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Ionizing radiation and the immune response. Part A /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
[S.l.] :
Academic Press,
2023.
|
| Colección: | International review of cell and molecular biology ;
v. 376 |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro
- Ionizing Radiation and the Immune Response
- Part A
- Copyright
- Contents
- Contributors
- Chapter One: Are charged particles a good match for combination with immunotherapy? Current knowledge and perspectives
- 1. Introduction
- 2. Charged particles: physics and biology
- 2.1. Physical characteristics of charged particle therapy as opposed to photon therapy
- 2.2. Resulting biological effects and enhanced biological effectiveness for cell death related effects
- 3. Impact of charged particles on the immune response
- 3.1. Biological differences with respect to immunogenicity of the cell death modality
- 3.2. Pre-clinical studies suggesting a match of charged particles with immunotherapy
- 3.3. Impact on immune cells and the tumor immune microenvironment
- 3.4. Sparing of normal tissue leads to reduced lymphopenia
- 3.5. Potential for charged particles in combination with immunotherapy and clinical studies
- 4. Future perspectives
- 5. Conclusions
- Reference
- Chapter Two: Radiation-induced immune response in novel radiotherapy approaches FLASH and spatially fractionated radiothe ...
- 1. Introduction
- 2. FLASH radiation therapy and the immune system
- 2.1. Immune cell sparing in blood and normal tissues
- 2.2. FLASH-RT effects on tumor immune microenvironment
- 2.3. FLASH-RT effects on cytokines production and distant effects
- 2.4. Combination of FLASH-RT with immunotherapy
- 3. Spatially fractionated radiotherapy and radiation-induced immune response
- 3.1. Impact of SFRT on the tumor microenvironment
- 3.2. SFRT effects on inflammation and cytokine secretion
- 3.3. SFRT impact on peripheral immune cells
- 3.4. Abscopal effect and distant effect of healthy tissue irradiation
- 3.5. Long-term antitumor immunity
- 3.6. Combination of SFRT and immunotherapy
- 4. Conclusions
- Acknowledgments.
- 3.2.1. T cells
- 3.2.2. Tumor-associated macrophages and myeloid derived suppressor cells
- 3.2.3. Dendritic cells
- 3.2.4. Natural killers
- 4. Radiation therapy and fatty acid metabolism
- 4.1. Fatty acid metabolism promotes radiation therapy resistance
- 4.2. Impact of FA metabolism on RT-induced type I IFN
- 5. Conclusions
- Acknowledgments
- Conflict of interest statement
- References
- Chapter Six: Chemotherapy to potentiate the radiation-induced immune response
- 1. Introduction
- 2. Immunostimulating effects of chemoradiation
- 2.1. Inducing immunogenic cell death
- 2.2. Increase of tumor mutational burden
- 2.3. Promoting dendritic cell maturation and trafficking
- 2.4. Inducing intratumoral T cells infiltration
- 3. Immune suppressive effects of chemoradiation therapy
- 3.1. Regulatory T cells
- 3.2. Macrophages and myeloid-derived-suppressor-cells
- 3.3. Adaptive immune resistance
- 4. Combining CRT with immunotherapy: A promising strategy
- 4.1. Preclinical studies
- 4.2. Synergistic effects of CRT-IO combo in human cancers
- 5. Conclusion
- Acknowledgments
- Author contributions
- References.