCOME EVALUATION
Chapter 12) Multimodality imaging for prediction of tumour control following radiotherapy
Chapter 13) Modelling for radiation treatment outcome.
Chapter 1) Use of [18F] FDG-PET for target volume definition in radiotherapy
Chapter 2) Specific PET tracers for solid tumors and for definition of the biological target volume
Chapter 3) Use of anatomical and functional MRI in radiation treatment planning-. PART II) IMAGE-GUIDED RT TECHNIQUES
Chapter 4) In-room systems for patient positioning and motion control
Chapter 5) IMRT/VMAT, SABR
Chapter 6) Magnetic resonance-guided adaptive radiotherapy technical concepts
Chapter 7) MR-integrated linear accelerators first clinical results
Chapter 8) Image-guided adaptive brachytherapy
Chapter 9) Ultrasonography in image-guided radiotherapy current status and future challenges
Chapter 10) Means for target volume delineation and stabilisation: fiducial markers, balloons, and others
Chapter 11) Artificial intelligence in radiation oncology: a rapidly evolving picture
PART III) OUTCOME EVALUATION
Chapter 12) Multimodality imaging for prediction of tumour control following radiotherapy
Chapter 13) Modelling for radiation treatment outcome.