Mechanisms of Normal Tissue Toxicity From Irradiation
Division Of Basic Sciences - Nci
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Abstract
In order to evaluate mechanisms of normal tissue injury, adequate in vivo models must be developed. Cell culture does not provide the complex environment that is found in tissues thought to be responsible for the initiation of radiation injury. In addition, experiments assessing late toxicity often require 6 months to determine if the expected injury has occurred. The delivery of radiation with these experiments must be precisely localized to the tissue of interest to prevent possible peripheral effects to confound results. Our laboratory has established an animal program for evaluation of late normal tissue toxicity through initiation of a number of animal protocols designed to develop and further study acute and late toxicity in the skin, lung, and intestine. This has involved the development of specialized radiation treatment immobilizers and shields to deliver the intended dose accurately. Animals have been treated with doses of radiation that we found could reproducibly result in toxicity and samples have been collected for additional high-throughput and hypothesis-driven work to determine the temporal activation of known and yet undescribed pathways in the process of radiation toxicity. In addition, two clinical trials were conducted, NCI 07-C-0111 and NCI 09-C-0120, that included the collection of various biospecimens in patients receiving radiotherapy for gastrointestinal malignancies, breast cancer, and prostate cancer. A number of candidate biomarkers of radiation toxicity are being tested in the context of this clinical trial. An additional trial was completed testing a topical nitroxide as a possible method to reduce radiation dermatitis. This nitroxide has been studied extensively by the radiation biology branch who is collaborating in this trial. The major goal of this project is to describe pathways associated with radiation injury, target them, and translate these findings to the clinic. Several pathways important in radiation injury have already been identified in this project and agents targeting these pathways have been shown to be effective radiation mitigators. We hope to translate these findings into the clinic.
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