Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of Acyclovir
Delivering drugs via the ocular route has always been a challenge for poorly soluble drugs. The various anatomical and physiological barriers in the eye cavity hinder the residence of drugs within the corneal and precorneal regions. In this study, the nanosystem that could sufficiently deliver the p...
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doaj-83d16d5ba8d640c5946f6fa04c50242b2020-11-24T22:08:46ZengElsevierSaudi Pharmaceutical Journal1319-01642019-02-01272293302Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of AcyclovirMusaed Alkholief0Hammam Albasit1Adel Alhowyan2Sultan Alshehri3Mohammad Raish4Mohd Abul Kalam5Aws Alshamsan6Nanobiotechnology Unit, Department of Pharmaceutics, College of Pharmacy, King Saud University, Riyadh, Saudi ArabiaNanobiotechnology Unit, Department of Pharmaceutics, College of Pharmacy, King Saud University, Riyadh, Saudi ArabiaNanobiotechnology Unit, Department of Pharmaceutics, College of Pharmacy, King Saud University, Riyadh, Saudi ArabiaDepartment of Pharmaceutics, College of Pharmacy, King Saud University, P.O. Box: 2457, Riyadh 11451, Saudi ArabiaDepartment of Pharmaceutics, College of Pharmacy, King Saud University, P.O. Box: 2457, Riyadh 11451, Saudi ArabiaNanobiotechnology Unit, Department of Pharmaceutics, College of Pharmacy, King Saud University, Riyadh, Saudi ArabiaNanobiotechnology Unit, Department of Pharmaceutics, College of Pharmacy, King Saud University, Riyadh, Saudi Arabia; Corresponding author.Delivering drugs via the ocular route has always been a challenge for poorly soluble drugs. The various anatomical and physiological barriers in the eye cavity hinder the residence of drugs within the corneal and precorneal regions. In this study, the nanosystem that could sufficiently deliver the poorly soluble Acyclovir topically via ocular route. Our nanosystem is composed of the biocompatible PLGA polymer stabilized with TPGS which possess a high emulsifying capacity and is also known as P-gp inhibitor. The optimized nanoparticles were prepared with 0.3% TPGS and had particle-size of 262.3 nm, zeta-potential of +15.14 mV. The physicochemical-characterization, ex vivo transcorneal permeation, ocular-irritation and Acyclovir ocular-availability, following topical ocular application of PLGA-NPs in rabbit eyes, were performed. The tested parameters and irritation by Draize’s test suggested the suitability and safety of PLGA-NPs for ocular use. An ultrahigh performance liquid chromatographic method was developed, validated, and applied to quantify Acyclovir in aqueous humor which was shown to be significantly higher (p < 0.05) using the developed nanoparticles as compared to Acyclovir-aqueous suspension following their single topical ocular administration. Noticeable 2.78-, 1.71- and 2.2-times increased values of AUC0–24h, t1/2 (h) and MRT0–24h were found, respectively, with the PLGA-TPGS-NPs as compared to ACY-AqS. These results demonstrate the superiority of delivering Acyclovir using a nanosystem compared to conventional methods. Keywords: Acyclovir, PLGA, TPGS, Corneal permeation, Ocular pharmacokineticshttp://www.sciencedirect.com/science/article/pii/S1319016418305796 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Musaed Alkholief Hammam Albasit Adel Alhowyan Sultan Alshehri Mohammad Raish Mohd Abul Kalam Aws Alshamsan |
spellingShingle |
Musaed Alkholief Hammam Albasit Adel Alhowyan Sultan Alshehri Mohammad Raish Mohd Abul Kalam Aws Alshamsan Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of Acyclovir Saudi Pharmaceutical Journal |
author_facet |
Musaed Alkholief Hammam Albasit Adel Alhowyan Sultan Alshehri Mohammad Raish Mohd Abul Kalam Aws Alshamsan |
author_sort |
Musaed Alkholief |
title |
Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of Acyclovir |
title_short |
Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of Acyclovir |
title_full |
Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of Acyclovir |
title_fullStr |
Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of Acyclovir |
title_full_unstemmed |
Employing a PLGA-TPGS based nanoparticle to improve the ocular delivery of Acyclovir |
title_sort |
employing a plga-tpgs based nanoparticle to improve the ocular delivery of acyclovir |
publisher |
Elsevier |
series |
Saudi Pharmaceutical Journal |
issn |
1319-0164 |
publishDate |
2019-02-01 |
description |
Delivering drugs via the ocular route has always been a challenge for poorly soluble drugs. The various anatomical and physiological barriers in the eye cavity hinder the residence of drugs within the corneal and precorneal regions. In this study, the nanosystem that could sufficiently deliver the poorly soluble Acyclovir topically via ocular route. Our nanosystem is composed of the biocompatible PLGA polymer stabilized with TPGS which possess a high emulsifying capacity and is also known as P-gp inhibitor. The optimized nanoparticles were prepared with 0.3% TPGS and had particle-size of 262.3 nm, zeta-potential of +15.14 mV. The physicochemical-characterization, ex vivo transcorneal permeation, ocular-irritation and Acyclovir ocular-availability, following topical ocular application of PLGA-NPs in rabbit eyes, were performed. The tested parameters and irritation by Draize’s test suggested the suitability and safety of PLGA-NPs for ocular use. An ultrahigh performance liquid chromatographic method was developed, validated, and applied to quantify Acyclovir in aqueous humor which was shown to be significantly higher (p < 0.05) using the developed nanoparticles as compared to Acyclovir-aqueous suspension following their single topical ocular administration. Noticeable 2.78-, 1.71- and 2.2-times increased values of AUC0–24h, t1/2 (h) and MRT0–24h were found, respectively, with the PLGA-TPGS-NPs as compared to ACY-AqS. These results demonstrate the superiority of delivering Acyclovir using a nanosystem compared to conventional methods. Keywords: Acyclovir, PLGA, TPGS, Corneal permeation, Ocular pharmacokinetics |
url |
http://www.sciencedirect.com/science/article/pii/S1319016418305796 |
work_keys_str_mv |
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