ABSTRACT
Amorphous solid dispersions (ASDs) are popular for enhancing the solubility and bioavailability of poorly water-soluble drugs. Various approaches have been employed to produce ASDs and novel techniques are emerging. This review provides an updated overview of manufacturing techniques for preparing ASDs. As physical stability is a critical quality attribute for ASD, the impact of formulation, equipment, and process variables, together with the downstream processing on physical stability of ASDs have been discussed. Selection strategies are proposed to identify suitable manufacturing methods, which may aid in the development of ASDs with satisfactory physical stability.
ABSTRACT
ABSTRACT The present study describes the development of theophylline microcapsules by a non-solvent addition method and the effect of plasticizer addition on microencapsulation. The release was studied in distilled water and the data were analysed by various mathematical models for determining the mechanism of release. Prepared microcapsules were found to be spherical, free flowing and having more than 80% entrapped drug. The polymer - cellulose acetate phthalate and plasticizer - polyethylene glycol was considered to be affecting the properties of microcapsules including drug release (time for 50% drug release, T50). The formulation with the highest proportion of polymer and without plasticizer (F3) showed the slowest release with T50 = 4.3 h, while the formulation with lower proportion of polymer and 20% (w/w) plasticizer (F13 &14) showed the fastest release of drug with T50 values of 1.2 h and 1.3 h, respectively. The drug release from most of the formulations was found to be following Higuchi model. It is concluded from the results of the present study that cellulose acetate phthalate significantly affects the sustained release of the drug in water, whereas the addition of polyethylene glycol slightly enhances the drug release.
RESUMO O presente estudo descreve o desenvolvimento de microcápsulas de teofilina pelo método sem adição de solvente e o efeito da adição de plastificante na microencapsulação. A liberação foi estudada em água destilada e os dados foram analisados por vários modelos matemáticos para determinação do mecanismo de liberação. As microcápsulas preparadas mostraram-se esféricas, livres de corrente e com mais de 80% de fármaco encapsulado. O polímero - ftalato de acetato de celulose e o plastificante - polietileno glicol - afetaram as propriedades das microcápsulas, incluindo a liberação do fármaco (tempo para liberação de 50% do fármaco, T50). A formulação com a maior proporção de polímero e sem plastificante (F3) se mostrou como a de liberação mais lenta, com T50 = 4,3 h, enquanto as formulações com menor proporção de polímero e 20% de plastificante (m/m) (F13 &14) apresentaram a liberação mais rápida do fármaco, com T50 de 1,2 h e 1,3 h, respectivamente. A liberação do fármaco para a maioria das formulações seguiu o modelo de Higuchi. Concluiu-se, dos resultados do presente estudo, que o ftalato do acetato de celulose afeta significativamente a liberação controlada do fármaco em água, enquanto que a adição de polietileno glicol aumenta ligeiramente a liberação do fármaco.
Subject(s)
Theophylline/pharmacokinetics , Capsules/administration & dosage , Cetomacrogol/pharmacokinetics , Dibutyl Phthalate/pharmacokinetics , Pharmaceutical Preparations , Drug Compounding/methods , Drug LiberationABSTRACT
The objective of this research work was to prepare a chrono- modulated drug delivery system to meet chronopharmacological needs of asthma. In this study doxofylline was selected as a model drug. To meet this objective an initial lag phase of release for 3-5 hrs and later a rapid (surge) release phase was considered. To achieve surge release a rapidly releasing core tablet of doxofylline was developed by admixing doxofylline with effervescent granules and super disintegrants. The lag phase in release (2hr) was achieved by coating EV core tablets with release retarding polymers Eudragit RS-100 6% containing HPMC (Hydroxy Propyl Methyl Cellulose) 5%, further over coated with enteric polymer CAP (Cellulose Acetate Phthalate) 12%. The formulated chronomodulated tablets of doxofylline were able to release more than 90% drug within 4 hrs after the lag phase of 2 hrs.
ABSTRACT
Gastro-resistant capsules are often used for several purposes, such as protection of unstable drugs in acid medium to the action of gastric fluids or protection of the gastric mucosa to irritants drugs. The aim of this study was to verify the variation of preparations of capsules coating with cellulose acetate phthalate and methacrylic acid copolymer, without drug addition, in 7-10% coating concentrations, prepared manually with four or five immersions in tested coating solution. Results were analyzed considering the formulation's disintegration test. Within the context of formulations under analysis, it was observed that the capsules coated with cellulose acetate phthalate 10% complied with the pharmacopeia's disintegration specifications. However, capsules coated with methacrylic acid copolymer did not show accordance with the pharmacopeia's specifications. The results emphasize the need for the standardization of coating methodology.
Cápsulas gastrorresistentes são frequentemente utilizadas com diversos propósitos, como a proteção de fármacos instáveis em meio ácido à ação dos fluidos gástricos ou proteção da mucosa gástrica à fármacos irritantes. O objetivo deste trabalho foi verificar a variação da preparação de revestimento de cápsulas com acetoftalato de celulose e copolímero do ácido metacrílico, sem adição de fármaco, em concentrações que variam de 7 a 10% de revestimento, preparadas manualmente com quatro a cinco camadas da solução dos revestimentos testados. Os resultados foram analisados considerando o teste de desintegração das formulações. Das formulações testadas, foi observado que as cápsulas revestidas com acetoftalato de celulose a 10% cumpriram com as especificações farmacopeicas quanto à desintegração. No entanto, cápsulas revestidas com copolímero de ácido metacrílico não mostraram conformidade com as especificações farmacopeicas. Os resultados obtidos enfatizam a necessidade de padronização da metodologia de revestimento.