Compacted Multiparticulate Systems for Colon-Specific Delivery of Ketoprofen.

Pellet-containing tablets for colon-specific drug delivery present higher targeting efficiency and lower costs when compared with monolithic tablets and pellet-filled capsules, respectively. In this study, pellets containing ketoprofen were coated with different acrylic polymers and submitted to compaction. The influence of formulation and process factors on film integrity was then evaluated. Pellets were prepared via extrusion-spheronization and coated using two acrylic polymers (Eudragit® FS 30 D and Opadry® 94 k28327, PMMA and PMA, respectively). The resulting pellets were mixed with placebo granules and compressed in a hydraulic press. Multiple regression showed that ketoprofen release from pellet-containing tablets is predominantly influenced by pellet content, hardness, friability, and disintegration time. PMA-containing tablets prepared under low compaction force or with low pellet content showed rapid disintegration (<1 min) and ketoprofen release similar to those of uncompressed coated pellets (∼30% at 360 min of experiment). On the other hand, PMMA-containing tablets showed a higher rupture level, and those prepared with higher pellet content gave rise to a non-disintegrating matrix. Coated pellets were shown to be able to target ketoprofen to the colonic region. Targeting capacity was dependent on the physicochemical characteristics of the tablets.

Physical characterization of multiparticulate systems

ABSTRACT The search for new pharmaceutical dosage forms and different drug delivery systems already used in therapeutics is a global trend, serving as an opportunity to expand the portfolio for the pharmaceutical industry. In this context, multiparticulate systems, such as pellets, granules, and minitablets, represent an attractive alternative, given the range of possibilities they provide. Among the methods used in the production of these systems, we highlight the process of extrusion-spheronization for pellet manufacture, wet granulation and hot-melt extrusion for the obtention of granules, and direct compression for minitablets. Although highly versatile, depending on the technology chosen, many processes and formulation variables can influence the ensuing stages of manufacture, as well as the final product. Therefore, the characterization of these small units is of fundamental importance for achieving batch homogeneity and optimal product performance. Analyses, including particle size distribution, morphology, density, porosity, mechanical strength and disintegration, are example tests used in this characterization. The objective of this review was to address the most widely used tests for the physical evaluation of multiparticulate systems.

Gellan gum microspheres crosslinked with trivalent ion: effect of polymer and crosslinker concentrations on drug release and mucoadhesive properties.

Gellan gum microspheres were obtained by ionotropic gelation technique, using the trivalent ion Al(3+). The percentage of entrapment efficiency ranged from 48.76 to 87.52% and 2(2) randomized full factorial design demonstrated that both the increase of polymer concentration and the decrease of crosslinker concentration presented a positive effect in the amount of encapsulated drug. Microspheres size and circularity ranged from 700.17 to 938.32 µm and from 0.641 to 0.796 µm, respectively. The increase of polymer concentration (1-2%) and crosslinker concentration (3-5%) led to the enlargement of particle size and circularity. However, the association of increased crosslinker concentration and reduced polymer content made the particles more irregular. In vitro and ex vivo tests evidenced the high mucoadhesiveness of microspheres. The high liquid uptake ability of the microspheres was demonstrated and the pH variation did not affect this parameter. Drug release was pH dependent, with low release rates in acid pH (42.40% and 44.93%) and a burst effect in phosphate buffer pH (7.4). The Weibull model had the best correlation with the drug release data, demonstrating that the release process was driven by a complex mechanism involving the erosion and swelling of the matrix or by non-Fickian diffusion.

Desenvolvimento de sistemas multiparticulados de liberação imediata e modificada para associação de fármacos anti-hipertensivos / Development of immediate and modified release multiparticulate systems for antihypertensive drugs association

Os sistemas multiparticulados são aqueles nos quais a dose do fármaco está dividida em pequenas unidades funcionais, tendo assim, uma série de vantagens sobre os sistemas monolíticos convencionais. Este trabalho teve por objetivo desenvolver formulações multiparticuladas de uso oral para fármacos anti-hipertensivos que serão utilizados na composição de associações. O material está dividido em seis capítulos, sendo inicialmente apresentada uma revisão da literatura a respeito da caracterização física destas pequenas unidades. Ensaios como análise granulométrica, morfologia, densidade, porosidade, avaliação de resistência mecânica e desintegração são os mais empregados para esta finalidade, possibilitando ao formulador conhecer os fatores de maior impacto relacionados às matérias primas e ao processo de fabricação no comportamento das formulações produzidas. Os demais capítulos seguem com o desenvolvimento dos sistemas multiparticulados, que foram embasados em diferentes delineamentos experimentais, seja pela utilização de planejamento fatorial fracionado ou projeto de mistura. Para o metoprolol, fármaco de alta solubilidade, foram produzidas formulações de liberação controlada, sendo a estratégia dividida em três etapas: (I) Produção de minicomprimidos revestidos, nos quais foram avaliadas diferentes combinações do polímero modulador de liberação; (II) otimização do perfil de liberação do fármaco, com avaliação de misturas das formulações produzidas na primeira etapa; (III) Processo de extrusão a quente, no qual diferentes proporções de fármaco e polímero hidrofóbico foram avaliadas. Para os fármacos hidroclorotiazida e olmesartana medoxomila, ambos de baixa solubilidade, a estratégia adotada foi a incorporação de uma dispersão dos fármacos e agentes solubilizantes em grânulos inertes obtidos por extrusão/revestimento. Adicionalmente, também foram produzidas formulações por extrusão a quente de diferentes proporções destes fármacos em polímero hidrofílico. De acordo com os resultados obtidos, foi possível obter formulações de minicomprimidos e grânulos com perfil de dissolução satisfatório, semelhantes aos apresentados pelos medicamentos adotados como referência. Em relação à extrusão a quente foi possível avaliar a influência do processo e polímeros empregados no perfil de dissolução dos grânulos produzidos

Multiparticulate systems are dosage forms in which dose is divided into small functional units presenting some advantages over monolithic conventional systems. The objective of this work was developing multiparticulate formulations for oral use containing antihypertensive drugs to be used in association. The thesis is divided into six issues, been first presented a literature review about physical characterization of multiparticulate systems. Granulometric analysis, morphology, density, porosity, mechanical strength and disintegration are the most used physical characterization tests, enabling formulator knowing the major impact factors related to raw materials and manufacturing process in the performance of the produced formulations. The other issues present the development of the multiparticulate systems based on different statistical experimental design, as fractional factorial design or mixture project. For metoprolol, a highly soluble drug, controlled release formulations were obtained, and the strategy was divided into three steps: (I) coated minitablets production, where different combinations of the controlled release polymer were analyzed; (II) drug release profile optimization, evaluating formulations mixtures produced in the first step; (III) hot melt extrusion process, where different drug: hydrophobic polymer ratios were evaluated. For hydrochlorothiazide and olmesartan medoxomil, both low soluble drugs, the strategy was incorporating a dispersion containing the drugs and solubilizing agents in inert granules obtained by extrusion/coating processes. Additionally, formulations containing different ratios of these drugs and hydrophilic polymers were produced by hot melt extrusion. According to the results, it was possible to obtain minitablets and granules with good dissolution profile, similar to the reference products. Regarding to hot melt extrusion, it was possible to evaluate the influence of process and polymers used in the dissolution profile of the produced granules

Development of a multiparticulate system containing enteric-release mini-tablets of omeprazole

The main aim of this study was to develop a multiparticulate system containing mini-tablets of omeprazole formulated with an enteric polymer with pH-dependent solubility. Pre-formulation studies showed good flow and compaction capacity, leading to the production ofhigh quality mini-tablets. The mini-tablets were coated in a fluidized bed with hydroxypropylmethylcellulose /Eudragit(r) L30D55 and packed into hard gelatin capsules. The dissolution profile showed gastro-resistance and zero-order kinetics. The dissolution profile for the formulation containing lactose as the diluent and coated with 12% (tablet weight gain) of polymer was similar to that ofthe reference drug.

O presente trabalho teve como objetivo desenvolver e avaliar um sistema multiparticulado de liberação modificada, composto por mini-comprimidos revestidos com polímero de liberação pH-dependente, utilizando como fármaco modelo o omeprazol. Os mini-comprimidos (diâmetro de 2,5 mm) foram obtidos em máquina de compresssão excêntrica, revestidos em leito fluidizado com hidroxipropilmetilcelulose/Eudragit(r)L30D55 e, em seguida, acondicionados em cápsulas gelatinosas duras. A partir dos resultados obtidos no perfil de dissolução foi possível demonstrar a liberação gastro-resistente e comportamento cinético de ordem zero. A formulação contendo lactose como diluente, com revestimento de 12% de polímero, demonstrou semelhança com o medicamento referência.

Preparation of pellets containing Pothomorphe umbellata extracts by extrusion-spheronization: improvement of 4-nerolidylcatechol photostability

Pothomorphe umbellata (L.) Miq., Piperaceae, has been extensively used in Brazilian folk medicine and it is well known for its strong antioxidant properties. However, its main active constituent, 4-nerolydilcatechol (4-NC), is sensitive to ultraviolet and visible light, which can limit the use of intermediate and final herbal preparations of this species. In the present work, coated multiparticulate solid dosage forms of P. umbellata were obtained with the purpose of increasing the stability of 4-NC. P. umbellata extract was used as a wetting liquid for the preparation of pellets by extrusion-spheronization. Pellets were coated in a fluidized bed by three different polymers (hydroxypropylmethylcellulose (HPMC), polyvynilpirrolidone K-30 (PVP-K30), and polyvinyl alcohol-polyethylene glycol graft-copolymer (PVAPEG)). 4-NC photostability was evaluated by an accelerated photostability protocol. Pellets showed a narrow size distribution and low friability. 4-NC photodegradation followed a second order degradation kinetics with similar k values for the percolate, uncoated pellets and HPMC coated pellets. Photoprotection was higher in pellets coated with PVP-K30 and PVA-PEG. PVA-PEG coated pellets with 6 and 9% weight gain resulted in a final concentration of 4-NC approximately cinco times higher than uncoated pellets or liquid extracts, suggesting the potential of this formulation as a multiparticulate solid dosage form for P. umbellata extracts.

Sistemas multiparticulados: minicomprimidos / Multiparticulate systems: minitablets

Os sistemas multiparticulados contêm o fármaco subdividido em unidades funcionais, que podem ser pellets, grânulos ou minicomprimidos. Oferecem vantagens tecnológicas e biofarmacotécnicas quando comparados aos sistemas monolíticos, apresentando ainda benefícios terapêuticos para os pacientes. Por isso, têm se destacado cada vez mais dentre as novas formas farmacêuticas e sistemas de liberação de fármacos. Os minicomprimidos possuem diâmetro igual ou inferior a 2 - 3 mm e são obtidos através do processo de compressão, utilizando máquinas de comprimir convencionais adaptadas com punções múltiplos. Quanto ao aspecto tecnológico, oferecem vantagens em relação aos pellets e grânulos. O objetivo desta revisão é, portanto, abordar os principais aspectos tecnológicos envolvidos na sua obtenção, destacando suas vantagens e aplicações.

In multiparticulate systems, the drug is subdivided into functional units, which may be in the form of pellets, granules or minitablets. They have technological and biopharmacotechnical advantages over monolithic systems and also offer therapeutic benefits to patients. For these reasons, they have gained prominence among new pharmaceutical dosage forms and drug delivery systems. Minitablets are between 2 and 3 mm in diameter or smaller and are manufactured by means of the direct compression process, with a conventional tablet press adapted with multi-tip punches. In technological terms, they have advantages over both pellets and granules. The objective of this review is, therefore, to discuss the main technological features of minitablet production, highlighting their advantages and applications.