Mitigation of normal tissue radiation injury: evidence from rat radiation nephropathy models

Abstract Normal tissue radiation injury is a common complication of radiation therapy and is also a major concern after accidental or belligerent radiation exposure, and until recently, it was deemed untreatable. Both experimental and clinical evidence now show that radiation injury can be alleviated by agents started after irradiation but before manifestation of that injury (a therapeutic approach called “mitigation”). Mitigation of normal tissue injuries would improve clinical radiation therapy, and it will be an essential medical countermeasure for accidental or belligerent radiation exposures. In rat radiation nephropathy models over 30 potential mitigators have been tested, some (e.g., angiotensin converting enzyme inhibitors and angiotensin II receptor blockers) have been found to be quite effective, but many others appear ineffective, and a few have actually made injury worse. For the most part, work with the successful agents, and the agents that made radiation injury worse, is in the peer-reviewed literature. However, we have found it difficult to publish information on the agents that were ineffective, although we suspect that others have tried some of the same agents and also found them ineffective. Here, we review all agents we know of that have been tested to date in rat radiation nephropathy models, with the goal of helping to prevent needless duplication of studies.
Source: Journal of Radiation Oncology - Category: Cancer & Oncology Source Type: research