PLGA-modified Syloid®-based microparticles for the ocular delivery of terconazole: in-vitro and in-vivo investigations

The eye is an invulnerable organ with intrinsic anatomical and physiological barriers, hindering the development of a pioneer ocular formulation. The aim of this work was to develop an efficient ocular delivery system that can augment the ocular bioavailability of the antifungal drug, terconazole. Mesoporous silica microparticles, Syloid^® 244 FP were utilized as the carrier system for terconazole. Preliminary studies were carried out using different drug:Syloid^® weight ratios. The optimum weight ratio was mixed with various concentrations (30 and 60%w/w) of poly (lactic-co-glycolic acid) (PLGA), ester or acid-capped and with different monomers-ratio (50:50 and 75:25) using the nano-spray dryer.

Results revealed the superiority of drug:Syloid^® weight ratio of 1:2 in terms of yield percentage (Y%), SPAN and drug content percentage (DC%). Furthermore, incorporation of PLGA with lower glycolic acid monomer-ratio significantly increased Y%. In contrast, increasing the glycolic acid monomer-ratio resulted in higher DC% and release efficiency percentage (RE%). Additionally, doubling PLGA concentration significantly reduced Y%, DC%, drug loading percentage (DL%) and RE%. Applying desirability function in terms of increasing DC%, DL% besides RE% and decreasing SPAN, the selected formulation was chosen for DSC, XRD and SEM investigations.

Results confirmed the successful loading of amorphized terconazole on PLGA-modified Syloid^® microparticles. Moreover, pharmacokinetic studies for the chosen formulation on male Albino rabbits’ eyes revealed a 2, 6.7 and 25.3-fold increase in mean residence time, C_max and AUC_0–24-values, respectively, compared to the drug suspension. PLGA-modified Syloid^® microparticles represent a potential option to augment the bioavailability of ocular drugs.

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Nada Zaghloul, Azza A. Mahmoud, Nermeen A. Elkasabgy & Nada M. El Hoffy (2022) PLGA-modified Syloid^®-based microparticles for the ocular delivery of terconazole: in-vitro and in-vivo investigations, Drug Delivery, 29:1, 2117-2129, DOI: 10.1080/10717544.2022.2092239