PURPOSE: To achieve a safer alternative to intravitreal injection of corticosteroids, we developed and characterized triamcinolone acetonide-loaded liposomes formulations (TA-LFs) to be used topically for vitreoretinal drug delivery. METHODS: Four different 0.2% TA-LFs (TA-LF1 to TA-LF4) were generated and submitted to physicochemical characterization. Posteriorly, an ex vivo diffusion assay was performed using rabbit corneas as membranes. Finally, concentrations of triamcinolone acetonide (TA) were determined by high-performance liquid chromatography in ocular tissues from New Zealand white rabbits after multiple topical doses of TA-LF2 (6 times per day, 14 days). In addition, toxicity and tolerability of TA-LF2 was evaluated by cell viability assay and eye examination of study animals, respectively. RESULTS: TA-LF2 was the most stable formulation maintaining a stable hidrogenion potential (pH) at 30 and 40°C and even improving encapsulation with higher temperature. TA-LF2 and TA-LF3 presented the best diffusion performance in vitro reaching the highest TA concentrations after 8 h of follow-up. In vivo diffusion and pharmacokinetics analysis showed that concentrations of TA in retina and vitreous reached the highest peak at 12 h after topical administration of TA-LF2 (252.10 ± 90.00 ng/g and 32.6 ± 10.27 ng/g, respectively) and subsequently decline to 24.0 ± 11.72 ng/g and 19.5 ± 13.14 ng/g, respectively, at 14 days of follow-up. Finally, cell viability was unaffected by TA-LF2, and no increase in intraocular pressure nor ocular alterations were observed after topical administration of this formulation in rabbits. CONCLUSION: TA-loaded liposomes, administered topically, can deliver TA in the vitreous cavity and reach the retina efficiently.
PURPOSE: To achieve a safer alternative to intravitreal injection of corticosteroids, we developed and characterized triamcinolone acetonide-loaded liposomes formulations (TA-LFs) to be used topically for vitreoretinal drug delivery. METHODS: Four different 0.2% TA-LFs (TA-LF1 to TA-LF4) were generated and submitted to physicochemical characterization. Posteriorly, an ex vivo diffusion assay was performed using rabbit corneas as membranes. Finally, concentrations of triamcinolone acetonide (TA) were determined by high-performance liquid chromatography in ocular tissues from New Zealand white rabbits after multiple topical doses of TA-LF2 (6 times per day, 14 days). In addition, toxicity and tolerability of TA-LF2 was evaluated by cell viability assay and eye examination of study animals, respectively. RESULTS:TA-LF2 was the most stable formulation maintaining a stable hidrogenion potential (pH) at 30 and 40°C and even improving encapsulation with higher temperature. TA-LF2 and TA-LF3 presented the best diffusion performance in vitro reaching the highest TA concentrations after 8 h of follow-up. In vivo diffusion and pharmacokinetics analysis showed that concentrations of TA in retina and vitreous reached the highest peak at 12 h after topical administration of TA-LF2 (252.10 ± 90.00 ng/g and 32.6 ± 10.27 ng/g, respectively) and subsequently decline to 24.0 ± 11.72 ng/g and 19.5 ± 13.14 ng/g, respectively, at 14 days of follow-up. Finally, cell viability was unaffected by TA-LF2, and no increase in intraocular pressure nor ocular alterations were observed after topical administration of this formulation in rabbits. CONCLUSION:TA-loaded liposomes, administered topically, can deliver TA in the vitreous cavity and reach the retina efficiently.
Authors: Alejandro Gonzalez-De la Rosa; Jose Navarro-Partida; Juan Carlos Altamirano-Vallejo; Ada Gabriela Hernandez-Gamez; Jesus Javier Garcia-Bañuelos; Juan Armendariz-Borunda; Arturo Santos Journal: J Ocul Pharmacol Ther Date: 2019-01-07 Impact factor: 2.671
Authors: Alejandro Gonzalez-De la Rosa; Jose Navarro-Partida; Juan Carlos Altamirano-Vallejo; Gerardo Daniel Jauregui-Garcia; Ricardo Acosta-Gonzalez; Miguel Angel Ibanez-Hernandez; Guadalupe Fernando Mora-Gonzalez; Juan Armendáriz-Borunda; Arturo Santos Journal: J Ocul Pharmacol Ther Date: 2019-09-05 Impact factor: 2.671
Authors: Jose Navarro-Partida; Juan Carlos Altamirano-Vallejo; Alejandro Gonzalez-De la Rosa; Juan Armendariz-Borunda; Carlos Rodrigo Castro-Castaneda; Arturo Santos Journal: Pharmaceutics Date: 2021-03-02 Impact factor: 6.321
Authors: Jose Navarro-Partida; Carlos Rodrigo Castro-Castaneda; Francisco J Santa Cruz-Pavlovich; Luis Abraham Aceves-Franco; Tomer Ori Guy; Arturo Santos Journal: Pharmaceutics Date: 2021-05-09 Impact factor: 6.321