Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine

Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine

In this study solid dispersions of carbamazepine in the hydrophilic Kollidon® VA64 polymer, adsorbed onto Neusilin® UFL2 adsorption carrier have been employed to improve carbamazepine dissolution rate. In order to evaluate effects of changing in the proportions of all solid dispersion components on...

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Main Authors: Tanja Vojinović, Djordje Medarević, Edina Vranić, Zorica Potpara, Marko Krstić, Jelena Djuriš, Svetlana Ibrić
Format: Article
Language:English
Published: Elsevier 2018-07-01
Series:Saudi Pharmaceutical Journal
Online Access:http://www.sciencedirect.com/science/article/pii/S1319016418300410
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spelling doaj-72ff1e06b8ea487fbe93644a70b9e1522020-11-24T21:22:57ZengElsevierSaudi Pharmaceutical Journal1319-01642018-07-01265725732Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepineTanja Vojinović0Djordje Medarević1Edina Vranić2Zorica Potpara3Marko Krstić4Jelena Djuriš5Svetlana Ibrić6Department of Pharmacy, Faculty of Medicine, University of Montenegro, Ljubljanska bb, Podgorica, MontenegroDepartment of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Vojvode Stepe 450, Belgrade, Serbia; Corresponding author at: Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Vojvode Stepe 450, 11221 Belgrade, Serbia.Department of Pharmaceutical Technology, Faculty of Pharmacy, University of Sarajevo, Zmaja od Bosne 8, Sarajevo, Bosnia and HerzegovinaDepartment of Pharmacy, Faculty of Medicine, University of Montenegro, Ljubljanska bb, Podgorica, MontenegroDepartment of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Vojvode Stepe 450, Belgrade, SerbiaDepartment of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Vojvode Stepe 450, Belgrade, SerbiaDepartment of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Vojvode Stepe 450, Belgrade, SerbiaIn this study solid dispersions of carbamazepine in the hydrophilic Kollidon® VA64 polymer, adsorbed onto Neusilin® UFL2 adsorption carrier have been employed to improve carbamazepine dissolution rate. In order to evaluate effects of changing in the proportions of all solid dispersion components on carbamazepine dissolution rate, D-optimal mixture experimental design was used in the formulation development. From all prepared solid dispersion formulations, significantly faster carbamazepine dissolution was observed compared to pure drug. Ternary solid dispersions containing carbamazepine, Kollidon® VA64 and Neusilin® UFL2 showed superior dissolution performances over binary ones, containing only carbamazepine and Neusilin® UFL2. Proportion of Kollidon® VA64 showed the most profound effect on the amount of carbamazepine dissolved after 10 and 30 min, whereby these parameters increase upon increasing in Kollidon® VA64 concentrations up to the middle values in the studied range of Kollidon® VA64 concentrations. Physicochemical characterization of the selected samples using differential scanning calorimetry, FT-IR spectroscopy, powder X-ray diffraction and polarizing light microscopy showed polymorphic transition of carbamazepine from more thermodynamically stable monoclinic form (form III) to less thermodynamically stable triclinic form (form I) in the case of ternary, but not of binary solid dispersion formulations. This polymorphic transition can be one of the factors responsible for improving of carbamazepine dissolution rate from studied solid dispersions. Ternary solid dispersions prepared with Kollidon® VA64 hydrophilic polymer and Neusilin® UFL2 adsorption carrier resulted in significantly improvement of carbamazepine dissolution rate, but formation of metastable polymorphic form of carbamazepine requires particular care to be taken in ensuring product long term stability. Keywords: Solid dispersions, D-optimal mixture experimental design, Surface adsorbent, Poorly soluble drugs, Polymorphism, Polymorphic conversionhttp://www.sciencedirect.com/science/article/pii/S1319016418300410
collection DOAJ
language English
format Article
sources DOAJ
author Tanja Vojinović
Djordje Medarević
Edina Vranić
Zorica Potpara
Marko Krstić
Jelena Djuriš
Svetlana Ibrić
spellingShingle Tanja Vojinović
Djordje Medarević
Edina Vranić
Zorica Potpara
Marko Krstić
Jelena Djuriš
Svetlana Ibrić
Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine
Saudi Pharmaceutical Journal
author_facet Tanja Vojinović
Djordje Medarević
Edina Vranić
Zorica Potpara
Marko Krstić
Jelena Djuriš
Svetlana Ibrić
author_sort Tanja Vojinović
title Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine
title_short Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine
title_full Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine
title_fullStr Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine
title_full_unstemmed Development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine
title_sort development of ternary solid dispersions with hydrophilic polymer and surface adsorbent for improving dissolution rate of carbamazepine
publisher Elsevier
series Saudi Pharmaceutical Journal
issn 1319-0164
publishDate 2018-07-01
description In this study solid dispersions of carbamazepine in the hydrophilic Kollidon® VA64 polymer, adsorbed onto Neusilin® UFL2 adsorption carrier have been employed to improve carbamazepine dissolution rate. In order to evaluate effects of changing in the proportions of all solid dispersion components on carbamazepine dissolution rate, D-optimal mixture experimental design was used in the formulation development. From all prepared solid dispersion formulations, significantly faster carbamazepine dissolution was observed compared to pure drug. Ternary solid dispersions containing carbamazepine, Kollidon® VA64 and Neusilin® UFL2 showed superior dissolution performances over binary ones, containing only carbamazepine and Neusilin® UFL2. Proportion of Kollidon® VA64 showed the most profound effect on the amount of carbamazepine dissolved after 10 and 30 min, whereby these parameters increase upon increasing in Kollidon® VA64 concentrations up to the middle values in the studied range of Kollidon® VA64 concentrations. Physicochemical characterization of the selected samples using differential scanning calorimetry, FT-IR spectroscopy, powder X-ray diffraction and polarizing light microscopy showed polymorphic transition of carbamazepine from more thermodynamically stable monoclinic form (form III) to less thermodynamically stable triclinic form (form I) in the case of ternary, but not of binary solid dispersion formulations. This polymorphic transition can be one of the factors responsible for improving of carbamazepine dissolution rate from studied solid dispersions. Ternary solid dispersions prepared with Kollidon® VA64 hydrophilic polymer and Neusilin® UFL2 adsorption carrier resulted in significantly improvement of carbamazepine dissolution rate, but formation of metastable polymorphic form of carbamazepine requires particular care to be taken in ensuring product long term stability. Keywords: Solid dispersions, D-optimal mixture experimental design, Surface adsorbent, Poorly soluble drugs, Polymorphism, Polymorphic conversion
url http://www.sciencedirect.com/science/article/pii/S1319016418300410
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