Endothelial dysfunction has been implicated in the pathogenesis of many cardiovascular diseases; experimental and clinical studies have shown that endothelial dysfunction may be a key factor in various processes, including abnormal arterial vasomotion, thrombosis or neointimal proliferation. Endothelial dysfunction has been shown to be a characteristic feature of atherosclerotic vessels, sites subject to mechanical injury or collateral vessels that develop in response to severe ischaemia. Fibroblast growth factor (FGF) and vascular endothelial growth factor (VEGF) are important growth factors for endothelial cells in vitro. While VEGF is specific for endothelial cells, FGFs are also potent growth factors for other cell types such as smooth muscle cells. Recent studies have demonstrated the feasibility of using endothelial cell growth factors in vivo. Basic FGF (bFGF) and VEGF have been shown to increase the development of collateral vessels in ischaemic models and to enhance the extent of endothelial regrowth following arterial injury. The marked anatomical improvement associated with the administration of endothelial cell growth factors has promoted questions concerning a possible role for these factors in endothelial dysfunction. In vivo administration of endothelial cell growth factors is associated with significant improvement in endothelium-dependent responses. This effect is observed with bFGF and VEGF in various animal models of endothelial dysfunction such as the collateral circulation, the regenerated endothelium following arterial injury and experimental atherosclerosis. While the precise mechanisms underlying this ubiquitous beneficial effect of endothelial cell growth factors are still to be determined, these results do support the concept of using such factors as a new therapeutic strategy in patients with vascular diseases.