Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans

Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans

It is known that cetylpyridinium chloride (CPC) has in vitro and in vivo antifungal action against Candida albicans, with advantages over other common antiseptics. A CPC delivery-controlled system, transported in polymer nanofibers (PVP/PMMA), was developed to increase the bioavailability of the drug in contact with the oral mucosa. The objectives of this study were to determine if CPC in nanofiber has antifungal action against C. albicans, and in what concentration it must be incorporated, so that the fraction released can yield an inhibitory concentration. The nanofiber was prepared by electrospinning, and sterilized with gamma irradiation. Nanofiber disks with 0.05%, 1.25%, 2.5% and 5% CPC, with 5% miconazole (MCZ) and with no drug, as well as filter paper disks with 5% CPC, with 5% MCZ and with no drug were used in this study. A Candida albicans suspension (ATCC 90028) was inoculated in Mueller-Hinton Agar plates. The disks were placed on the plates and the inhibition zone diameters were measured 48h later. The nanopolymeric disks contracted in contact with the agar. All the concentrations of CPC incorporated in the nanofiber presented inhibitory action against C. albicans. Concentrations of 2.5% and 5% CPC presented a significant advantage over the nanofiber with no drug, proving the antifungal action of CPC. Under these experimental conditions, 5% CPC has greater inhibitory action against C. albicans than 5% MCZ, both in nanofiber and in filter paper. A modification made in the polymer to decrease the contraction rate may allow a larger inhibition zone to be maintained, thereby increasing the clinical usefulness of the polymer.

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Main Authors: SANTOS,Valdirene Alves dos, VIERA,Patricia Verônica Aulestia, OLIVEIRA,Adriano Marim de, ZANIN,Maria Helena Ambrosio, BORSATTI,Maria Aparecida
Format: Digital revista
Language:English
Published: Sociedade Brasileira de Pesquisa Odontológica - SBPqO 2014
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1806-83242014000100258
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spelling oai:scielo:S1806-832420140001002582018-09-17Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicansSANTOS,Valdirene Alves dosVIERA,Patricia Verônica AulestiaOLIVEIRA,Adriano Marim deZANIN,Maria Helena AmbrosioBORSATTI,Maria Aparecida Nanofibers Drug Delivery Systems Administration Topical Mouthwashes Candida It is known that cetylpyridinium chloride (CPC) has in vitro and in vivo antifungal action against Candida albicans, with advantages over other common antiseptics. A CPC delivery-controlled system, transported in polymer nanofibers (PVP/PMMA), was developed to increase the bioavailability of the drug in contact with the oral mucosa. The objectives of this study were to determine if CPC in nanofiber has antifungal action against C. albicans, and in what concentration it must be incorporated, so that the fraction released can yield an inhibitory concentration. The nanofiber was prepared by electrospinning, and sterilized with gamma irradiation. Nanofiber disks with 0.05%, 1.25%, 2.5% and 5% CPC, with 5% miconazole (MCZ) and with no drug, as well as filter paper disks with 5% CPC, with 5% MCZ and with no drug were used in this study. A Candida albicans suspension (ATCC 90028) was inoculated in Mueller-Hinton Agar plates. The disks were placed on the plates and the inhibition zone diameters were measured 48h later. The nanopolymeric disks contracted in contact with the agar. All the concentrations of CPC incorporated in the nanofiber presented inhibitory action against C. albicans. Concentrations of 2.5% and 5% CPC presented a significant advantage over the nanofiber with no drug, proving the antifungal action of CPC. Under these experimental conditions, 5% CPC has greater inhibitory action against C. albicans than 5% MCZ, both in nanofiber and in filter paper. A modification made in the polymer to decrease the contraction rate may allow a larger inhibition zone to be maintained, thereby increasing the clinical usefulness of the polymer.info:eu-repo/semantics/openAccessSociedade Brasileira de Pesquisa Odontológica - SBPqOBrazilian Oral Research v.28 n.1 20142014-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1806-83242014000100258en10.1590/1807-3107BOR-2014.vol28.0049
institution SCIELO
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country Brasil
countrycode BR
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access En linea
databasecode rev-scielo-br
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region America del Sur
libraryname SciELO
language English
format Digital
author SANTOS,Valdirene Alves dos
VIERA,Patricia Verônica Aulestia
OLIVEIRA,Adriano Marim de
ZANIN,Maria Helena Ambrosio
BORSATTI,Maria Aparecida
spellingShingle SANTOS,Valdirene Alves dos
VIERA,Patricia Verônica Aulestia
OLIVEIRA,Adriano Marim de
ZANIN,Maria Helena Ambrosio
BORSATTI,Maria Aparecida
Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans
author_facet SANTOS,Valdirene Alves dos
VIERA,Patricia Verônica Aulestia
OLIVEIRA,Adriano Marim de
ZANIN,Maria Helena Ambrosio
BORSATTI,Maria Aparecida
author_sort SANTOS,Valdirene Alves dos
title Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans
title_short Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans
title_full Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans
title_fullStr Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans
title_full_unstemmed Antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against Candida albicans
title_sort antifungal effect of electrospun nanofibers containing cetylpyridinium chloride against candida albicans
description It is known that cetylpyridinium chloride (CPC) has in vitro and in vivo antifungal action against Candida albicans, with advantages over other common antiseptics. A CPC delivery-controlled system, transported in polymer nanofibers (PVP/PMMA), was developed to increase the bioavailability of the drug in contact with the oral mucosa. The objectives of this study were to determine if CPC in nanofiber has antifungal action against C. albicans, and in what concentration it must be incorporated, so that the fraction released can yield an inhibitory concentration. The nanofiber was prepared by electrospinning, and sterilized with gamma irradiation. Nanofiber disks with 0.05%, 1.25%, 2.5% and 5% CPC, with 5% miconazole (MCZ) and with no drug, as well as filter paper disks with 5% CPC, with 5% MCZ and with no drug were used in this study. A Candida albicans suspension (ATCC 90028) was inoculated in Mueller-Hinton Agar plates. The disks were placed on the plates and the inhibition zone diameters were measured 48h later. The nanopolymeric disks contracted in contact with the agar. All the concentrations of CPC incorporated in the nanofiber presented inhibitory action against C. albicans. Concentrations of 2.5% and 5% CPC presented a significant advantage over the nanofiber with no drug, proving the antifungal action of CPC. Under these experimental conditions, 5% CPC has greater inhibitory action against C. albicans than 5% MCZ, both in nanofiber and in filter paper. A modification made in the polymer to decrease the contraction rate may allow a larger inhibition zone to be maintained, thereby increasing the clinical usefulness of the polymer.
publisher Sociedade Brasileira de Pesquisa Odontológica - SBPqO
publishDate 2014
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1806-83242014000100258
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