Cardiovascular research
-
Cardiovascular research · Sep 2000
ReviewEffects of statins on vascular wall: vasomotor function, inflammation, and plaque stability.
Clinical trials of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors or statin therapy demonstrate an improvement in cardiovascular end points and coronary stenosis. However, an improvement in cardiovascular end points and coronary stenosis is incompletely explained by the baseline or treated LDL cholesterol level. The beneficial effects of statins on clinical events may involve nonlipid mechanisms that modify endothelial function, smooth muscle cells, and monocyte-macrophage: vasomotor function, inflammatory responses, and plaque stability. ⋯ Statins have been shown to prevent the activation of monocytes into macrophages, inhibit the production of pro-inflammatory cytokines, C-reactive protein, and cellular adhesion molecules. Statins decrease the adhesion of monocyte to endothelial cells. Accordingly, statins exert their cardiovascular benefits through a direct antiatherogenic properties in the arterial wall, beyond their effects on plasma lipids.
-
Cardiovascular research · Aug 2000
ReviewStatus of myocardial antioxidants in ischemia-reperfusion injury.
Myocardial ischemia-reperfusion represents a clinically relevant problem associated with thrombolysis, angioplasty and coronary bypass surgery. Injury of myocardium due to ischemia-reperfusion includes cardiac contractile dysfunction, arrhythmias as well as irreversible myocyte damage. These changes are considered to be the consequence of imbalance between the formation of oxidants and the availability of endogenous antioxidants in the heart. ⋯ The available evidence support the role of oxidative stress in ischemia-reperfusion injury and emphasize the importance of antioxidant mechanisms in cardioprotection.
-
Cardiovascular research · Sep 1999
ReviewThe role of neutrophils in myocardial ischemia-reperfusion injury.
Reperfusion of ischemic myocardium is necessary to salvage tissue from eventual death. However, reperfusion after even brief periods of ischemia is associated with pathologic changes that represent either an acceleration of processes initiated during ischemia per se, or new pathophysiological changes that were initiated after reperfusion. This 'reperfusion injury' shares many characteristics with inflammatory responses in the myocardium. ⋯ Humanized antibodies and non-peptide agents, such as oligosaccharide analogs to sialyl Lewis, may prove effective in this regard. Both nitric oxide and adenosine exhibit broad spectrum effects against neutrophil-mediated events and, therefore, can intervene at several critical points in the ischemic-reperfusion response, and may offer greater benefit than agents that interdict at a single point in the cascade. The understanding of the molecular processes regulating actions of neutrophils in ischemic-reperfusion injury may be applicable to other clinical situations, such as trauma, shock and organ or tissue (i.e. vascular conduits) transplantation.
-
Cardiovascular research · Jul 1999
ReviewNew look at myocardial infarction: toward a better aspirin.
The evidence for the formation of NO and of its oxidation products, as well as of prostacyclin and thromboxane by the infarcted heart muscle is reviewed. The importance of inflammatory cells, primarily macrophages of cardiac origin is documented. Because of its side effects on gastric mucosa and kidney by aspirin, several modifications of aspirin are currently being developed. ⋯ NO-aspirins and the combination of an NO-donor with aspirin promise to be beneficial in the early stages of myocardial infarction. Unfortunately, the main beneficial effect of aspirin, that of inhibition of thrombus formation, is also the cause for its most dreaded complication, hemorrhagic stroke. None of the new aspirins is able to prevent this complication.