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Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen

Objective(s) : Ibuprofen is a problematic drug in tableting due to its viscoelastic properties. Additionally its high cohesivity results in low flowability. In this study, co-precipitation of ibuprofen with varying concentration of agar and PVP to optimize properties of Ibuprofen was carried out. Ma...

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Autores principales: Maghsoodi, Maryam, Kiafar, Farhad
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Mashhad University of Medical Sciences 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3821878/
https://www.ncbi.nlm.nih.gov/pubmed/24250936
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author Maghsoodi, Maryam
Kiafar, Farhad
author_facet Maghsoodi, Maryam
Kiafar, Farhad
author_sort Maghsoodi, Maryam
collection PubMed
description Objective(s) : Ibuprofen is a problematic drug in tableting due to its viscoelastic properties. Additionally its high cohesivity results in low flowability. In this study, co-precipitation of ibuprofen with varying concentration of agar and PVP to optimize properties of Ibuprofen was carried out. Materials and Methods: Co-precipitates of ibuprofen- PVP or agar were prepared by solvent evaporation technique under vacuum condition. Differential scanning calorimetry (DSC), X -ray diffraction of powder (XRDP) and FT-IR spectroscopy were used to investigate the solid state characteristics of the co-precipitates. The dissolution behavior, flowability, particle size and compaction properties of various batches were also studied. Results: Co-precipitation of drug with agar led to a change in habit from needle to plate shape crystals, while drug –PVP co-precipitates had agglomerated structure and consisted of numerous crystals which had been aggregated together. The co-precipitates showed improved flow properties compared with ibuprofen alone. Precipitation of ibuprofen with these additives led to modification in the dissolution of the drug. Agar in 1% w/w improved slightly the dissolution rate of drug while PVP had a negative impact and led to reduction in the dissolution rate of drug to less than that of pure drug. The all obtained co-precipitates exhibited significantly improved tableting behavior compared with drug crystals alone. This may be due to this fact that, the polymer covering the drug particles increases and changes the nature of the surface area available for interparticulate bonds between particles. DSC, XRDP and FT-IR experiments showed that drug particles, in co-precipitates samples, did not undergo polymorphic modifications. Conclusion: The study highlights the influence of polymeric additives on crystallization process leading to modified performance.
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spelling pubmed-38218782013-11-18 Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen Maghsoodi, Maryam Kiafar, Farhad Iran J Basic Med Sci Original Article Objective(s) : Ibuprofen is a problematic drug in tableting due to its viscoelastic properties. Additionally its high cohesivity results in low flowability. In this study, co-precipitation of ibuprofen with varying concentration of agar and PVP to optimize properties of Ibuprofen was carried out. Materials and Methods: Co-precipitates of ibuprofen- PVP or agar were prepared by solvent evaporation technique under vacuum condition. Differential scanning calorimetry (DSC), X -ray diffraction of powder (XRDP) and FT-IR spectroscopy were used to investigate the solid state characteristics of the co-precipitates. The dissolution behavior, flowability, particle size and compaction properties of various batches were also studied. Results: Co-precipitation of drug with agar led to a change in habit from needle to plate shape crystals, while drug –PVP co-precipitates had agglomerated structure and consisted of numerous crystals which had been aggregated together. The co-precipitates showed improved flow properties compared with ibuprofen alone. Precipitation of ibuprofen with these additives led to modification in the dissolution of the drug. Agar in 1% w/w improved slightly the dissolution rate of drug while PVP had a negative impact and led to reduction in the dissolution rate of drug to less than that of pure drug. The all obtained co-precipitates exhibited significantly improved tableting behavior compared with drug crystals alone. This may be due to this fact that, the polymer covering the drug particles increases and changes the nature of the surface area available for interparticulate bonds between particles. DSC, XRDP and FT-IR experiments showed that drug particles, in co-precipitates samples, did not undergo polymorphic modifications. Conclusion: The study highlights the influence of polymeric additives on crystallization process leading to modified performance. Mashhad University of Medical Sciences 2013-04 /pmc/articles/PMC3821878/ /pubmed/24250936 Text en © 2013: Iranian Journal of Basic Medical Sciences This is an Open Access article distributed under the terms of the Creative Commons Attribution License, (http://creativecommons.org/licenses/by/3.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Article
Maghsoodi, Maryam
Kiafar, Farhad
Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen
title Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen
title_full Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen
title_fullStr Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen
title_full_unstemmed Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen
title_short Co-precipitation with PVP and Agar to Improve Physicomechanical Properties of Ibuprofen
title_sort co-precipitation with pvp and agar to improve physicomechanical properties of ibuprofen
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3821878/
https://www.ncbi.nlm.nih.gov/pubmed/24250936
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