Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs

Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs

The use of functional excipients such as ionic liquids (ILs) and the encapsulation of drugs into nanocarriers are useful strategies to overcome poor drug solubility. The aim of this work was to evaluate the potential of IL-polymer nanoparticle hybrid systems as tools to deliver poorly soluble drugs....

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Main Authors: Ana Júlio, Rita Caparica, Sofia A. Costa Lima, Ana Sofia Fernandes, Catarina Rosado, Duarte M. F. Prazeres, Salette Reis, Tânia Santos de Almeida, Pedro Fonte
Format: Article
Language:English
Published: MDPI AG 2019-08-01
Series:Nanomaterials
Subjects:
ionic liquid
polymer
PLGA
nanoparticle
poorly soluble drug
rutin
drug delivery
hybrid system
Online Access:https://www.mdpi.com/2079-4991/9/8/1148
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spelling doaj-f4ae9a4d065a4f66b2eb47cd92e688ed2020-11-25T01:54:18ZengMDPI AGNanomaterials2079-49912019-08-0198114810.3390/nano9081148nano9081148Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble DrugsAna Júlio0Rita Caparica1Sofia A. Costa Lima2Ana Sofia Fernandes3Catarina Rosado4Duarte M. F. Prazeres5Salette Reis6Tânia Santos de Almeida7Pedro Fonte8CBIOS—Universidade Lusófona Research Center for Biosciences & Health Technologies, Campo Grande 376, 1749–024 Lisboa, PortugalCBIOS—Universidade Lusófona Research Center for Biosciences & Health Technologies, Campo Grande 376, 1749–024 Lisboa, PortugalLAQV, REQUIMTE, Department of Chemical Sciences—Applied Chemistry Lab, Faculty of Pharmacy, University of Porto, Rua de Jorge Viterbo Ferreira, 228, 4050-313 Porto, PortugalCBIOS—Universidade Lusófona Research Center for Biosciences & Health Technologies, Campo Grande 376, 1749–024 Lisboa, PortugalCBIOS—Universidade Lusófona Research Center for Biosciences & Health Technologies, Campo Grande 376, 1749–024 Lisboa, PortugaliBB-Institute for Bioengineering and Biosciences, Department of Bioengineering, Instituto Superior Técnico, Universidade de Lisboa, 1049-001 Lisboa, PortugalLAQV, REQUIMTE, Department of Chemical Sciences—Applied Chemistry Lab, Faculty of Pharmacy, University of Porto, Rua de Jorge Viterbo Ferreira, 228, 4050-313 Porto, PortugalCBIOS—Universidade Lusófona Research Center for Biosciences & Health Technologies, Campo Grande 376, 1749–024 Lisboa, PortugalCBIOS—Universidade Lusófona Research Center for Biosciences & Health Technologies, Campo Grande 376, 1749–024 Lisboa, PortugalThe use of functional excipients such as ionic liquids (ILs) and the encapsulation of drugs into nanocarriers are useful strategies to overcome poor drug solubility. The aim of this work was to evaluate the potential of IL-polymer nanoparticle hybrid systems as tools to deliver poorly soluble drugs. These systems were obtained using a methodology previously developed by our group and improved herein to produce IL-polymer nanoparticle hybrid systems. Two different choline-based ILs and poly (lactic-co-glycolic acid) (PLGA) 50:50 or PLGA 75:25 were used to load rutin into the delivery system. The resulting rutin-loaded IL-polymer nanoparticle hybrid systems presented a diameter of 250−300 nm, with a low polydispersity index and a zeta potential of about −40 mV. The drug association efficiency ranged from 51% to 76%, which represents a good achievement considering the poor solubility of rutin. No significant particle aggregation was obtained upon freeze-drying. The presence of the IL in the nanosystem does not affect its sustained release properties, achieving about 85% of rutin released after 72 h. The cytotoxicity studies showed that the delivery system was not toxic to HaCat cells. Our findings may open a new paradigm on the therapy improvement of diseases treated with poorly soluble drugs.https://www.mdpi.com/2079-4991/9/8/1148ionic liquidpolymerPLGAnanoparticlepoorly soluble drugrutindrug deliveryhybrid system
collection DOAJ
language English
format Article
sources DOAJ
author Ana Júlio
Rita Caparica
Sofia A. Costa Lima
Ana Sofia Fernandes
Catarina Rosado
Duarte M. F. Prazeres
Salette Reis
Tânia Santos de Almeida
Pedro Fonte
spellingShingle Ana Júlio
Rita Caparica
Sofia A. Costa Lima
Ana Sofia Fernandes
Catarina Rosado
Duarte M. F. Prazeres
Salette Reis
Tânia Santos de Almeida
Pedro Fonte
Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs
Nanomaterials
ionic liquid
polymer
PLGA
nanoparticle
poorly soluble drug
rutin
drug delivery
hybrid system
author_facet Ana Júlio
Rita Caparica
Sofia A. Costa Lima
Ana Sofia Fernandes
Catarina Rosado
Duarte M. F. Prazeres
Salette Reis
Tânia Santos de Almeida
Pedro Fonte
author_sort Ana Júlio
title Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs
title_short Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs
title_full Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs
title_fullStr Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs
title_full_unstemmed Ionic Liquid-Polymer Nanoparticle Hybrid Systems as New Tools to Deliver Poorly Soluble Drugs
title_sort ionic liquid-polymer nanoparticle hybrid systems as new tools to deliver poorly soluble drugs
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2019-08-01
description The use of functional excipients such as ionic liquids (ILs) and the encapsulation of drugs into nanocarriers are useful strategies to overcome poor drug solubility. The aim of this work was to evaluate the potential of IL-polymer nanoparticle hybrid systems as tools to deliver poorly soluble drugs. These systems were obtained using a methodology previously developed by our group and improved herein to produce IL-polymer nanoparticle hybrid systems. Two different choline-based ILs and poly (lactic-co-glycolic acid) (PLGA) 50:50 or PLGA 75:25 were used to load rutin into the delivery system. The resulting rutin-loaded IL-polymer nanoparticle hybrid systems presented a diameter of 250−300 nm, with a low polydispersity index and a zeta potential of about −40 mV. The drug association efficiency ranged from 51% to 76%, which represents a good achievement considering the poor solubility of rutin. No significant particle aggregation was obtained upon freeze-drying. The presence of the IL in the nanosystem does not affect its sustained release properties, achieving about 85% of rutin released after 72 h. The cytotoxicity studies showed that the delivery system was not toxic to HaCat cells. Our findings may open a new paradigm on the therapy improvement of diseases treated with poorly soluble drugs.
topic ionic liquid
polymer
PLGA
nanoparticle
poorly soluble drug
rutin
drug delivery
hybrid system
url https://www.mdpi.com/2079-4991/9/8/1148
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