Basic Clinical Radiobiology
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Basic Clinical Radiobiology
C. Joiner, Michael; van der KogeJ. l, Albert
Taylor & Francis Ltd
01/2025
346
Mole
9781032243818
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Preface
About the editors
List of contributors
Glossary
1. Introduction: The significance of radiobiology and radiotherapy for cancer treatment. 2. Irradiation-induced damage and the DNA damage response. 3. Cell death after irradiation - how, when and why cells die. 4. Quantifying cell kill and cell survival. 5. Radiation dose-response relationships. 6. Linear energy transfer and relative biological effectiveness. 7. Physics of radiation therapy for the radiobiologist. 8. Tumour growth and response to radiation. 9. Fractionation: The Linear-Quadratic approach. 10. The linear-quadratic approach in clinical practice. 11. Modified fractionation. 12. Early effects in epithelial tissues, the role of stem cells and time factors. 13. The dose-rate effect. 14. Pathogenesis of late normal tissue effects. 15. Volume effects, regional responses, and risk models. 16. Biological modifiers of normal tissue effects. 17. The oxygen effect and therapeutic approaches to tumour hypoxia. 18. The tumour microenvironment and cellular hypoxia responses. 19. Combined radiotherapy and chemotherapy from the perspective of the Radiation Oncologist. 20. Molecular targeted agents for enhancing tumour response. 21. Biological individualisation of radiotherapy. 22. Molecular image guided radiotherapy. 23. Retreatment tolerance of normal tissues. 24. Cancer stem cells in radiotherapy. 25. Hadron therapy: The clinical aspects. 26. Radiation and the immune system. 27. Second cancers after radiotherapy.
Index
About the editors
List of contributors
Glossary
1. Introduction: The significance of radiobiology and radiotherapy for cancer treatment. 2. Irradiation-induced damage and the DNA damage response. 3. Cell death after irradiation - how, when and why cells die. 4. Quantifying cell kill and cell survival. 5. Radiation dose-response relationships. 6. Linear energy transfer and relative biological effectiveness. 7. Physics of radiation therapy for the radiobiologist. 8. Tumour growth and response to radiation. 9. Fractionation: The Linear-Quadratic approach. 10. The linear-quadratic approach in clinical practice. 11. Modified fractionation. 12. Early effects in epithelial tissues, the role of stem cells and time factors. 13. The dose-rate effect. 14. Pathogenesis of late normal tissue effects. 15. Volume effects, regional responses, and risk models. 16. Biological modifiers of normal tissue effects. 17. The oxygen effect and therapeutic approaches to tumour hypoxia. 18. The tumour microenvironment and cellular hypoxia responses. 19. Combined radiotherapy and chemotherapy from the perspective of the Radiation Oncologist. 20. Molecular targeted agents for enhancing tumour response. 21. Biological individualisation of radiotherapy. 22. Molecular image guided radiotherapy. 23. Retreatment tolerance of normal tissues. 24. Cancer stem cells in radiotherapy. 25. Hadron therapy: The clinical aspects. 26. Radiation and the immune system. 27. Second cancers after radiotherapy.
Index
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
radiation oncology;radiotherapy;cancer treatments
Preface
About the editors
List of contributors
Glossary
1. Introduction: The significance of radiobiology and radiotherapy for cancer treatment. 2. Irradiation-induced damage and the DNA damage response. 3. Cell death after irradiation - how, when and why cells die. 4. Quantifying cell kill and cell survival. 5. Radiation dose-response relationships. 6. Linear energy transfer and relative biological effectiveness. 7. Physics of radiation therapy for the radiobiologist. 8. Tumour growth and response to radiation. 9. Fractionation: The Linear-Quadratic approach. 10. The linear-quadratic approach in clinical practice. 11. Modified fractionation. 12. Early effects in epithelial tissues, the role of stem cells and time factors. 13. The dose-rate effect. 14. Pathogenesis of late normal tissue effects. 15. Volume effects, regional responses, and risk models. 16. Biological modifiers of normal tissue effects. 17. The oxygen effect and therapeutic approaches to tumour hypoxia. 18. The tumour microenvironment and cellular hypoxia responses. 19. Combined radiotherapy and chemotherapy from the perspective of the Radiation Oncologist. 20. Molecular targeted agents for enhancing tumour response. 21. Biological individualisation of radiotherapy. 22. Molecular image guided radiotherapy. 23. Retreatment tolerance of normal tissues. 24. Cancer stem cells in radiotherapy. 25. Hadron therapy: The clinical aspects. 26. Radiation and the immune system. 27. Second cancers after radiotherapy.
Index
About the editors
List of contributors
Glossary
1. Introduction: The significance of radiobiology and radiotherapy for cancer treatment. 2. Irradiation-induced damage and the DNA damage response. 3. Cell death after irradiation - how, when and why cells die. 4. Quantifying cell kill and cell survival. 5. Radiation dose-response relationships. 6. Linear energy transfer and relative biological effectiveness. 7. Physics of radiation therapy for the radiobiologist. 8. Tumour growth and response to radiation. 9. Fractionation: The Linear-Quadratic approach. 10. The linear-quadratic approach in clinical practice. 11. Modified fractionation. 12. Early effects in epithelial tissues, the role of stem cells and time factors. 13. The dose-rate effect. 14. Pathogenesis of late normal tissue effects. 15. Volume effects, regional responses, and risk models. 16. Biological modifiers of normal tissue effects. 17. The oxygen effect and therapeutic approaches to tumour hypoxia. 18. The tumour microenvironment and cellular hypoxia responses. 19. Combined radiotherapy and chemotherapy from the perspective of the Radiation Oncologist. 20. Molecular targeted agents for enhancing tumour response. 21. Biological individualisation of radiotherapy. 22. Molecular image guided radiotherapy. 23. Retreatment tolerance of normal tissues. 24. Cancer stem cells in radiotherapy. 25. Hadron therapy: The clinical aspects. 26. Radiation and the immune system. 27. Second cancers after radiotherapy.
Index
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.