Radiobiology

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  Subject Areas on Research

  • A theoretical model for the effects of reduced hemoglobin-oxygen affinity on tumor oxygenation. 
  • A tribute to Philip Marcus and the development of the clonogenic assay. 
  • Application of optical imaging and spectroscopy to radiation biology. 
  • Current status and recommendations for the future of research, teaching, and testing in the biological sciences of radiation oncology: report of the American Society for Radiation Oncology Cancer Biology/Radiation Biology Task Force, executive summary. 
  • Demographic analysis and modeling of human populations exposed to ionizing radiation. 
  • Enhancement of radiotherapy by hyperthermia-regulated gene therapy. 
  • Fitting NTCP models to bladder doses and acute urinary symptoms during post-prostatectomy radiotherapy. 
  • Imaging primary lung cancers in mice to study radiation biology. 
  • In memoriam: Edward L Gillette (1932-2006). 
  • Introduction to the special issue on molecular imaging in radiation biology. 
  • Introduction: tumor as an organ. 
  • Linking the history of radiation biology to the hallmarks of cancer. 
  • Optimization of intensity-modulated radiotherapy plans based on the equivalent uniform dose. 
  • Radiation Biology for Radiation Oncology Residents: An Alternative View. 
  • Radiobiological considerations in the design of fractionation strategies for intensity-modulated radiation therapy of head and neck cancers. 
  • Soluble TGFbeta type II receptor gene therapy ameliorates acute radiation-induced pulmonary injury in rats. 
  • The Future of Radiobiology. 
  • The linear-quadratic model is inappropriate to model high dose per fraction effects in radiosurgery. 
  • Tissue gradients of energy metabolites mirror oxygen tension gradients in a rat mammary carcinoma model. 
  • Toward a national consensus: teaching radiobiology to radiation oncology residents. 
  • Tumour and normal tissue radiobiology in mouse models: how close are mice to mini-humans?