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Principles of Radiobiology in Modern Radiotherapy

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About Course

This course introduces the biological foundations of radiation oncology. Participants will explore how ionizing radiation interacts with cells and tissues, the mechanisms of DNA damage and repair, and the determinants of tumor and normal tissue response. Emphasis is placed on the clinical relevance of radiobiology, from traditional concepts such as the four Rs (Repair, Reoxygenation, Redistribution, Repopulation) to modern applications including altered fractionation, retreatment strategies, particle therapy, and combined modality treatments.

By completing this course, learners will gain the essential radiobiology knowledge required for clinical practice and qualifying examinations, and will be prepared to understand and evaluate the biological rationale behind current and emerging radiotherapy approaches.

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Course Content

Module 1. Fundamentals of Radiobiology
Introduction to Radiobiology, Historical Milestones, DNA Damage and Repair Basics, Quiz: Fundamentals

  • Lesson 1. Introduction to Radiobiology
    00:00
  • Lesson 2. Historical Milestones
    00:00
  • Lesson 3. DNA Damage and Repair Basics
    00:00
  • Fundamentals of Radiobiology

Module 2. Mechanisms of Radiation-Induced Cell Death
Direct vs. Indirect Action, Types of Cell Death (apoptosis, mitotic catastrophe, senescence, autophagy), Determinants of Radiosensitivity, Quiz: Cell Death Mechanisms

Module 3. Models of Cell Survival and Fractionation
Target theory and multitarget models, Linear-Quadratic (LQ) model, α/β ratio, BED and EQD2 calculations, Quiz: Survival Curves and Fractionation

Module 4. Tumor and Normal Tissue Radiobiology
The 4 Rs of Radiobiology, Tumor Control Probability (TCP) and Normal Tissue Complication Probability (NTCP), Tissue tolerance and retreatment principles, Quiz: Clinical Radiobiology

Module 5. Tumor Microenvironment and Hypoxia
Causes and consequences of hypoxia, Methods to detect hypoxia, Radiosensitizers and hypoxia-targeted agents, Quiz: Hypoxia and Microenvironment

Module 6. Clinical Applications of Radiobiology
Hyperfractionation and accelerated schedules, Hypofractionation and SBRT, Retreatment and adaptive radiotherapy, Quiz: Clinical Applications

Module 7. Combined Modality Treatments
Radiotherapy and chemotherapy interactions, Radiotherapy with targeted agents and immunotherapy, Radioprotectors and normal tissue mitigation, Quiz: Combined Treatments

Module 8. Particle Therapy and Advanced Modalities
Radiobiology of protons and heavy ions, LET and RBE concepts, Clinical applications and controversies, Quiz: Particle Therapy

Module 9. Late Effects and Radiation-Induced Malignancies
Radiation-induced fibrosis and vascular damage, Second cancers and stochastic effects, Survivorship and monitoring, Final Quiz: Comprehensive Radiobiology