After the debridement of the entire corneal epithelium of the rabbit eye, epithelial cells of conjunctival origin cover the denuded corneal surface. Under such experimental conditions, the rate of wound healing is considerably delayed and total regeneration is completed within 15 to 20 days, allowing evaluation of various drugs, such as the Fibroblast Growth Factor. Both acidic and basic FGF were administered topically on totally de-epithelialized rabbit eye, at three different concentrations of 1.5 and 10 Stimulation Units/50 microliters, 3 times per day. A dose-response effect was observed and in each case, acidic FGF was found to be much more potent than bFGF in increasing the rate of wound healing of the cornea. These results are correlated with a new purification procedure, avoiding acid treatment of the tissue extract. The systemic diffusion of FGF allows the contralateral eye cells to be also stimulated for mitosis and migration and to heal faster than the control eyes.
Basic fibroblast growth factor (bFGF), a soluble mitogen, has been isolated and purified from various organs, including the retina. In vivo angiogenic activity of bFGF has been demonstrated with several assays. An experimental model of choroidal neovascularization was developed in the mini pig by perfusion of recombinant human bFGF through an osmotic minipump. Endogenous bFGF and bFGF receptors were localized in the normal pig retina by immunohistochemistry and autoradiography after binding. The perfusion of exogenous bFGF induced well-organized new vessels along the last 3 mm of the catheter in the suprachoroidal space. This neovascularization did not penetrate the normal Bruch's membrane. Vascular cells (identified by von Willebrand factor antibody staining) increased in number and in surface from the proximal part to the end of the intraocular catheter in all bFGF perfused eyes. In eyes perfused with phosphate buffered saline (controls), but not in the bFGF perfused eyes, an inflammatory response occurred (identified by a macrophage specific antibody). These results demonstrate that choroidal angiogenesis can be achieved without an inflammatory response by perfusing an excess of bFGF in the suprachoroidal space.
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