A corneal perfusion device for estimating ocular bioavailability in vitro.
暂无分享,去创建一个
[1] M. Shackleton,et al. Ocular metabolism of levobunolol. , 1988, Journal of ocular pharmacology.
[2] D. Tang-Liu,et al. Disposition of levobunolol after an ophthalmic dose to rabbits. , 1987, Journal of pharmaceutical sciences.
[3] R. Schoenwald,et al. Corneal Penetration Behavior of β-Blocking Agents I: Physicochemical Factors , 1983 .
[4] R. Schoenwald,et al. Corneal penetration behavior of beta-blocking agents II: Assessment of barrier contributions. , 1983, Journal of pharmaceutical sciences.
[5] P. Stewart,et al. Effect of particle size on ophthalmic bioavailability of dexamethasone suspensions in rabbits. , 1980, Journal of pharmaceutical sciences.
[6] R. Schoenwald,et al. Relationship between steroid permeability across excised rabbit cornea and octanol-water partition coefficients. , 1978, Journal of pharmaceutical sciences.
[7] T. F. Patton,et al. Preliminary pharmacokinetic model of pilocarpine uptake and distribution in the eye. , 1978, Journal of pharmaceutical sciences.
[8] J. Robinson,et al. Aqueous chamber drug distribution volume measurement in rabbits. , 1977, Journal of pharmaceutical sciences.
[9] J. Robinson,et al. Vehicle effects on ocular drug bioavailability i: evaluation of fluorometholone. , 1975, Journal of pharmaceutical sciences.
[10] J. Robinson,et al. Lacrimal and instilled fluid dynamics in rabbit eyes. , 1973, Journal of pharmaceutical sciences.
[11] K. Green,et al. Solute permeability of the corneal endothelium and Descemet's membrane. , 1971, Experimental eye research.
[12] J. Wagner,et al. Solubilization of anti-inflammatory steroids by aqueous solutions of Triton WR-1339. , 1961, Journal of pharmaceutical sciences.