Physicochemical determinants of drug diffusion across the conjunctiva, sclera, and cornea.

This investigation examined some of the barrier properties of the conjunctival, scleral, and corneal membranes. The diffusion of nadolol, timolol, propranolol, penbutolol, sucrose, and inulin was measured across the isolated corneal and scleral membranes of the rabbit using a two-chamber glass diffusion cell. Drug absorption across the cornea and the conjunctiva was studied in vivo by measuring precorneal drug clearance. The drug samples were analyzed either by HPLC or liquid scintillation counting (LSC). For all the compounds tested, the scleral permeability was significantly higher than the respective corneal permeability. The permeability coefficients of the beta-blockers varied in the following manner: propranolol > penbutolol > timolol > nadolol for the cornea, and penbutolol > propranolol > timolol > nadolol for the sclera. The cornea offered substantially more resistance to inulin, a polar, macromolecular substance, than did the conjunctiva. However, the cornea and conjunctiva offered comparable resistance to the smaller and less polar drug timolol. This information may serve as a basis for optimizing the intraocular delivery of drugs that are poorly absorbed across the cornea due to their physicochemical properties.

[1]  V. H. Lee,et al.  Macromolecular drug absorption in the albino rabbit eye , 1986 .

[2]  T. F. Patton,et al.  Importance of the noncorneal absorption route in topical ophthalmic drug delivery. , 1985, Investigative ophthalmology & visual science.

[3]  R. Schoenwald,et al.  Corneal Penetration Behavior of β-Blocking Agents I: Physicochemical Factors , 1983 .

[4]  T. F. Patton,et al.  Age-related differences in ophthalmic drug disposition III. Corneal permeability of pilocarpine in rabbits , 1983 .

[5]  D. Carper,et al.  Increased corneal permeability induced by the dual effects of transient tear film acidification and exposure to benzalkonium chloride. , 1980, Experimental eye research.

[6]  J. Robinson,et al.  Mechanistic and quantitative evaluation of precorneal pilocarpine disposition in albino rabbits. , 1979, Journal of pharmaceutical sciences.

[7]  T. J. Mikkelson,et al.  Permeability of the n-alkyl p-aminobenzoate esters across the isolated corneal membrane of the rabbit , 1979 .

[8]  M. Doane,et al.  Penetration routes of topically applied eye medications. , 1978, American journal of ophthalmology.

[9]  D. Maurice,et al.  Diffusion across the sclera. , 1977, Experimental eye research.

[10]  J. Robinson,et al.  Quantitative precorneal disposition of topically applied pilocarpine nitrate in rabbit eyes. , 1976, Journal of pharmaceutical sciences.

[11]  L. Thom,et al.  Ophthalmic bioavailability. I. Corneal penetration of aceclidine (3-acetoxyquinuclidine) into the rabbit eye using a perfusion technique. , 1974, Journal of pharmaceutical sciences.

[12]  H. Benson Permeability of the cornea to topically applied drugs. , 1974, Archives of ophthalmology.

[13]  J. Robinson,et al.  Lacrimal and instilled fluid dynamics in rabbit eyes. , 1973, Journal of pharmaceutical sciences.

[14]  D. Maurice Electrical potential and ion transport across the conjunctiva. , 1973, Experimental eye research.

[15]  N. Ehlers ON THE SIZE OF THE CONJUNCTIVAL SAC , 1965 .

[16]  T. Wanko,et al.  THE FINE STRUCTURE OF HUMAN CONJUNCTIVA IN THE PERILIMBAL ZONE. , 1964, Investigative ophthalmology.

[17]  L. Bito,et al.  The penetration of exogenous prostaglandin and arachidonic acid into, and their distribution within, the mammalian eye. , 1981, Current eye research.

[18]  N. Choulis Separation and quantitation of mixtures of the most commonly abused drugs. , 1973, Journal of pharmaceutical sciences.