Radiation-induced cardiovascular disease(RICVD) is the most common nonmalignant cause of morbidity and mortality among cancer survivors who have undergone mediastinal radiation therapy(RT).Cardiovascular complications include effusive or constrictive pericarditis,cardiomyopathy,valvular heart disease,and coronary/vascular disease.These are pathophysiologically distinct disease entities whose prevalence varies depending on the timing and extent of radiation exposure to the heart and great vessels.Although refinements in RT dosimetry and shielding will inevitably limit future cases of RICVD,the increasing number of long-term cancer survivors,including those treated with older higher-dose RT regimens,will ensure a steady flow of afflicted patients for the foreseeable future.Thus,there is a pressing need for enhanced understanding of the disease mechanisms,and improved detection methods and treatment strategies.Newly characterized mechanisms responsible for the establishment of chronic fibrosis,such as oxidative stress,inflammation and epigenetic modifications,are discussed and linked to potential treatments currently under study.Novel imaging modalities may serve as powerful screening tools in RICVD,and recent research and expert opinion advocating their use is introduced.Data arguing for the aggressive use of percutaneous interventions,such as transcutaneous valve replacement and drug-eluting stents,are examined and considered in the context of prior therapeutic approaches.RICVD and its treatment options are the subject of a rich and dynamic body of research,and patients who are at risk or suffering from this disease will benefit from the care of physicians with specialty expertise in the emerging field of cardiooncology. Radiation-induced cardiovascular disease (RICVD) is the most common nonmalignant cause of morbidity and mortality among cancer survivors who have undergone mediastinal radiation therapy (RT). Cardiovascular complications include effusive or constrictive pericarditis, cardiomyopathy, valvular heart disease, and coronary / vascular disease These are pathophysiologically distinct disease entities whose prevalence varies depending on the timing and extent of radiation exposure to the heart and great vessels .Although refinements in RT dosimetry and shielding will inevitably limit future cases of RICVD, the increasing number of long-term cancer survivors , including those treated with older higher-dose RT regimens, will ensure a steady flow of afflicted patients for the foreseeable future. Thus, there is a pressing need for enhanced understanding of the disease mechanisms, and improved detection methods and treatment strategies. mechanisms responsible for the establishment of chronic fib rosis, such as oxidative stress, inflammation and epigenetic modifications, are discussed and linked to potential therapeut of currently under study. Novel imaging modalities may serve as powerful screening tools in RICVD, and recent research and expert opinion advocating their use is introduced. Data arguing for the aggressive use of percutaneous interventions, such as transcutaneous valve replacement and drug-eluting stents, are examined and considered in the context of prior therapeutic approaches. are at risk or suffering from this disease will benefit from the care of physicians with specialty expertise in the emerging field of cardiooncology.