Abstract: Iontophoresis, a minimally-invasive methodology that uses a weak electric current to enhance penetration of ionized molecules into tissues, was found to be an effective technique for the intraocular delivery of large bioactive molecules, specifically lutein.

Abstract: Iontophoresis, a minimally-invasive methodology that uses a weak electric current to enhance penetration of ionized molecules into tissues, was found to be an effective technique for the intraocular delivery of large bioactive molecules, specifically lutein.

Abstract: Iontophoresis, a minimally-invasive methodology that uses a weak electric current to enhance penetration of ionized molecules into tissues, was found to be an effective technique for the intraocular delivery of large bioactive molecules, specifically lutein.

Abstract: Ocular iontophoresis device and method for delivering any ionized drug solution to the cornea includes: a reservoir containing a solution suitable to be positioned on the eye; an active electrode disposed in or on the reservoir; and a passive electrode suitable to be placed on the skin of the subject, elsewhere on the body; elements for irradiating the cornea surface with suitable light for obtaining corneal cross-linking after the drug delivery; wherein the reservoir and the active electrode are transparent to UV light and/or visible light and/or IR light. The method includes: positioning the iontophoretic device on the eye to be treated; driving the solution by a cathodic current applied for 0.5 to 5 min, at an intensity not higher than 2 mA; and thereafter irradiating, with UV light for 5 to 30 min at a power of 3 to 30 mW/cm2; thereby obtaining the corneal cross-linking of the solution.

Abstract: An improved formulation of an ophthalmic composition contains riboflavin, as cross-linking agent of corneal collagen, administered by corneal iontophoresis, able to guarantee an increased capacity of permeation of riboflavin of the corneal stroma and therefore greater therapeutic efficacy in the treatment of keratoconus.

Abstract: Iontophoresis, a minimally-invasive methodology that uses a weak electric current to enhance penetration of ionized molecules into tissues, was found to be an effective technique for the intraocular delivery of large bioactive molecules, specifically lutein.

Abstract: An improved formulation of an ophthalmic composition contains riboflavin, as cross-linking agent of corneal collagen, administered by corneal iontophoresis, able to guarantee an increased capacity of permeation of riboflavin of the corneal stroma and therefore greater therapeutic efficacy in the treatment of keratoconus.

Abstract: Iontophoresis for delivering ophthalmic compositions (in particular. collyriums) preferably containing riboflavin, or other cross-linking agents, designed to imbibe the corneal stroma in the practice of the corneal collagen cross-linking (CXL) for the keratoconus treatment, and the corresponding ophthalmic compositions adapted to be administrated by iontophoresis in the treatment of keratoconus by corneal collagen cross-linking. Additionally, an ophthalmic composition for the treatment of keratoconus by corneal iontophoresis characterized by the fact that it includes cross-linking agents having buffering properties and whose initial pH value is included between 5 and 6, and/or bio-enhancers, and/or photo-enhancers.

Abstract: Ocular iontophoresis device and method for delivering any ionized drug solution to the cornea includes: a reservoir containing a solution suitable to be positioned on the eye; an active electrode disposed in or on the reservoir; and a passive electrode suitable to be placed on the skin of the subject, elsewhere on the body; elements for irradiating the cornea surface with suitable light for obtaining corneal cross-linking after the drug delivery; wherein the reservoir and the active electrode are transparent to UV light and/or visible light and/or IR light. The method includes: positioning the iontophoretic device on the eye to be treated; driving the solution by a cathodic current applied for 0.5 to 5 min, at an intensity not higher than 2 mA; and thereafter irradiating, with UV light for 5 to 30 min at a power of 3 to 30 mW/cm2; thereby obtaining the corneal cross-linking of the solution.