Preparation of Tablets from Reservoir Pellets with an Emphasis on the Compression Behaviour and Drug Release

Tunón, Åsa

January 2003

<p>The preparation of multiple unit tablets was investigated in this thesis with the intention of gaining a deeper understanding of some of the factors that influence the properties of such tablets.</p><p>Initially, three different types of pellets (drug, soft and disintegrant pellets) were combined as a model to investigate the ability of the mixture to form disintegrating tablets. The proportions of the different pellets and the type of disintegrant used were factors that independently influenced the tablet properties. Furthermore, the properties of tablets containing drug pellets barrier-coated with an aqueous polymer dispersion were also found to depend on the coating thickness and the compaction pressure.</p><p>When compacting pellets barrier-coated with a solvent-based polymer solution without incorporating excipient particles in the tablet formulation, a high pellet porosity was advantageous to preserve the original drug release profile, even though highly porous pellets became more densified and deformed than pellets of lower porosity.</p><p>The influence of the properties of excipient particles on the deformation<b> </b>of the reservoir pellets was also studied and, although the amount of flattening of the pellets was only slightly affected, changes in the pellet shape (irregularity) with alterations in the porosity and size of the excipient particles were more substantial. In contrast, the properties of the excipient particles did not affect the pellet densification.</p><p>The solvent-based coating used was able to adapt to the changes in volume and shape that the pellets underwent during compaction. The coating structure appears to be changed by compaction and it is proposed that the final structure of the coating is the net effect of two parallel processes, one reducing and one prolonging the transport time of the drug across the coating. Thus, the drug release could be maintained or even prolonged after compaction, despite extensive structural changes of the reservoir pellets.</p>

Pharmaceutics

multiple unit tablets

extrusion-spheronisation

barrier-coating

modified drug release

pellet types

compaction

tablet properties

deformation

densification

Galenisk farmaci

Pharmaceutics

Galenisk farmaci

Preparation of Tablets from Reservoir Pellets with an Emphasis on the Compression Behaviour and Drug Release

Tunón, Åsa

January 2003

The preparation of multiple unit tablets was investigated in this thesis with the intention of gaining a deeper understanding of some of the factors that influence the properties of such tablets. Initially, three different types of pellets (drug, soft and disintegrant pellets) were combined as a model to investigate the ability of the mixture to form disintegrating tablets. The proportions of the different pellets and the type of disintegrant used were factors that independently influenced the tablet properties. Furthermore, the properties of tablets containing drug pellets barrier-coated with an aqueous polymer dispersion were also found to depend on the coating thickness and the compaction pressure. When compacting pellets barrier-coated with a solvent-based polymer solution without incorporating excipient particles in the tablet formulation, a high pellet porosity was advantageous to preserve the original drug release profile, even though highly porous pellets became more densified and deformed than pellets of lower porosity. The influence of the properties of excipient particles on the deformation<b> </b>of the reservoir pellets was also studied and, although the amount of flattening of the pellets was only slightly affected, changes in the pellet shape (irregularity) with alterations in the porosity and size of the excipient particles were more substantial. In contrast, the properties of the excipient particles did not affect the pellet densification. The solvent-based coating used was able to adapt to the changes in volume and shape that the pellets underwent during compaction. The coating structure appears to be changed by compaction and it is proposed that the final structure of the coating is the net effect of two parallel processes, one reducing and one prolonging the transport time of the drug across the coating. Thus, the drug release could be maintained or even prolonged after compaction, despite extensive structural changes of the reservoir pellets.

Pharmaceutics

multiple unit tablets

extrusion-spheronisation

barrier-coating

modified drug release

pellet types

compaction

tablet properties

deformation

densification

Galenisk farmaci

Pharmaceutics

Galenisk farmaci

Influência do ácido hialurônico na formação de filmes isolados de acetato polivinílico destinados ao revestimento de sólidos orais / Influence of hyaluronic acid on the formation of isolated polyvinyl acetate films for oral solid coating

Zanin, Giovane Douglas

26 September 2014

Submitted by Neusa Fagundes (neusa.fagundes@unioeste.br) on 2018-03-06T19:28:50Z No. of bitstreams: 2 Giovane_Zanin2014.pdf: 3169659 bytes, checksum: ca4852dea2558da8d3c74260c79fc413 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2018-03-06T19:28:50Z (GMT). No. of bitstreams: 2 Giovane_Zanin2014.pdf: 3169659 bytes, checksum: ca4852dea2558da8d3c74260c79fc413 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2014-09-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The polyvinyl acetate is a polymer used in the development of formulations for sustained release of drugs. Hyaluronic acid (HA) can interact with receptors on the plasma membrane, especially CD44 that overexpressed in tumor cells. This paper presents a pre-formulation study of isolated polyvinyl acetate films with the addition of HA to the application perspective in pharmaceutical dosage forms destined to modified drug release. The films were prepared using the solvent evaporation method and evaluated according to macroscopic and morphologic characteristics, thickness, Fourier transform infrared spectroscopy (FTIR), thermal analyses (thermogravimetry and differential scanning calorimetry), scanning electron microscopy, water vapor transmission, and swelling index. Addition of HA enabled the formation of isolated films, influencing transparency, flexibility, and thickness. FTIR spectra demonstrated that only physical mixing occurred. TG and DSC curves indicated that films are thermally stable up to 200C. Electron micrographs showed modifications in the polymer mesh structure in samples (85:15 and 80:20) previously immersed in simulated gastric fluid and more pronounced after immersion in simulated intestinal fluid. The HA concentration also influenced water vapor permeability and swelling increasing these indices. We propose that films with 95:05 and 90:10 compositions can be used for modified drug release, as they were similar to a reference film and maintained targeted delivery. / O acetato polivinílico (AcPV) é um polímero utilizado no desenvolvimento de formulações para liberação sustentadas de fármacos. O ácido hialurônico (AH) possui a habilidade de interagir com receptores nas membranas plasmáticas celulares, em especial o CD44 que esta super-expresso em células tumorais. O objetivo deste trabalho foi realizar um estudo de pré-formulação em filmes isolados de acetato polivinílico (AcPV) adicionados de AH na perspectiva de aplicação em formas farmacêuticas destinadas à liberação modificada de fármacos. Os filmes foram produzidos pelo método de evaporação do solvente e avaliados quanto as características macroscópicas e morfológicas, espessura, espectroscopia no infravermelho (FT-IR), análises térmicas (TG e DSC), microscopia eletrônica de varredura, transmissão de vapor de água e índice de intumescimento. Os resultados demonstraram que adição de AH permitiu a formação de filmes isolados adequados influenciando na transparência, flexibilidade e espessura. Espectro no FT-IR evidenciaram ocorrência apenas de mistura física entre os constituintes. As curvas TG e DSC indicaram que os filmes são termicamente estáveis até a temperatura de 200 ºC. Nas micrografias eletrônicas foi possível observar alterações na estrutural da malha polimérica nas composições 85:15 e 80:20 para as amostras previamente imersas em fluido de simulação gástrica, sendo ainda mais pronunciado após imersão em fluído de simulação intestinal. A concentração do AH também influenciou diretamente permeabilidade ao vapor de água e o intumescimento, aumentando estes índices. Na perspectiva de aplicação dos filmes avaliados, destacamos as composições 95:05 e 90:10, as quais sugerem maior potencial para aplicação em formas farmacêuticas para liberação modificada de fármacos uma vez que foram os mais semelhantes ao filme padrão e que mantiveram a possível capacidade de sítio alvo especificidade.

Liberação modificada de fármacos

CD44

Kollicoat SR 30D®

Sítio-alvo-especificidade

Modified drug release

CD44

Kollicoat SR 30D®

Targeted delivery

CIENCIAS DA SAUDE::FARMACIA