In Situ Gelling Ophthalmic Drug Delivery System for the Optimization of Diagnostic and Preoperative Mydriasis: In Vitro Drug Release, Cytotoxicity and Mydriasis Pharmacodynamics
Pierre-Louis Destruel,
Ni Zeng,
Françoise Brignole-Baudouin,
Sophie Douat,
Johanne Seguin,
Elodie Olivier,
Melody Dutot,
Patrice Rat,
Sophie Dufaÿ,
Amélie Dufaÿ-Wojcicki,
Marc Maury,
Nathalie Mignet,
Vincent Boudy
Affiliations
Pierre-Louis Destruel
Unither Développement Bordeaux, ZA Tech Espace, av Toussaint Catros, 33185 Le Haillan, France
Ni Zeng
Unither Pharmaceuticals, 3-5 rue St-Georges, 75009 Paris, France
Françoise Brignole-Baudouin
UMR CNRS 8038-Chimie Toxicologie Analytique et Cellulaire, 75006 Paris, France
Sophie Douat
Département Recherche et Développement Pharmaceutique, Agence Générale des Equipements et Produits de Santé (AGEPS), AP-HP, 7 rue du fer à moulin, 75005 Paris, France
Johanne Seguin
Université de Paris, UTCBS, CNRS, INSERM, Faculté de Pharmacie, 4 av de l’observatoire, 75006 Paris, France
Elodie Olivier
UMR CNRS 8038-Chimie Toxicologie Analytique et Cellulaire, 75006 Paris, France
Melody Dutot
UMR CNRS 8038-Chimie Toxicologie Analytique et Cellulaire, 75006 Paris, France
Patrice Rat
UMR CNRS 8038-Chimie Toxicologie Analytique et Cellulaire, 75006 Paris, France
Sophie Dufaÿ
Département Recherche et Développement Pharmaceutique, Agence Générale des Equipements et Produits de Santé (AGEPS), AP-HP, 7 rue du fer à moulin, 75005 Paris, France
Amélie Dufaÿ-Wojcicki
Département Recherche et Développement Pharmaceutique, Agence Générale des Equipements et Produits de Santé (AGEPS), AP-HP, 7 rue du fer à moulin, 75005 Paris, France
Marc Maury
Unither Pharmaceuticals, 3-5 rue St-Georges, 75009 Paris, France
Nathalie Mignet
Université de Paris, UTCBS, CNRS, INSERM, Faculté de Pharmacie, 4 av de l’observatoire, 75006 Paris, France
Vincent Boudy
Département Recherche et Développement Pharmaceutique, Agence Générale des Equipements et Produits de Santé (AGEPS), AP-HP, 7 rue du fer à moulin, 75005 Paris, France
Mydriasis is required prior to many eye examinations and ophthalmic surgeries. Nowadays, phenylephrine hydrochloride (PHE) and tropicamide (TPC) are extensively used to induce mydriasis. Several pharmaceutic dosage forms of these two active ingredients have been described. However, no optimal therapeutic strategy has reached the market. The present work focuses on the formulation and evaluation of a mucoadhesive ion-activated in situ gelling delivery system based on gellan gum and hydroxyethylcellulose (HEC) for the delivery of phenylephrine and tropicamide. First, in vitro drug release was studied to assess appropriate sustained drug delivery on the ocular surface region. Drug release mechanisms were explored and explained using mathematical modeling. Then, in situ gelling delivery systems were visualized using scanning electron microscopy illustrating the drug release phenomena involved. Afterward, cytotoxicity of the developed formulations was studied and compared with those of commercially available eye drops. Human epithelial corneal cells were used. Finally, mydriasis intensity and kinetic was investigated in vivo. Mydriasis pharmacodynamics was studied by non-invasive optical imaging on vigilant rabbits, allowing eye blinking and nasolacrimal drainage to occur physiologically. In situ gelling delivery systems mydriasis profiles exhibited a significant increase of intensity and duration compared with those of conventional eye drops. Efficient mydriasis was achieved following the administration of a single drop of in situ gel reducing the required amount of administered active ingredients by four- to eight-fold compared with classic eye drop regimen.
