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Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications

Burns are soft tissue injuries that require particular care for wound healing. Current tissue engineering approaches are aimed at identifying the most efficient treatment combinations to restore the tissue properties and function by using adapted scaffolds or delivery platforms for tissue repair and...

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Autores principales: Dinescu, Sorina, Ignat, Simona Rebeca, Lazar, Andreea Daniela, Marin, Ștefania, Danilă, Elena, Marin, Maria M., Udeanu, Denisa Ioana, Ghica, Mihaela Violeta, Albu-Kaya, Mădălina G., Costache, Marieta
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Hindawi 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6379844/
https://www.ncbi.nlm.nih.gov/pubmed/30868078
http://dx.doi.org/10.1155/2019/4513108
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author Dinescu, Sorina
Ignat, Simona Rebeca
Lazar, Andreea Daniela
Marin, Ștefania
Danilă, Elena
Marin, Maria M.
Udeanu, Denisa Ioana
Ghica, Mihaela Violeta
Albu-Kaya, Mădălina G.
Costache, Marieta
author_facet Dinescu, Sorina
Ignat, Simona Rebeca
Lazar, Andreea Daniela
Marin, Ștefania
Danilă, Elena
Marin, Maria M.
Udeanu, Denisa Ioana
Ghica, Mihaela Violeta
Albu-Kaya, Mădălina G.
Costache, Marieta
author_sort Dinescu, Sorina
collection PubMed
description Burns are soft tissue injuries that require particular care for wound healing. Current tissue engineering approaches are aimed at identifying the most efficient treatment combinations to restore the tissue properties and function by using adapted scaffolds or delivery platforms for tissue repair and regeneration by triggering molecules. To reduce the inflammation associated with skin burns, the addition of an anti-inflammatory factor in these scaffolds would greatly increase the quality of the therapy. Therefore, this study is aimed at obtaining and validating a novel multiparticulate system based on a collagen matrix with controlled delivery of flufenamic acid anti-inflammatory drug for burn wound healing applications. In this work, we have characterized the properties and biocompatibility of these multiparticulate drug delivery systems (MDDS) and we have demonstrated their efficiency against burns and soft tissue lesions, particularly when the drug was microencapsulated, and thus with a controlled release. This study contributes to the advancement in therapy of burns and burn wound healing applications.
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spelling pubmed-63798442019-03-13 Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications Dinescu, Sorina Ignat, Simona Rebeca Lazar, Andreea Daniela Marin, Ștefania Danilă, Elena Marin, Maria M. Udeanu, Denisa Ioana Ghica, Mihaela Violeta Albu-Kaya, Mădălina G. Costache, Marieta J Immunol Res Research Article Burns are soft tissue injuries that require particular care for wound healing. Current tissue engineering approaches are aimed at identifying the most efficient treatment combinations to restore the tissue properties and function by using adapted scaffolds or delivery platforms for tissue repair and regeneration by triggering molecules. To reduce the inflammation associated with skin burns, the addition of an anti-inflammatory factor in these scaffolds would greatly increase the quality of the therapy. Therefore, this study is aimed at obtaining and validating a novel multiparticulate system based on a collagen matrix with controlled delivery of flufenamic acid anti-inflammatory drug for burn wound healing applications. In this work, we have characterized the properties and biocompatibility of these multiparticulate drug delivery systems (MDDS) and we have demonstrated their efficiency against burns and soft tissue lesions, particularly when the drug was microencapsulated, and thus with a controlled release. This study contributes to the advancement in therapy of burns and burn wound healing applications. Hindawi 2019-02-05 /pmc/articles/PMC6379844/ /pubmed/30868078 http://dx.doi.org/10.1155/2019/4513108 Text en Copyright © 2019 Sorina Dinescu et al. http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Dinescu, Sorina
Ignat, Simona Rebeca
Lazar, Andreea Daniela
Marin, Ștefania
Danilă, Elena
Marin, Maria M.
Udeanu, Denisa Ioana
Ghica, Mihaela Violeta
Albu-Kaya, Mădălina G.
Costache, Marieta
Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications
title Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications
title_full Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications
title_fullStr Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications
title_full_unstemmed Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications
title_short Efficiency of Multiparticulate Delivery Systems Loaded with Flufenamic Acid Designed for Burn Wound Healing Applications
title_sort efficiency of multiparticulate delivery systems loaded with flufenamic acid designed for burn wound healing applications
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6379844/
https://www.ncbi.nlm.nih.gov/pubmed/30868078
http://dx.doi.org/10.1155/2019/4513108
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