Development and characterization of PLGA nanocapsules of grandisin isolated from Virola surinamensis: in vitro release and cytotoxicity studies

The most studied phyto constituent isolated from Virola surinamensis (Rol. ex Rottb.) Warb., Myristicaceae, is the tetrahydrofuran neolignan grandisin, which exhibits a series of biological activities, including trypanocidal, larvicidal and antitumoral. Due to its extremely low solubility, additiona...

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Published in:Revista brasileira de farmacognosia 2013-01, Vol.23 (1), p.153-159
Main Authors: Stecanella, Luciano Aparecido, Taveira, Stephânia Fleury, Marreto, Ricardo Neves, Valadares, Marize C., Vieira, Marcelo de Sousa, Kato, Massuo Jorge, Lima, Eliana Martins
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cytotoxicity
grandisin
PHARMACOLOGY & PHARMACY
PLGA nanocapsules
sustained release
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cited_by cdi_FETCH-LOGICAL-c403t-3e646005a555bf8f2e7a8d456f5e995746b7bbac1ccf3bf1e94ad95e8d8902dd3
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container_title Revista brasileira de farmacognosia
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creator Stecanella, Luciano Aparecido
Taveira, Stephânia Fleury
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Kato, Massuo Jorge
Lima, Eliana Martins
description The most studied phyto constituent isolated from Virola surinamensis (Rol. ex Rottb.) Warb., Myristicaceae, is the tetrahydrofuran neolignan grandisin, which exhibits a series of biological activities, including trypanocidal, larvicidal and antitumoral. Due to its extremely low solubility, additional studies, including in vivo investigations are challenged by the difficulties in the development of an effective drug delivery system for grandisin. The encapsulation in polymeric nanoparticles is a very attractive alternative for overcoming some of these limitations. In this work, PLGA nanocapsules loaded with grandisin were developed in an attempt to optimize the efi cacy of grandisin as an antitumoral drug, with high drug loading and efi ciency, prolonged drug release and increased physical-chemical stability. Mean diameter of the nanocapsules was lower than 200 nm, with very low polydispersity. Encapsulation efi ciency was above 90%. A sustained in vitro drug release was achieved for up to twenty days and cytotoxicity was markedly increased (IC50 for grandisin-NC and grandisin were 0.005μM and 0.078μM, respectively), indicating that polymeric nanocapsules are a potential drug delivery system for grandisin allowing the preparation of formulations viable for further in vivo studies.
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1981-528X
1981-528X
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subjects cytotoxicity
grandisin
PHARMACOLOGY & PHARMACY
PLGA nanocapsules
sustained release
title Development and characterization of PLGA nanocapsules of grandisin isolated from Virola surinamensis: in vitro release and cytotoxicity studies
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