ICRR 2027 PRELIMINARY PROGRAM

1. Basic Research I: Molecular & Cellular Radiation Biophysics, Radiation Biology, Imaging & OMICs, Biomarkers, Low Doses, and Space Research
2. Basic and Applied Research II: Radiation Physics, Radiation Chemistry (Earth and Space), Simulations & Computational Methods (Modeling + AI), Environmental Mitigation, Non-Ionizing Radiation (UV) and EM Fields, Ecology
3. New Clinical & Translational Radiotherapy andRadiotheranosticApproaches 
4. Energy for Future, Emergency (CBRN) Preparedness, Nuclear Disasters, Epidemiology
5. Associated Meetings

I. Basic Research I: Molecular & Cellular Radiation Biophysics, Radiation Biology, Imaging & OMICs, Biomarkers, Low Doses, and Space Research

1. Molecular Radiation Biology and Biophysics; DNA Damage & Repair
2. Spatio-Temporal & Structure-Based Orchestration of Cells’ Response to Irradiation: Microscopy,Superresolution, and Quantitative Imaging; Spectroscopy; Single-Cell Analysis Techniques in Radiation Research 
3. Radiosensitivity Assessment; Biomarkers, Cytogenetic Effects of IR;Biodosimetry, Basic Applications; Multi-OMICS
4. Effects of Non-Ionizing Radiation on Cells and DNA/Chromatin, Lasers
5. Systemic radiation effects, impact of radiation on the immune system, mechanisms of tissue effects (radiopathology), and non-targeted effects.
6. Radiation Effects in Plants and Non-Human Organisms, Extremophile Bacteria and Viruses
7. Sex-Based Differences in Radiation Response

II. Basic and Applied Research II: Radiation Physics, Radiation Chemistry (Earth and Space), Simulations & Computational Methods (Modeling + AI), Environmental Mitigation, Non-Ionizing Radiation (UV) and EM Fields, Ecology 

1. Radiation in Space; High-LET Radiation Effects; Mixed Radiation Fields
2. Space Research (Radiation Chemistry, Space Radiochemistry, & Origin of Life, Intelligent Materials for Space)
3. AI in Various Fields of Radiation Research and Medicine
4. New Trends in Dosimetry (Low and High Dose Rates, Pulsed irradiation)
5. Fundamental and Theoretical Radiation Research, Micro-Dosimetry and Nano-Dosimetry
6. Multiscale Modeling and Computer Simulations in Radiation Research

III. New Clinical & Translational Radiotherapy and Radiotheranostic Approaches 

1. New Locoregional Irradiation Approaches, FLASH, Proton & Heavy Ion Therapy, Brachytherapy, BNCT, Spatial Fractionation
2. Radiotherapy of Non-malignant Diseases 
3. Multimodal Treatment with Radiotherapy; Translational Radiobiology; Radioimmunotherapy;Radiopharmaceutics
4. Radiation Damage and Response Modulation; Radiosensitizers and Radioprotectors,Theranostics
5. Systemic Radionuclide Therapy and Radiopharmaceuticals
6. Theranostics
7. Gene Expression Predictive Assays forBiodosimetryand Clinical Outcome Prediction (Gene Expression, SNPs, etc.)
8. Translational Radiobiology; New Preclinical and Co-Clinical Models; Biomarker Discovery; Heterogeneity and Dynamics in Radiotherapy Responses (Molecular, Spatial, Immune Heterogeneity). 

IV. Energy for Future, Emergency (CBRN) Preparedness, Nuclear Disasters, Epidemiology 

1. Redioecology; Radon and NORM Exposure Risks; Smoking & Environmental Chemicals + Radiation
2. Managing Radiation Risks in Medical and Research Contexts; CBRN Preparedness and Crisis Management; Building a Resilient Society; Knowledge from Radiation Accidents
3. Safe Energy for Future, Nuclear Material Re-Processing, SMR Technologies, Nuclear Waste Management
4. Effect on Normal Cells (Tissues), Mutagenesis, Clonal Hematopoiesis, Inflammation
5. Epidemiology
6. Transgenerational Effects
7. Risk of radiation exposure – diagnostic, therapeutic, Low-Dose Effects, Epidemiology, Pediatric CT, Cancer Risks, Radiation Carcinogenesis, Non-Cancer Effects