There is accumulating evidence that elevated plasma triglycerides and related abnormalities constitute an independent cardiovascular risk factor. Although the pathogenetic basis for the apparent relationship between elevated triglyceride-rich lipoproteins and CAD is still uncertain, evidence is accumulating to suggest that endothelial dysfunction is involved. There is evidence to suggest that triglyceride-rich particles may be directly damaging to the endothelium; this may be principally via oxidative mechanisms. Triglyceride-rich particles can cross the endothelial barrier and enter the arterial wall, thus placing them in a position to promote direct endothelial damage. These particles stimulate endothelial expression of adhesion molecules and the prothrombotic factor PAI-1. By reducing LDL size and HDL cholesterol concentrations, thereby further increasing the endothelial oxidative burden, triglyceride-rich particles may indirectly promote endothelial dysfunction. In addition, free fatty acids, which are the major substrates for endogenous synthesis of triglyceride-rich particles, are also potentially damaging to the endothelium. This occurs via oxidative stress, by facilitating transfer of LDL across the endothelium, and by enhancing toxicity of triglyceride-rich particles. Finally, there is recent strong evidence to suggest that increased postprandial circulating concentrations of triglyceride-rich particles and remnant particles may be deleterious to the endothelium.