Increased myocardial susceptibility to repetitive ischemia with high-fat diet-induced obesity.

Obesity and diabetes are frequently associated with cardiovascular disease. When a normal heart is subjected to brief/sublethal repetitive ischemia and reperfusion (I/R), adaptive responses are activated to preserve cardiac structure and function. These responses include but are not limited to alterations in cardiac metabolism, reduced calcium responsiveness, and induction of antioxidant enzymes. In a model of ischemic cardiomyopathy inducible by brief repetitive I/R, we hypothesized that dysregulation of these adaptive responses in diet-induced obese (DIO) mice would contribute to enhanced myocardial injury. DIO C57BL/6J mice were subjected to 15 min of daily repetitive I/R while under short-acting anesthesia, a protocol that results in the development of fibrotic cardiomyopathy. Cardiac lipids and candidate gene expression were analyzed at 3 days, and histology at 5 days of repetitive I/R. Total free fatty acids (FFAs) in the cardiac extracts of DIO mice were significantly elevated, reflecting primarily the dietary fatty acid (FA) composition. Compared with lean controls, cardiac FA oxidation (FAO) capacity of DIO mice was significantly higher, concurrent with increased expression of FA metabolism gene transcripts. Following 15 min of daily repetitive I/R for 3 or 5 days, DIO mice exhibited increased susceptibility to I/R and, in contrast to lean mice, developed microinfarction, which was associated with an exaggerated inflammatory response. Repetitive I/R in DIO mice was associated with more profound significant downregulation of FA metabolism gene transcripts and elevated FFAs and triglycerides. Maladaptive metabolic changes of FA metabolism contribute to enhanced myocardial injury in diet-induced obesity.

Intracoronary brachytherapy.

Patients presenting with in-stent restenosis have an increased risk of need for repeat intervention. Intracoronary brachytherapy is indicated for these patients to prevent recurrent in-stent restenosis. Three intravascular brachytherapy systems are currently FDA-approved for use in patients: one utilizing gamma-radiation (Cordis) and two using beta-radiation (Novoste and Guidant). Current evidence and labeling do not support using intracoronary brachytherapy for prevention of restenosis in de novo lesions. Brachytherapy is absolutely contraindicated in patients unable to take prolonged combination antiplatelet drugs. Aspirin and a thienopyridine should be taken for 6 months if no new stent is placed and 12 months if a new stent is placed. If possible, new stent implementation should be avoided.