ABSTRACT
The aim of the present study was to enhance the dissolution rate of an NSAID drug Ketoprofen by formulating it into solid dispersions with water soluble carrier Poloxamer 188 and Eudragit S 100. The solid dispersions of Ketoprofen with Poloxamer 188 were prepared at 1:1, 1:1.5 and 1:2 (Ketoprofen: Poloxamer 188) ratio by Solvent evaporation methods. The same concentration ratio was used for the preparation of solid dispersion with Eudragit S 100 by melting/fusion technique. Further, solid dispersions were investigated by solubility, ATR-FTIR, XRD, DSC, surface morphology, in-vitro dissolution and accelerated stability study. Results demonstrated that both Poloxamer 188 and Eudragit S 100 improve solubility of drugs by 810 folds. The result of ATR-FTIR study showed the slight shifting/broadening of principle peaks. In vitro dissolution studies showed that in the solid dispersion system containing Ketoprofen: Poloxamer 188 batch P2 (1:1.5) gives faster dissolution rate of Ketoprofen than the physical mixtures. The solid dispersion with Eudragit S 100, batch E1 (1:1) gives faster dissolution rate of Ketoprofen than the physical mixtures. In phase solubility study with Poloxamer 188 showed concentration dependent solubilization of drug but Eudragit S 100 produced opposite result. The effect of pH on solubility of Eudragit S 100 was carried out which showed solubility at pH 7.4. The dissolution profile of solid dispersion with Eudragit S 100 at pH 7.4 gives excellent result. The Accelerated stability of solid dispersions & its physical mixtures were studied at 400±2 °C/75 ± 5% RH for a period of 1 month. In these studies, Solid Dispersion batches produced an unstable formulation. The Ketoprofen solid dispersions with Poloxamer 188 and Eudragit S 100 could be introduced as a suitable form with improved solubility
Subject(s)
Solubility , Ketoprofen/analogs & derivatives , Triage/classification , Poloxamer/analogs & derivatives , In Vitro Techniques , Pharmaceutical Preparations/administration & dosage , Anti-Inflammatory Agents, Non-Steroidal/classification , Spectroscopy, Fourier Transform Infrared , Dissolution/analysis , Hydrogen-Ion ConcentrationABSTRACT
We propose to evaluate the dissolution properties of rosuvastatin calcium (ROSC) capsules in different media to characterize the discriminatory power of the assay method. Dissolution assays were performed in media with different pH, and including the surfactant sodium dodecyl sulfate (SDS). Several immediate-release formulations were manufactured using the commercial raw material characterized as amorphous solid. The hydrophobic adjutant magnesium stearate was employed in some formulations due to its negative effect in the wettability and dissolution efficacy of solid dosages. These formulations showed the lower dissolution efficacy values in media without surfactant; however, when SDS was added to the medium, the dissolution efficacy increased, and the discriminatory power was lost. In spite of micellar solubilization does not increase the ROSC solubility, it modifies the discriminatory power of the assay method, increasing the wettability of the powder mixtures. The crystalline form M of ROSC was recrystallized in our laboratory, and it showed lower solubility in water than amorphous solid. However, its dissolution properties were not influenced by SDS. These results are important to develop dissolution assays for other hydrophilic drugs with increased water solubility, once that dissolution media with surfactants increase the wettability of the formulations, leading to an overrated dissolution rate.
Subject(s)
Capsules/analysis , Dissolution/analysis , Rosuvastatin Calcium/analysis , Solubility , Chromatography, High Pressure Liquid/instrumentation , Dosage FormsABSTRACT
Hidroclorothiazida (HTZ) e valsartana (VAL) são fármacos pouco solúveis em meio aquoso e pertencem às classes IV e II do Sistema de Classificação Biofarmacêutica (SCB), respectivamente. O objetivo deste trabalho foi desenvolver um método para avaliar o perfil de dissolução de formas farmacêuticas sólidas de dose fixa combinada contendo HTZ (12,5 mg) e VAL (160 mg) usando ferramentas in silico para avaliar os perfis de dissolução de produtos comercializados no Brasil e Peru. O presente trabalho foi dividido em 4 capítulos. No Capítulo I, foi determinada a solubilidade da HTZ e VAL pelo método shake-flask e potenciométrico, no qual foi possível demonstrar que existe correlação entre ambos os métodos e que HTZ e VAL são solúveis em tampão fosfato pH 6,8. No Capítulo II, um método cromatográfico em HPLC foi desenvolvido com base em Quality by Design (QbD), com auxílio do software Fusion®, no qual foi estabelecido uma zona de confiança dos parâmetros, que garantiu a robustez do método. O Capítulo III descreve o desenvolvimento de um método de dissolução utilizando ferramenta in silico (DDDplus®) na qual foi definido um delineamento experimental do tipo fatorial completo 33 usando como fatores a formulação, utilização de âncora e velocidade de agitação. Para os ensaios de dissolução in vitro, foi proposto um outro delineamento fatorial 3(3-1) com o intuito de obter as constantes de calibração das simulações in silico. Através de uma análise estatística das eficiências de dissolução obtidas nas simulações, foram avaliados os efeitos e as interações entre os fatores. Assim, as condições finais do método de dissolução estabelecidas foram: 900 mL de tampão fosfato pH 6,8 como meio de dissolução, 75 rpm de velocidade de agitação, e utilização de âncora para evitar a flutuação das formulações. O método desenvolvido foi empregado, no contexto do Capítulo IV, para avaliar o perfil de dissolução dos produtos contendo HTZ e VAL comercializados no Brasil e no Peru. Por análise multivariada, a eficiência de dissolução (ED), tempo médio de dissolução (MDT) e as porcentagens de dissolução de 5 até 60 minutos foram utilizadas para agrupar as formulações em grupos distintos. Embora os perfis de dissolução mostrem similaridade entre todas as formulações avaliadas, o produto referência se destacou por apresentar uma maior ED comparado com as outras formulações, devido à maior liberação nos primeiros 5 minutos de ensaio. Concluiu-se que o método proposto, além de garantir a liberação total de HTZ e VAL a partir das formulações, possui adequado poder discriminativo
Hydrochlorothiazide (HTZ) and valsartan (VAL) are poorly soluble drugs in aqueous medium and belong to classes IV and II of the Biopharmaceutical Classification System (BCS), respectively. The objective of this study was to develop a dissolution method to evaluate the dissolution profile of solid pharmaceutical forms of combined dose containing HTZ (12.5 mg) and VAL (160 mg) using in silico tools to evaluate the dissolution profiles of products sold in Brazil and Peru. The present study was divided into four chapters. In Chapter I, the HTZ and VAL solubility were determined by the shake-flask and potentiometric methods, in which it was possible to demonstrate that there is a correlation between both methods and that HTZ and VAL are soluble in pH 6.8 phosphate buffer. In Chapter II, a chromatographic method in HPLC was developed based on Quality by Design (QbD), using the Fusion® software, in which a zone of confidence of the parameters was established, which ensured the robustness of the method. Chapter III presents the development of a dissolution method using in silico (DDDplusTM) as a tool, in which an experimental design of the complete factorial type 33 was defined using as factors: the formulation, use of sinker and agitation speed. For in vitro dissolution assays, another factor design 3(3-1) was proposed to obtain the calibration constants of the in silico simulations. Through a statistical analysis of the dissolution efficiencies obtained in the simulations, the effects and interactions between the factors were evaluated. Thus, the final conditions of the dissolution method established were: 900 mL of pH 6.8 phosphate buffer as a dissolution medium, 75 rpm of stirring speed, and use of sinker to avoid the fluctuation of the formulations. The method developed was used, in the context of Chapter IV, to evaluate the dissolution profile of HTZ and VAL products marketed in Brazil and Peru. By multivariate analysis, the dissolution efficiency (ED), mean dissolution time (MDT) and the dissolution percentages from 5 to 60 minutes were used to group the formulations in different groups. Although the dissolution profiles show a similarity between all the evaluated formulations, the reference product stood out for presenting a higher ED compared to the other formulations, due to the higher release in the first 5 minutes of the test. It was concluded that the proposed method, besides guaranteeing the total release of HTZ and VAL from the formulations, has adequate discriminatory capacity
Subject(s)
Peru , In Vitro Techniques/instrumentation , Brazil , Dissolution/analysis , Valsartan/pharmacokinetics , Hydrochlorothiazide/pharmacokinetics , Solubility/drug effects , Computer Simulation/classificationABSTRACT
The main objective of the present work was to enhance the solubility and dissolution rate of poorly water-soluble drug cefuroxime axetil (CA) by formulating it into solid dispersions (SDs) with water soluble carrier poloxamer 188. Different methods were employed to prepare the dispersion, such as: Solvent method (SM), Kneading method (KM), Melt evaporation method (MEM) and Physical mixture (PM) in different drug: carrier ratios 1:1, 1:2 and 1:3 (cefuroxime axetil: poloxamer 188). The physical mixture(s) and solid dispersion(s) were characterized for drug carrier interaction, drug content, solubility, dissolution rate, differential scanning calorimetry (DSC) and FT-IR study. The dissolution rate of the prepared solid dispersion systems was determined in phosphate buffer (pH 6.8) for 1 h. The solubility of drug from different systems was also determined in water. All SD formulations were found to have a higher dissolution rate comparatively to pure CA. The dissolution rate was enhanced in the following order SM > MEM > KM. The enhancement of dissolution rate may be caused by increase wettability, dispersibillity reduction in particle size or the formation of CA ß crystalline. The FT-IR study probability revealed that there was no chemical interaction between drug and poloxamer 188
Subject(s)
Solubility , Cefuroxime/agonists , Dissolution/analysis , Poloxamer/administration & dosageABSTRACT
Flurbiprofen belongs to Biopharmaceutical Classification System (BCS) class II drugs which are poorly soluble in water. The objective of present research work was to prepare fast dissolving tablets of Flurbiprofen using varying concentrations of three different sublimating agents to improve the dissolution rate. Seven formulations were prepared containing different concentrations of camphor, ammonium bicarbonate and thymol as sublimating agent along with primogel as a superdisintegrant. Tablets were manufactured by direct compression method. The prepared tablets were evaluated for pre-compression and post-compression parameters result, For all formulations result was within official limits. FTIR studies revealed that there were no interactions between the drug and the excipients used. From in vitro drug release studies it was concluded that the formulations F6 and F7 containing 10% and 15% of thymol showed fast drug release of 100.00% and 100.84% respectively in 30 minutes. Formulations containing camphor (F2 & F3) and ammonium bicarbonate (F4 & F5) as sublimating agents showed a drug release of less than 80%, while the control formulation F1 having no sublimating agent showed 49.14% of drug release in 30 minutes. Thus thymol can successfully be used to formulate fast dissolving tablets of flurbiprofen by sublimation method with much better dissolution profile
Subject(s)
Tablets/pharmacology , In Vitro Techniques , Flurbiprofen/analysis , Dissolution/analysis , Drug LiberationABSTRACT
ABSTRACT This study aimed to improve the water solubility of amiodarone hydrochloride (AMH) via inclusion complexes with β-cyclodextrin, methyl-β-cyclodextrin and 2-hydroxypropyl-β-cyclodextrin. Inclusion complexes were developed by physical mixture, coevaporation, spray-drying and freeze-drying. Solid state analysis was performed using X-ray powder diffraction, differential scanning calorimetry and scanning electronic microscopy. Thermodynamic studies demonstrate that the inclusion complexes of drug into different cyclodextrins were an exothermic process that occurred spontaneously. Water solubility and drug dissolution rates were significantly increased after the formation of inclusion complexes with the cyclodextrins evaluated in relation to the physical mixture and pure drug. The present study provides useful information for the potential application of complexation with amiodarone HCl. This may be a good strategy for the development of solid pharmaceutical dosage forms.
Subject(s)
Cyclodextrins/pharmacology , /analysis , Dissolution/analysis , Amiodarone/pharmacology , SolubilityABSTRACT
ABSTRACT Solid dosage forms for oral use, particularly tablets, are the most highly used dosage forms in therapy because they are easily administered, have high productivity and relatively low cost and provide a more stable drug to form a semi-solid net. Numerous parameters influence the quality of the final dosage form. In this study, the dissolution profile of 20-mg prednisone tablets bioequivalent to the reference product and three test formulations were evaluated using stability testing. During the study, prednisone tablets and the active pharmaceutical ingredient (API) prednisone from two different manufacturers were characterized with respect to their physical and physicochemical properties. The results showed that the dissolution profiles of the test batches and the reference product did not retain pharmaceutical equivalence throughout all the stability study. Notably, both samples of API prednisone were of the same crystal form, and any phase transition that occurred during the study could not be attributed to dissolution variation during stability.
Subject(s)
Prednisone/administration & dosage , Drug Stability , Dissolution/analysis , Pharmaceutical Preparations/standards , Chemical Phenomena , DosageABSTRACT
ABSTRACT Different solid forms of an active pharmaceutical ingredient can have distinct chemical and physical characteristics. In this work, we studied the solubility and dissolution properties of the described tibolone polymorphic forms (I and II). Both forms were successively recrystallized and characterized by powder X-ray diffraction and attenuated total reflection infrared spectroscopy. Equilibrium solubility and dissolution profiles were performed for both forms. Solubility studies demonstrated that form II is statistically more soluble in water, 0.01 mol L-1 HCl and pH 4.5 acetate buffer. The solubility of forms I and II were explained in terms of crystal packing. Dissolution tests of tablets showed a lower release of polymorphic form II than form I from tablets. The results showed an impact of polymorphism on the quality of tibolone tablets and suggest that tibolone forms I and II can show distinct interactions with pharmaceutical excipients used in tablets. Therefore, only form I is acceptable for the preparation of tablet forms. Based on our results, we propose the quality control on tibolone raw materials using X-ray diffraction analysis and attenuated total reflection infrared spectroscopy.
Subject(s)
Solubility/drug effects , Dissolution/analysis , Spectrum Analysis , Tablets/standards , X-Ray Diffraction/methods , Pharmaceutical Preparations/standardsABSTRACT
ABSTRACT Spironolactone (SPR) is a steroidal drug administered as a potassium-sparing diuretic for high blood pressure treatment. The drug shows incomplete gastrointestinal absorption due to its poor aqueous solubility. The physicochemical properties of SPR in crystal forms I and II suggest that differences in their aqueous solubility may lead to a lack of bioequivalence between solid-state formulations. In this study, SPR polymorphs in five batches of active pharmaceutical ingredients (APIs) from three manufacturers were characterized using powder X-ray diffraction, infrared spectroscopy, thermal analysis, and solubility measurements. SPR tablets (50 mg) were manufactured in our laboratory using API in pure form II, and API in form II contaminated with form I, which was found in a commercial batch. Physicochemical quality evaluations of the manufactured tablets, along with five SPR tablets marketed in Brazil, were performed, and results indicated differences in their dissolution profiles. In the manufactured tablets, differences were associated with the increased solubility of API in form II contaminated with form I compared to API in pure form II. In the marketed SPR tablets, the formulation composition demonstrated an important role in the dissolution rate of the drug, leading to lack of pharmaceutical equivalence among the drug products.
Subject(s)
Solubility , Spironolactone/analysis , Tablets/pharmacology , Chromatography, High Pressure Liquid/instrumentation , Dissolution/analysisABSTRACT
Aim: To analyze the root canal organic tissue dissolution capacity promoted by irrigating solutions,with or without the use of different agitation techniques. Methods: Bovine pulp tissue fragmentswere initially weighed. The following irrigating solutions were tested: 2.5% sodium hypochlorite, 2%chlorhexidine digluconate solution, and distilled water. The irrigating protocols were: immersion,mechanical agitation with endodontic files, and ultrasonic or sonic systems (Endoactivactor®and Easy Clean®). At the end of the protocols, the pulps were weighed to determine their finalweight. For comparison, the average percentage of tissue dissolution in relation to the groups wasanalyzed using the Kruskal-Wallis nonparametric test complemented by multiple comparisonstest. The significance level was set at 5%. Results: Among the irrigation solutions, 2.5% sodiumhypochlorite showed a higher dissolving power than 2% chlorhexidine digluconate and distilled water.Furthermore, ultrasonic and sonic systems were more effective irrigating protocols than immersionand mechanical agitation with endodontic files. Conclusions: The combination of sodium hypochloritewith an agitation system promotes a greater degree of tissue degradation.
Subject(s)
Animals , Cattle , Chlorhexidine , Dental Pulp Cavity , Dissolution , Distilled Water , Dissolution/analysis , Endodontics , Root Canal Irrigants , Sodium Hypochlorite , VibrationABSTRACT
abstract Amiodarone HCl is an antiarrhythmic agent, which has low aqueous solubility and presents absorption problems. This study aimed to develop inclusion complexes containing hydrophilic carriers PEG 1500, 4000 and 6000 by fusion and kneading methods in order to evaluate the increase in solubility and dissolution rate of amiodarone HCl. The solid dispersion and physical mixtures were characterized by X-ray diffraction, FT-IR spectra, water solubility and dissolution profiles. Both methods and carriers increased the solubility of drug, however PEG 6000 enhanced the drug solubility in solid dispersion better than other carriers. Different media were evaluated for the solubility study, including distilled water, acid buffer pH 1.2, acetate buffer pH 4.5 and phosphate buffer pH 6.8 at 37 ºC. Based on the evaluation of the results obtained in the study phase solubility carriers PEG 4000 and PEG 6000 were selected for the preparation of the physical mixture and solid dispersion. All formulations were prepared at drug-carrier ratios of 1:1 to 1:10(w/w). The results of in vitro release studies indicated that the solid dispersion technique by fusion method in proportion of 1:10 (w/w) increased significantly the dissolution rate of the drug. X-ray diffraction studies showed reduced drug crystallinity in the solid dispersions. FT-IR demonstrated interactions between the drug and polymers.
resumo Cloridrato de amiodarona é um agente antiarrítmico que possui baixa solubilidade aquosa e apresenta problemas de absorção. Este estudo teve como objetivo desenvolver complexos de inclusão contendo carreadores hidrofílicos PEG 1500, 4000 e 6000 através dos métodos de fusão e amassamento para avaliar o aumento da solubilidade e taxa de dissolução do cloridrato de amiodarona. As dispersões sólidas e misturas físicas foram caracterizadas por difração de raios-X, espectroscopia no infravermelho com transformada de Fourier, solubilidade em água e perfis de dissolução. Ambos os métodos e carreadores aumentaram a solubilidade do fármaco, no entanto o PEG 6000 aumentou a solubilidade do fármaco na dispersão sólida mais que os outros carreadores. Diferentes meios foram avaliados para o estudo de solubilidade, incluindo água destilada, tampão ácido pH 1,2, tampão acetato pH 4,5 e tampão fosfato pH 6,8. Com base na avaliação dos resultados obtidos no estudo de solubilidade de fases, os carreadores PEG 4000 e PEG 6000 foram selecionados para a preparação das misturas físicas e dispersões sólidas. Todas as formulações foram preparadas nas razões fármaco-carreador de 1:1 a 1:10 (p/p). Os resultados de liberação in vitro que a técnica de dispersão sólida pelo método de fusão na proporção 1:10 (p/p) aumentou significativamente a taxa de dissolução do fármaco. Estudos de difração de raios-X mostraram redução da cristalinidade do fármaco na dispersão sólida. Análise por espectroscopia no infravermelho mostrou interações entre o fármaco e o carreador.
Subject(s)
Solubility , Dissolution/analysis , Amiodarone/analysis , X-Ray Diffraction , Anti-Arrhythmia Agents/pharmacokineticsABSTRACT
No Brasil, os produtos fitoterápicos são considerados medicamentos, sendo necessário o estabelecimento de estudos que assegurem a manutenção dos requisitos de qualidade durante o processamento e o armazenamento. Testes de dissolução podem ser empregados para se estimar a biodisponibilidade de um fármaco, sendo uma análise rotineira no desenvolvimento e controle de qualidade de medicamentos alopáticos. A determinação do perfil de dissolução de fitoterápicos também pode ser um importante critério para avaliação da sua qualidade lote-a-lote, bem como para os estudos de desenvolvimento e de estabilidade. O objetivo deste trabalho foi investigar a influência dos métodos de secagem e da condição de armazenagem sobre os perfis de dissolução dos flavonoides totais de extratos secos de duas plantas medicinais bastante difundidas no Brasil, a Bauhinia forficata e a Passiflora alata. Os extratos secos foram produzidos pelo processo de secagem em leito de jorro e em spray drying, sendo submetidos a condições de armazenagem aceleradas (temperatura de 40 ± 2ºC e umidade relativa de 75 ± 5%, por um período de 90 dias). Os perfis de dissolução foram obtidos para amostras de extratos secos antes e após o período de armazenamento. O teor de flavonoides totais foi quantificado por espectrofotometria. Os extratos secos de B. forficata e P. alata apresentaram adequada liberação de flavonoides nos ensaios de dissolução. Os extratos secos de Passiflora alata apresentaram completa dissolução dos flavonoides, 92% e 98% dos teores originais após 60 minutos de ensaio, respectivamente para o extrato seco em leito de jorro e em spray drying.
In Brazil, most of the herbal medicinal products are considered as medicine. Therefore, it is necessary the establishment of tests to guarantee the maintenance of quality requirements during their processing and storage. The dissolution test is used to estimate the bioavailability of drugs and is routinely used in the development and the quality control of allopathic medicines. The determination of the dissolution profile of herbal products can also be an important criterion for assessing the batch-to-batch quality as well as for studies of product development and stability. This work aimed to investigate the dissolution profiles of dried extracts of two medicinal plants widely used in Brazil, the Bauhinia forficata and Passiflora alata, by assessing the effect of the drying methods and storage condition on the release of the total flavonoid contents. Spouted bed and spray drying were the processes used for the production of the dried extracts. The products were subjected to accelerated storage conditions (temperature of 40 ± 2ºC and relative humidity of 75 ± 5%, for 90 days). The dissolution profiles of the dried extracts, before and after storage, were determined. The concentration of total flavonoids was quantified by spectrophotometry. Adequate dissolution profiles of flavonoids from B. forficata and P. alata were obtained for all the dried extracts produced. The dried extracts of Passiflora alata showed the complete dissolution of flavonoids in the dissolution media investigated, respectively 92% and 98% of flavonoids present in the dried extracts in spouted bed and spray drying after 60 minutes of the dissolution testing.
Subject(s)
Plant Extracts/analysis , Passiflora/classification , Bauhinia/classification , Dissolution/analysis , Product Storage , Phytotherapeutic DrugsABSTRACT
Pharmacological therapy is essential in many diseases treatment and it is important that the medicine policy is intended to offering safe and effective treatment with affordable price to the population. One way to achieve this is through biowaiver, defined as the replacement of in vivo bioequivalence studies by in vitro studies. For biowaiver of new immediate release solid oral dosage forms, data such as intestinal permeability and solubility of the drug are required, as well as the product dissolution. The Biopharmaceutics Classification System (BCS) is a scientific scheme that divides drugs according to their solubility and permeability and has been used by various guides as a criterion for biowaiver. This paper evaluates biowaiver application, addressing the general concepts and parameters used by BCS, making a historical account of its use, the requirements pertaining to the current legislation, the benefits and risks associated with this decision. The results revealed that the use of BCS as a biowaiver criterion greatly expands the therapeutics options, contributing to greater therapy access of the general population with drug efficacy and safety guaranteed associated to low cost.
O tratamento farmacológico é essencial frente a várias patologias e é fundamental que a política de medicamentos tenha por objetivo oferecer à população tratamento seguro, eficaz e de preço acessível. Uma forma de alcançar esse objetivo é por meio da bioisenção, definida como a substituição de estudos de bioequivalência in vivo por estudos in vitro. Para bioisentar novos medicamentos sob a forma farmacêutica sólida oral de liberação imediata são utilizados dados de permeabilidade intestinal e solubilidade do fármaco, bem como sua dissolução a partir da forma farmacêutica. O Sistema de Classificação Biofarmacêutica (SCB) é um esquema científico que divide os fármacos em classes de acordo com a solubilidade e permeabilidade e vem sendo utilizado como critério para bioisenção em diversas legislações. O presente artigo faz uma avaliação da aplicação da bioisenção, abordando os conceitos gerais e parâmetros utilizados pelo SCB, fazendo um relato histórico da aplicação da bioisenção, das exigências pertinentes às legislações vigentes, dos benefícios e riscos inerentes a uma tomada de decisão sobre bioisenção baseada neste critério. Os resultados revelaram que a utilização do SCB como critério amplia enormemente as possibilidades de bioisenção, contribuindo para o maior acesso da população em geral a medicamentos com garantida eficácia, segurança e menor custo.
Subject(s)
Drug Costs , Drug Costs/classification , Permeability , Solubility , Dissolution/analysis , Legislation, Pharmacy/classificationABSTRACT
To evaluate binding potential of Prunus domestica gum in tablets formulations. Six tablet batches (F-1B to F-6B) were prepared by wet granulation method, containing Avicel pH 101 as diluent, sodium diclofenac as model drug using 10, 15 and 20 mg of Prunus domestica gum as binder and PVP K30 was used as standard binder. Magnesium stearate was used as lubricant. Flow properties of granules like bulk density, tapped density, Carr index, Hausner’s ratio, angle of repose as well as physical parameters of the compressed tablets including hardness, friability, thickness and disintegration time were determined and found to be satisfactory. The FTIR spectroscopic analysis showed that the formulation containing plant gum is compatible with the drug and other excipients used in tablets formulation. Hence the plant gum has role as a potential binder in tablets formulations. The dissolution profile showed that tablets formulations containing Prunus domestica gum 15 mg/200 mg of total weight of tablet as binder showed better results as compared to PVP K30.
Para avaliar a propriedade aglutinante da goma Prunus domestica em formulações de comprimidos, seis lotes (F-1B para F-6B) foram preparados pelo método de granulação úmida, contendo Avicel pH 101 como diluente e diclofenaco de sódio como fármaco modelo, usando 10, 15 e 20 mg de goma de Prunus domestica como agente aglutinante e PVP K30 como aglutinante padrão. O estearato de magnésio foi utilizado como lubrificante. Propriedades de fluxo dos grânulos, como a densidade, índice de Carr, razão de Hausner, ângulo de repouso, bem como parâmetros físicos dos comprimidos, incluindo o tempo de dureza, friabilidade, espessura e desintegração foram determinados e se mostraram satisfatórios. A análise espectroscópica no FTIR mostrou que a formulação contendo goma vegetal é compatível com o fármaco e outros excipientes utilizados na formulação dos comprimidos. Assim, a goma vegetal tem papel potencial como aglutinante em formulações de comprimidos. O perfil de dissolução das formulações que contêm 15 mg/200 mg do peso total do comprimido em goma de Prunus domestica como aglutinante mostrou melhores resultados comparativamente ao PVP K30.
Subject(s)
Plant Gums/pharmacokinetics , Prunus domestica/chemistry , Tablets/analysis , Diclofenac/pharmacokinetics , Spectroscopy, Fourier Transform Infrared/methods , Dissolution/analysisABSTRACT
Ranitidine is an antisecretory drug with H2 antagonist action useful in treating gastric and duodenal disorders. The dissolution test is used to obtain and compare dissolution profiles and establish similarities of pharmaceutical forms. The aim of this study was to compare the dissolution profiles of 150-mg coated ranitidine tablets of a reference drug (product A) and a generic (product B) and a similar (product C) drug marketed in Bahia, Brazil using a simple, fast and inexpensive ultraviolet method. Dissolution was determined using a USP type 2 apparatus at 50 rpm with 900 mL of distilled water at 37.0 ± 0.5 oC for 1h. The dissolution test was performed in compliance with the American Pharmacopoeia (USP-32). Dissolution efficiency and difference (f1) and similarity (f2) factors were calculated and evaluated. The proposed quantification methodology for drug dissolution test was validated, presenting accuracy, linearity and precision within the acceptance criteria. Products A, B and C showed dissolution efficiency values of 59.29, 73.59 and 66.67%, respectively. Factors f1 and f2 were calculated and showed that the profiles of products A, B and C were dissimilar. However, all the products released ranitidine satisfactorily, with at least 80% of the drug dissolved within 30 min.
A ranitidina é um fármaco antissecretor, antagonista H2, usado no tratamento de desordens gástricas e duodenais. O teste de dissolução é utilizado para obter e comparar perfis de dissolução, estabelecendo semelhança de formas farmacêuticas. Este estudo tem por objetivo comparar perfis de dissolução de comprimidos revestidos contendo 150 mg de ranitidina, em medicamentos de referência (produto A), genérico (produto B) e similar (produto C) comercializados na Bahia-Brasil, usando um método ultravioleta simples, rápido e de baixo custo. As condições que permitiram a determinação da dissolução foram: aparelho USP tipo 2 a 50 rpm, contendo 900 mL de água destilada mantida a 37,0 ± 0,5 °C, durante 1 h. O teste de dissolução foi realizado em conformidade com a Farmacopeia Americana (USP-32). Cálculo da eficiência de dissolução e fatores de diferença (f1) e semelhança (f2) foram avaliados. A metodologia proposta para a quantificação do fármaco no ensaio de dissolução foi validada apresentando precisão, linearidade e exatidão dentro dos critérios de aceitação. Os produtos A, B e C mostraram eficiência de dissolução de 59,29, 73,59 e 66,67%, respectivamente. Calcularam-se os fatores f1 e f2 e mostrou-se que os perfis não foram semelhantes para os comprimidos de produtos A, B e C. No entanto, todos os produtos liberaram o fármaco satisfatoriamente, pois, pelo menos, 80% de ranitidina foram dissolvidos em 30 min.
Subject(s)
Ranitidine/pharmacokinetics , Tablets, Enteric-Coated/pharmacokinetics , Spectrophotometry, Ultraviolet/methods , Tablets/pharmacokinetics , Brazil , Dissolution/analysisABSTRACT
Complexos de rutênio, em razão da menor toxicidade e por poderem exibir atividade citotóxica ou antimetastática, tem sido considerados como alternativas potencialmente promissoras aos complexos de platina para tratamento de câncer. Nosso grupo de pesquisa tem investigado a interação de íons metálicos com fármacos anti-inflamatórios não esteroides (FAINEs) e já obteve sucesso na preparação de metalofármacos de dirutênio(II,III)-FAINEs, os quais se mostraram promissores com relação à atividade frente a modelos de glioma. Com a finalidade de contribuir para o entendimento das propriedades físico-químicas desses complexos, o presente trabalho teve como principal objetivo analisar propriedades consideradas particularmente essenciais a um potencial candidato a fármaco, tais como, estabilidade no estado sólido, lipofilicidade, solubilidade aquosa e dissolução intrínseca. Um complexo inédito de fórmula [Ru2Cl(feno)4], em que feno = fenoprofenato, foi sintetizado e caracterizado por meio de análise elementar, espectroscopia eletrônica, espectroscopia vibracional, difratometria de raios X, análise térmica e espectrometria de massas. Os complexos já testados anteriormente para atividade biológica, [Ru2Cl(ibp)4], ibp = ibuprofenato, e [Ru2(cet)4Cl], cet = cetoprofenato, foram analisados quanto à estabilidade no estado sólido por meio da determinação isotérmica de variação de massa. As lipofilicidades desses dois complexos, juntamente com a dos fármacos de origem e a do precursor sintético [Ru2(O2CH3)4Cl], foram avaliadas pelo método shake flask, e suas solubilidade aquosas foram investigadas em presença de co-solventes alcoólicos. Investigou-se ainda a velocidade de dissolução intrínseca do [Ru2Cl(ibp)4] que se encontra em estágio avançado de estudos biológicos. Os resultados obtidos trazem novas informações sobre o comportamento térmico dos complexos e sobre suas características biofarmacêutica
Ruthenium complexes, mainly due to the lower toxicity and the cytotoxic and anti-metastatic activities, have been considered as potentially promising alternatives to platinum drugs for cancer treatment. Our research group has investigated the interactions of diruthenium metal cores with anti-inflammatory non-steroidal drugs (NSAIDs) and succeeded in preparing diruthenium(II,III)-NSAIDs metallodrugs which show promising activity against glioma models. With the aim of elucidating the physico-chemical properties of these complexes, the major objective of the present work was to investigate properties which are considered as essential for a potential candidate to drug, e.g., stability in the solid state, lipophilicity, aqueous solubility and intrinsic dissolution. A new complex of formula [Ru2Cl(feno)4], where feno = fenoprofen, was synthesized and characterized by elemental analysis, electronic spectroscopy, vibrational spectroscopy, X-rays difractommetry, thermal analysis and mass spectrometry. The complexes previously tested for biological properties, [Ru2Cl(ibp)4], ibp = ibuprofenate, and [Ru2(cet)4Cl], cet = cetoprofenate, were inv estigated for the stability in the solid state by isothermal thermogravimetry. The lipophilicity of the se complexes, as well as those of the parent drugs and of the precursor [Ru2(O2CH3)4Cl], was evaluated by the shake flask method, and their aqueous solubility in the presence of alcohol co-solvents was investigated. In addition, the intrinsic dissolution rate was determined for [Ru2Cl(ibp)4], which is undergoing advanced biological studies. The results provide important new information on the thermal behavior of the complexes and also on their biopharmaceutical propertie
Subject(s)
Anti-Inflammatory Agents, Non-Steroidal/adverse effects , Ruthenium/analysis , Solubility , Ruthenium Compounds/analysis , Differential Thermal Analysis/methods , Dissolution/analysisABSTRACT
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.
Subject(s)
Tablets, Enteric-Coated/analysis , Omeprazole/pharmacokinetics , Dissolution/analysisABSTRACT
The objective of the present work is to study the dissolution behavior of olanzapine from its solid dispersions with mannitol. Solid dispersions were prepared by melt dispersion method and characterized by phase solubility studies, drug content and in vitro dissolution studies. The best releasing dispersions were selected from release data, dissolution parameters and their release profiles. Solid state characterization techniques like Fourier transform infrared (FT-IR) spectroscopy, X-ray diffractometry, differential scanning calorimetry, near-infrared and Raman spectroscopy were used to characterize the drug in selected dispersions. The dispersions were also evaluated by wettability studies and permeation studies. The results of phase solubility studies and the thermodynamic parameters indicated the spontaneity and solubilization effect of the carrier. The release study results showed greater improvement of drug release from solid dispersions compared to pure drug, and the release was found to increase with an increase in carrier content. The possible mechanism for increased release rate from dispersions may be attributed to solubilization effect of the carrier, change in crystal quality, phase transition from crystalline to amorphous state, prevention of agglomeration or aggregation of drug particles, change in surface hydrophobicity of the drug, and increased wettability and dispersability of the drug in dissolution medium. The suggested reasons for increased release rate from dispersions were found to be well supported by results of solid state characterization, wettability and permeation studies. The absence of any interaction between the drug and the carrier was also proved by FT-IR analysis.
O objetivo do presente trabalho é estudar o comportamento de dissolução da olanzapina a partir de suas dispersões sólidas de manitol. As dispersões sólidas foram preparadas por dispersão por fusão e caracterizadas por estudos de solubilidade de fase, conteúdo de fármaco e dissolução in vitro. As melhores dispersões quanto à liberação foram selecionadas a partir dos dados de liberação, parâmetros de dissolução e perfis de liberação. Técnicas de caracterização de estado sólido como espectroscopia no infravermelho pela transformada de Fourier (FTIR), difratometria de raios X, calorimetria de varredura diferencial, infravermelho próximo e espectroscopia Raman foram utilizadas para caracterizar os fármacos a partir das dispersões selecionadas. As dispersões foram, também, avaliadas pelos estudos de capacidade de umedecimento e permeação. Os resultados dos estudos de solubilidade de fase e os parâmetros termodinâmicos indicaram a espontaneidade e o efeito de solubilização do transportador. Os resultados dos estudos de liberação mostraram maior aperfeiçoamento da liberação do fármaco das dispersões sólidas, comparativamente à do fármaco puro, e descobriu-se que a liberação aumenta com o aumento do conteúdo de transportador. O mecanismo possível para o aumento da taxa de liberação das dispersões pode ser atribuído ao efeito de solubilização do transportador, mudança da qualidade do cristal, transição de fase cristalina para estado amorfo, prevenção da aglomeração ou agregação das partículas do fármaco, mudança na superfície de hidrofobicidade do fármaco e aumento da capacidade de umedecimento e dispersividade do fármaco no meio de dissolução. As razões sugeridas para o aumento da taxa de liberação a partir das dispersões foram apoiadas pelos resultados da caracterização do estado sólido, capacidade de umedecimento e pelos estudos de permeação. A ausência de qualquer interação entre o fármaco e o transportador foi, também, comprovada pela análise no FTIR.
Subject(s)
In Vitro Techniques/classification , /analysis , Dissolution/analysis , Mannitol/pharmacokinetics , Pharmaceutical Preparations/analysisABSTRACT
The aim of present study was the assessment of antimicrobial activity of prepared time-dependent release bilayer tablets of amoxicillin trihydrate and in vitro evaluation of drug release by antimicrobial assay using agar plate diffusion method. The bilayer tablets comprised of a delayed and sustained release layer. Direct compression method was used for the preparation of bilayer tablets containing Eudragit-L100 D55 as delayed release polymer, and HPMCK4M and HPMCK15 as sustained release polymers. The prepared bilayer tablets containing amoxicillin trihydrate were evaluated for hardness, thickness, friability, weight variation and drug content. Further, in vitro drug release was assessed by antimicrobial assay using S. aureus and E. coli as test microorganisms. The aliquot samples of in vitro drug release study were found to be effective against both microorganisms for 16 hours due to sustained action. The in vitro drug release study and antimicrobial assay showed that bilayer tablets have sustained release profile of drug delivery with time-dependent burst release after a lag-time of 2 hours. The lower MIC value (2 µg/mL) of prepared bilayer tablets vis-à-vis marketed preparation (5 µg/mL) represented its good antimicrobial activity.
O objetivo do presente estudo foi avaliar a atividade antimicrobiana de formulações de comprimidos de dupla camada contendo amoxicilina triidratada para liberação tempo dependente e avaliação da liberação in vitro do fármaco pelo ensaio de atividade antimicrobiana utilizando o método de difusão em placa de ágar. Os comprimidos de dupla camada consistem em uma camada para liberação retardada e outra sustentada. O método de compressão direta foi usado para a preparação dos comprimidos de dupla camada contendo Eudragit-L 100 D55 como polímero para liberação retardada e HPMCK4M ou HPMCK15 como polímeros para liberação sustentada. As formulações de comprimidos de dupla camada contendo amoxicilina triidratada foram avaliadas quanto a dureza, espessura, friabilidade, variação de peso e conteúdo de fármaco. Além disso, a liberação do fármaco in vitro foi avaliada por ensaio de atividade antimicrobiana usando S. aureus e E. coli como microrganismos teste. A alíquota das amostras do estudo de liberação do fármaco in vitro demonstrou ser efetiva contra ambos os microrganismos por um período de 16 horas devido à ação sustentada. O estudo de liberação do fármaco in vitro e o ensaio de atividade antimicrobiana mostraram que os comprimidos de dupla camada tiveram um perfil de liberação sustentada do fármaco com um pico de liberação após 2 horas de ensaio. O menor valor de MIC (2 ug/mL) dos comprimidos de dupla camada quando comparados à formulação comercial (5 ug/mL) representa uma boa atividade antimicrobiana.
Subject(s)
Tablets/pharmacology , Dissolution/analysis , Amoxicillin/classification , In Vitro Techniques/classification , Microbial Sensitivity Tests , Chronotherapy/classificationABSTRACT
A novel "Powder Solution Technology" involves absorption and adsorption efficiency which makes use of liquid medications, drug suspensions admixed with suitable carriers, coating materials and formulated into free flowing, dry looking, non adherent and compressible powder forms. Based upon a new mathematical model expression, improved flow characteristics and hardness of the formulation has been achieved by changing the proportion of Avicel ® PH 200 and Aerosil ® PH 200 from 50:1 ratio to 5:1 and in which the drug is dispersed in an almost molecularly state. Due to their significantly improved wetting properties a greater drug surface area is exposed to the dissolution media, resulting in an increased dissolution rate and bio availability. By using the Liquisolid technique, sustained drug delivery systems were developed for the water soluble drugs in which hydrophobic non-volatile solvents are used as vehicles.
A nova "Tecnologia da Solução Sólida" envolve eficiência de absorção e de adsorção, faz uso de medicações líquidas, suspensões de fármacos e misturas com transportadores adequados, materiais de cobertura e é formulada em formas sólidas em fluxo livre, secas, não aderentes e compressíveis. Com base em novo modelo matemático, características aprimoradas de fluxo e dureza da formulação foram alcançadas modificando-se a proporção de Avicel ® PH 200 e Aerosil ® PH 200 de 50:1 para 5:1, na qual o fármaco é disperso quase que no estado molecular. Devido às propriedades de umidificação significativamente aprimoradas e à área do fármaco exposta ao meio de dissolução, que resulta na velocidade de dissolução, a biodisponibilidade foi aumentada. Utilizando a técnica Liquisólido, desenvolveram-se sistemas de liberação controlada de fármacos solúveis em água, nos quais solventes hidrofóbicos não voláteis foram usados como veículos.