ABSTRACT
Abstract Oxazolidine derivatives (OxD) have been described as third-line antibiotics and antitumoral agents. The inclusion complexes based on cyclodextrin could improve the solubility and bioavailability of these compounds. A novel synthetic OxD was used, and its inclusion complexes were based on 2-hydroxy-beta-cyclodextrin (2-HPßCD). We conducted an in silico study to evaluate the interaction capacity between OxD and 2-HPßCD. Characterization studies were performed through scanning electron microscopy (SEM), Fourier-transformed infrared (FTIR), nuclear magnetic resonance spectroscopy (1H-NMR), X-ray diffraction (XRD), and thermal analyses. A kinetic study of the OxD was performed, including a cytotoxicity assay using peripheral blood mononuclear cells (PBMCs). The maximum increment of solubility was obtained at 70 mM OxD using 400 mM 2-HPßCD. SEM analyses and FTIR spectra indicated the formation of inclusion complexes. 1H-NMR presented chemical shifts that indicated 1:1 stoichiometry. Different thermal behaviors were obtained. The pharmacokinetic profile showed a short release time. Pure OxD and its inclusion complex did not exhibit cytotoxicity in PBMCs. In silico studies provided a foremost insight into the interactions between OxD and 2-HPßCD, including a higher solubility in water and an average releasing profile without toxicity in normal cells
Subject(s)
Solubility/drug effects , Cyclodextrins/agonists , Microscopy, Electron, Scanning/methods , Magnetic Resonance Spectroscopy/methods , Spectroscopy, Fourier Transform Infrared/methods , Proton Magnetic Resonance Spectroscopy/methods , Anti-Bacterial Agents/analysisABSTRACT
Abstract The aqueous solubility of cefixime trihydrate (a water insoluble drug) using different hydrotropic agents was determined and solid dispersions of cefixime trihydrate were prepared by hydrotropic solubilization technique. The drugs content were determined. The aqueous solubility of v was increased many fold in presence of sodium acetate trihydrate as hydrotropic agent. This hydrotropic agent was used to prepare solid dispersion of cefixime trihydrate. Cefixime trihydrate and sodium acetate trihydrate were accurately weighed and taken in a 200 mL beaker. Distilled water 10-15 mL was taken to dissolve hydrotropic agent using heat (48-50 °C). The drug was then added to it and magnetically stirred till whole mass get viscous. The solid dispersions of cefixime trihydrate were characterized by XRD, DSC and IR studies. DSC thermogram, XRD and Infra-Red spectra were studied. Solid dispersions, thus prepared, showed faster release of the drug as compared to pure drug and physical mixture.
Subject(s)
Solubility/drug effects , Pharmaceutical Preparations/analysis , Methods , Water , Sodium Acetate/administration & dosage , Cefixime/adverse effectsABSTRACT
Tadalafil, a long-acting PED-5 inhibitor, is commonly used for the treatment of pulmonary arterial hypertension (PAH). However, its efficacy and clinical application are severely limited by the poor water solubility, low bioavailability and a series adverse effects (e.g. headaches, indigestion). In this study, tadalafil was prepared and loaded into biodegradable PLGA (poly(lactic-co-glycolic acid)) microspheres (TDF-PLGA-MS) via emulsification-solvent evaporation. The resulting microspheres were processed into pulmonary inhalant by freeze drying. The TDF-PLGA-MS was spherical and uniform, with an average particle diameter ~10.29 µm. The encapsulation efficiency and drug loading yield of TDF-PLGA-MS were 81.68% and 8.52%, respectively. The investigation of micromeritics showed that the TDF-PLGA-MS had low moisture content. The fluidity of powders was relatively good. The aerodynamic diameter and emptying rate of microspheres powders were 3.92 µm and 95.41%, respectively. Therefore, the microspheres powders were easy to be atomized, and can meet the requirements of pulmonary administration. In vitro release results showed that the microspheres group released slowly. The cumulative release in 24 h and 10 d was 46.87% and 84.06%, respectively. The in vitro release profile of TDF-PLGA-MS was in accordance with the Weibull model. The results of Pharmacokinetics showed that tadalafil from microspheres slowly released into the blood after intratracheal instillation. The pulmonary drug residue in 0.5 h was 3.5 times compared with solution group. The residual concentration in lung after 10d was still higher than that of solution group in 48 h. The t1/2β and MRT0-∞ were 3.10 times and 3.96 times that of solution group, respectively. Moreover, the Cmax and AUC of drug residues in lung were 3.48 times and 16.36 times that of solution group, respectively. The results of tissue distribution showed that the Re in lung was 16.358, which indicated the lung targeting. In conclusion, the TDF-PLGA-MS for pulmonary administration in this study can significantly improve the pulmonary targeting, increase efficacy of tadalafil and reduce other non-target organs toxicity. This study will have an important clinical significance for PAH patients who need long-term drug therapy.
Subject(s)
Pharmacokinetics , Tadalafil/adverse effects , Pulmonary Arterial Hypertension/drug therapy , Microspheres , Patients/classification , Solubility/drug effects , In Vitro Techniques/instrumentation , Pharmaceutical Preparations/administration & dosage , Drug Therapy , LungABSTRACT
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
Abstract Objective This study aimed to analyze the following physicochemical properties: radiopacity, final setting time, calcium release, pH change, solubility, water sorption, porosity, surface morphology, and apatite-forming ability of two calcium silicate-based materials. Material and methods We tested MTA Repair HP and MTA Vitalcem in comparison with conventional MTA, analyzing radiopacity and final setting time. Water absorption, interconnected pores and apparent porosity were measured after 24-h immersion in deionized water at 37°C. Calcium and pH were tested up to 28 d in deionized water. We analyzed data using two-way ANOVA with Student-Newman-Keuls tests (p<0.05). We performed morphological and chemical analyses of the material surfaces using ESEM/EDX after 28 d in HBSS. Results MTA Repair HP showed similar radiopacity to that of conventional MTA. All materials showed a marked alkalinizing activity within 3 h, which continued for 28 d. MTA Repair HP showed the highest calcium release at 28 d (p<0.05). MTA Vitalcem showed statistically higher water sorption and solubility values (p<0.05). All materials showed the ability to nucleate calcium phosphate on their surface after 28 d in HBSS. Conclusions MTA Repair HP and MTA Vitalcem had extended alkalinizing activity and calcium release that favored calcium phosphate nucleation. The presence of the plasticizer in MTA HP might increase its solubility and porosity. The radiopacifier calcium tungstate can be used to replace bismuth oxide.
Subject(s)
Oxides/chemistry , Silicates/chemistry , Calcium Compounds/chemistry , Aluminum Compounds/chemistry , Reference Values , Solubility/drug effects , Surface Properties/drug effects , Time Factors , Materials Testing , Calcium Phosphates/chemistry , Water/chemistry , Calcium/chemistry , Reproducibility of Results , Analysis of Variance , Porosity/drug effects , Statistics, Nonparametric , Drug Combinations , Hydrogen-Ion ConcentrationABSTRACT
Abstract Lenalidomide (LND) is an anti-cancer drug and an effective derivative of thalidomide used for multiple myeloma therapy. Because of its poor solubility in water, LND is known to cause low oral bioavailability (below 33%), and as a direct consequence of this, the dosing frequency is extended thus increasing risk of toxicity. To improve its bioavailability and sustained release, the present study aims to formulate polymeric nanoparticles (NPs) for LND using [Poly (lactic-co-glycolic acid)] (PLGA) as a polymer. The polymeric NPs were evaluated for particle size, SEM, XRD, drug content, entrapment efficiency (EE), in vitro release studies and in vivo bioavailability studies in rats. The formulated NPs possessed a size of 179±0.9 nm and a zeta potential of -24.4 ± 0.2 mV. The drug loading and EE of the optimized formulation was 32 ± 0.37 % and 78 ± 0.92% respectively. After oral administration of LND PLGA-NPs, the relative bioavailability was enhanced about 3.67-fold compared to LND. This study demonstrates the novel drug delivery for LND with PLGA-NPs as effective drug delivery system for sustained delivery of LND.
Subject(s)
Animals , Male , Female , Rats , Drug Screening Assays, Antitumor/statistics & numerical data , Nanoparticles/statistics & numerical data , Multiple Myeloma/prevention & control , Polymers/analysis , Solubility/drug effectsABSTRACT
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 Formulators face great challenges in adopting systematic approaches for designing self-nanoemulsifying formulations (SNEFs) for different drug categories. In this study, we aimed to build-up an advanced SNEF development framework for weakly basic lipophilic drugs, such as cinnarizine (CN). First, the influence of formulation acidification on CN solubility was investigated. Second, formulation self-emulsification in media with different pH was assessed. Experimentally designed phase diagrams were also utilized for advanced optimization of CN-SNEF. Finally, the optimized formulation was examined using cross polarizing light microscopy for the presence of liquid crystals. CN solubility was significantly enhanced upon external and internal acidification. Among the various fatty acids, oleic acid-based formulations showed superior self-emulsification in all the tested media. Surprisingly, formulation turbidity and droplet size significantly decreased upon equilibration with CN. The design was validated using oleic acid/Imwitor308/Cremophor El (25/25/50), which showed excellent self-nanoemulsification, 43-nm droplet size (for CN-equilibrated formulations), and 88 mg/g CN solubility. In contrast to CN-free formulations, CN-loaded SNEF presented lamellar liquid crystals upon 50% aqueous dilution. These findings confirmed that CN-SNEF efficiency was greatly enhanced upon drug incorporation. The adopted strategy offers fast and accurate development of SNEFs and could be extrapolated for other weakly basic lipophilic drugs.
Subject(s)
Solubility/drug effects , Process Optimization/classification , Cinnarizine/analysis , Drug Compounding/statistics & numerical data , Acidification/analysisABSTRACT
ABSTRACT Sodium hypochlorite (NaOCl) remains the most used irrigation solution during root canal preparation because of characteristics such as wide-spectrum antimicrobial activity and organic tissue dissolution capacity. However, these solutions can alter dentin composition and there is no consensus on the optimal concentration of NaOCl to be used. Objectives To determine the organic matter dissolution and changes in dentin chemical composition promoted by different concentrations of NaOCl over time. Material and Methods: Fragments of bovine muscle tissue were weighed before and after 5, 10, and 15 min of immersion in the groups (n=10): G1- 0.9% saline solution; G2- 1% NaOCl; G3- 2.5% NaOCl; and G4- 5% NaOCl. Bovine dentin fragments were subjected to the same irrigants and absorption spectra were collected by Attenuated Total Reflectance of Fourier Transform Infrared Spectroscopy (ATR-FTIR) before and after 0,5, 1, 2, 3, 5, 8, and 10 min of immersion in the solutions. The ratios of the amide III/phosphate and carbonate/phosphate absorption bands were determined. The tissue dissolution and carbonate/phosphate ratios were submitted to the two-way analysis of variance (ANOVA) with Tukey’s multiple-comparison test (α<0.05) and to the one-way analysis of variance with Tukey’s (α<0.05). The amide III/phosphate ratio was analyzed by Friedman test (α<0.05) and the Kruskal-Wallis test with Dunn’s post-hoc (α<0.05). Results The increase in NaOCl concentration and contact time intensified the dissolution of organic matter and dentin collagen with reduction in the amide III/phosphate ratio. Significant differences between all groups (p<0.05) were observed in the dissolution of organic matter at 10 min and in the amide III/phosphate ratio between the saline solution and 5% NaOCl at 5 min. The carbonate/phosphate ratio decreased significantly in G2, G3, and G4 after 0,5 min of immersion (p<0.05), but more alterations did not occur in the subsequent periods (p>0.05). Intergroup differences were not observed in this ratio (p>0.05). Conclusions The increase in the exposure time and in the concentration of NaOCl solution lead to an increase in the tissue dissolution and dentin collagen deproteination. Furthermore, some carbonate ions are removed from the dentin inorganic phase by the NaOCl.
Subject(s)
Animals , Cattle , Sodium Hypochlorite/chemistry , Dentin/drug effects , Dentin/chemistry , Disinfectants/chemistry , Reference Values , Root Canal Irrigants/chemistry , Solubility/drug effects , Surface Properties/drug effects , Time Factors , Collagen/drug effects , Spectroscopy, Fourier Transform Infrared , Hydrogen-Ion Concentration , Immersion , Muscles/drug effectsABSTRACT
ABSTRACT Azithromycin is a water-insoluble drug, with a very low bioavailability. In order to increase the solubility and dissolution rate, and consequently increase the bioavailability of poorly-soluble drugs (such as azithromycin), various techniques can be applied. One of such techniques is "solid dispersion". This technique is frequently used to improve the dissolution rate of poorly water-soluble compounds. Owing to its low solubility and dissolution rate, azithromycin does not have a suitable bioavailability. Therefore, the main purpose of this investigation was to increase the solubility and dissolution rate of azithromycin by preparing its solid dispersion, using different Polyethylene glycols (PEG). Preparations of solid dispersions and physical mixtures of azithromycin were made using PEG 4000, 6000, 8000, 12000 and 20000 in various ratios, based on the solvent evaporation method. From the studied drug release profile, it was discovered that the dissolution rate of the physical mixture, as the well as the solid dispersions, were higher than those of the drug alone. There was no chemical incompatibility between the drug and polymer from the observed Infrared (IR) spectra. Drug-polymer interactions were also investigated using Differential Scanning Calorimetry (DSC), Powder X-Ray Diffraction (PXRD) and Scanning Election Microscopy (SEM). In conclusion, the dissolution rate and solubility of azithromycin were found to improve significantly, using hydrophilic carriers, especially PEG 6000.
RESUMO A azitromicina é um fármaco insolúvel em água, com biodisponibilidade muito baixa. A fim de aumentar a taxa de solubilidade e dissolução e, consequentemente, aumentar a biodisponibilidade de fármacos fracamente solúveis (tais como azitromicina), várias técnicas podem ser aplicadas. Uma dessas técnicas é a "dispersão sólida", frequentemente usada para melhorar a taxa de dissolução de compostos fracamente solúveis em água. Devido à baixa taxa de solubilidade e de dissolução, este fármaco não tem biodisponibilidade adequada. Portanto, o principal objetivo desta pesquisa foi o de aumentar a taxa de solubilidade e dissolução da azitromicina, preparando a sua dispersão sólida, utilizando diferentes glicóis de polietileno (PEG). As dispersões sólidas e as misturas físicas de azitromicina foram preparadas utilizando PEG 4000, 6000, 8000, 12000 e 20000, em várias proporções, com base no método de evaporação do solvente. O perfil de liberação do fármaco foi estudado e verificou-se que tanto a taxa de dissolução da mistura física quanto as dispersões sólidas foram maiores do que as do fármaco sozinho. Espectros de IR não revelaram incompatibilidade química entre o fármaco e o polímero. Interações fármaco-polímero também foram investigadas usando calorimetria diferencial de varredura (DSC), Difração de Raios X (PXRD) e Microscopia Eletrônica de Varredura(SEM). Em conclusão, a taxa de dissolução e a solubilidade da azitromicina melhoraram, de forma significativa, utilizando suportes hidrofílicos, especialmente PEG 6000.
Subject(s)
Azithromycin/analysis , Azithromycin/pharmacology , Dissolution/methods , Polyethylene Glycols/analysis , Solubility/drug effectsABSTRACT
BACKGROUND/AIMS: Cholecystectomy is necessary for the treatment of symptomatic or complicated gallbladder (GB) stones, but oral litholysis with bile acids is an attractive alternative therapeutic option for asymptomatic or mildly symptomatic patients. This study was conducted to evaluate the efficacy of magnesium trihydrate of ursodeoxycholic acid (UDCA) and chenodeoxycholic acid (CDCA) on gallstone dissolution and to investigate improvements in gallstone-related symptoms. METHODS: A prospective, multicenter, phase 4 clinical study to determine the efficacy of orally administered magnesium trihydrate of UDCA and CDCA was performed from January 2011 to June 2013. The inclusion criteria were GB stone diameter or =50%, radiolucency on plain X-ray, and asymptomatic/mildly symptomatic patients. The patients were prescribed one capsule of magnesium trihydrate of UDCA and CDCA at breakfast and two capsules at bedtime for 6 months. The dissolution rate, response rate, and change in symptom score were evaluated. RESULTS: A total of 237 subjects were enrolled, and 195 subjects completed the treatment. The dissolution rate was 45.1% and the response rate was 47.2% (92/195) after 6 months of administration of magnesium trihydrate of UDCA and CDCA. Only the stone diameter was significantly associated with the response rate. Both the symptom score and the number of patients with symptoms significantly decreased regardless of stone dissolution. Adverse events necessitating discontinuation of the drug, surgery, or endoscopic management occurred in 2.5% (6/237) of patients. CONCLUSIONS: Magnesium trihydrate of UDCA and CDCA is a well-tolerated bile acid that showed similar efficacy for gallstone dissolution and improvement of gallstone-related symptoms as that shown in previous studies.
Subject(s)
Adult , Aged , Female , Humans , Male , Middle Aged , Antacids/administration & dosage , Chenodeoxycholic Acid/administration & dosage , Cholagogues and Choleretics/administration & dosage , Drug Administration Schedule , Drug Combinations , Gallstones/drug therapy , Magnesium Hydroxide/administration & dosage , Prospective Studies , Severity of Illness Index , Solubility/drug effects , Ursodeoxycholic Acid/administration & dosageABSTRACT
Objective: To evaluate the influence of solvent evaporation in the kinetics of water diffusion (water sorption-WS, solubility-SL, and net water uptake) and nanoleakage of adhesive systems. Material and Methods: Disk-shaped specimens (5.0 mm in diameter x 0.8 mm in thickness) were produced (N=48) using the adhesives: Clearfil S3 Bond (CS3)/Kuraray, Clearfil SE Bond - control group (CSE)/Kuraray, Optibond Solo Plus (OS)/Kerr and Scotchbond Universal Adhesive (SBU)/3M ESPE. The solvents were either evaporated for 30 s or not evaporated (N=24/per group), and then photoactivated for 80 s (550 mW/cm2). After desiccation, the specimens were weighed and stored in distilled water (N=12) or mineral oil (N=12) to evaluate the water diffusion over a 7-day period. Net water uptake (%) was also calculated as the sum of WS and SL. Data were submitted to 3-way ANOVA/Tukey's test (α=5%). The nanoleakage expression in three additional specimens per group was also evaluated after ammoniacal silver impregnation after 7 days of water storage under SEM. Results: Statistical analysis revealed that only the factor "adhesive" was significant (p<0.05). Solvent evaporation had no influence in the WS and SL of the adhesives. CSE (control) presented significantly lower net uptake (5.4%). The nanoleakage was enhanced by the presence of solvent in the adhesives. Conclusions: Although the evaporation has no effect in the kinetics of water diffusion, the nanoleakage expression of the adhesives tested increases when the solvents are not evaporated. .
Subject(s)
Dental Leakage , Dentin-Bonding Agents/chemistry , Resin Cements/chemistry , Solvents/chemistry , Water/chemistry , Analysis of Variance , Bisphenol A-Glycidyl Methacrylate/chemistry , Materials Testing , Solubility/drug effects , Time Factors , VolatilizationABSTRACT
The present investigation is aimed to develop self-microemulsifying drug delivery system (SMEDDS) to improve the in vitro dissolution of a BCS (Biopharmaceutical Classification System) class II anti emetic agent, domperidone. Solubility study was performed to identify the ingredients showing highest solubility of domperidone. The ternary phase diagrams were plotted for selected components to identify the area of microemulsion existence. D-optimal mixture experimental design was applied to optimize a liquid SMEDDS using formulation variables; the oil phase X1 (Oleic acid), the surfactant X2 (Labrasol) and the co-surfactant X3 (Transcutol HP). The liquid SMEDDS were evaluated for droplet size, emulsification time, % transmittance and drug release. Stability study was performed at 40 °C/75% RH. Liquid formulation was solidified by adsorption on carrier Aerosil 300. Solid SMEDDS was evaluated and compared with liquid SMEDDS and marketed formulation. Oleic acid was selected as oil, Labrasol as surfactant and Transcutol HP as co-surfactant for formulation of SMEDDS. The optimized batch showed best results in terms of smaller droplet size (<170 nm), emulsification time (<40 s) and drug release (>85% in 15 min) and was stable for 3 months. Solid SMEDDS containing Aerosil 300 showed good flow properties and uniform drug content. XRPD study revealed that the crystalline drug was converted to amorphous form in solid SMEDDS. The rate and extent of drug dissolution from solid SMEDDS was significantly higher than pure drug and commercial tablet formulation. The results demonstrate the potential of SMEDDS as a means of improving solubility, dissolution and hence the bioavailability.
O presente estudo teve como objetivo desenvolver sistemas de liberação auto-microemulsificantes (Self-Microemulsifying Drug Delivery System - SMEDDS) de domperidona, agente antiemético, classe II, segundo o sistema de classificação Biofarmacêutica, para melhorar sua dissolução in vitro. Estudo foi realizado para identificar os componentes que revelaram maior solubilidade da domperidona. Determinaram-se os diagramas de fase ternários para esses componentes selecionados tendo em vista a identificação da região de formação da microemulsão. O planejamento experimental foi empregado para otimizar os SMEDDS líquidos, utilizando as seguintes variáveis de formulação: a fase oleosa X1 (ácido oleico), o agente tensoativo X2 (Labrasol) e co-tensoativo X3 (Transcutol HP). Os SMEDDS líquidos foram avaliados quanto às seguintes características: tamanho da gota, tempo de emulsificação,% de transmitância e liberação do fármaco. O estudo de estabilidade foi realizado a 40 °C/75% de umidade relativa. A formulação foi convertida em forma sólida por sua adsorção em Aerosil 300. Os SMEDDS sólidos foram avaliados e comparados com SMEDDS líquidos e a formulação comercializada. O ácido oléico foi selecionado para a fase oleosa, Labrasol como agente tensoativo e Transcutol como co-tensoativo para a formulação de SMEDDS. O lote otimizado mostrou os melhores resultados: menor tamanho de gota (<170 nm), menor tempo de emulsificação (<40 segundos), e de liberação do fármaco (> 85% em 15 min). Além disso, a formulação otimizada manteve-se estável no período de 3 meses. Os SMEDDS sólidos contendo Aerosil 300 apresentaram boas propriedades de fluxo e uniformidade de conteúdo do fármaco. O estudo de difração de raios-X revelou que o fármaco cristalino foi convertido para a forma amorfa, nos SMEDDS sólidos. A velocidade de dissolução do fármaco a partir dos SMEDDS sólidos foi significativamente maior, quando comparado ao fármaco livre e à formulação de comprimidos comercial. Os resultados demonstram o potencial dos SMEDDS como meio para melhorar a solubilidade, a dissolução e, consequentemente, a biodisponibilidade da domperidona.
Subject(s)
Emulsifying Agents/pharmacokinetics , Domperidone/pharmacokinetics , Drug Liberation/drug effects , Solubility/drug effects , Biopharmaceutics/methods , Antiemetics/pharmacokineticsABSTRACT
Mercaptopurine is a purine antagonist, belonging to the class of antimetabolites. Its oral absorption is erratic and variable throughout GIT, with bioavailability of 5-37% and belongs to Biopharmaceutical Classification System (BCS) class IV. The focus of the present study was to improve solubility of mercaptopurine and to release the drug uniformly throughout the GIT by formulating into a novel in situ gel tablet. By in vitro swelling studies, xanthan gum was selected as the best gelling polymer and the tablets were prepared by direct compression. Sodium chloride was used as a release modifier to improve the release of drug from the tablet. A 32 full factorial design was applied to optimize the percentage of xanthan gum and sodium chloride to get desired swelling index and release profile. Tablets were evaluated for weight variation, hardness, friability, disintegration time, drug content, in vitro swelling studies and in vitro dissolution studies. The best optimized formulation showed good swelling index and extended the release up to 12 h, where as conventional tablet released the drug within 45 min. The results indicate that mercaptopurine loaded in situ gel tablet could be effective in sustaining drug release for a prolonged period of time throughout the GIT, which can possibly improve the oral bioavailability.
Mercaptopurine é um antagonista da purina, pertencente à a classe dos antimetabólitos. A sua absorção oral é errática e variável através do TGI, com biodisponibilidade de 5-37 % e pertence à classe IV, de acordo com o Sistema de Classificação Biofarmacêutica. O foco do presente estudo foi melhorar a solubilidade da mercaptopurina e liberar o fármaco uniformemente através do TGI, por meio da nova formulação de comprimidos que se tornam gel in situ. Por meio de estudos de inchamento, a goma xantana foi selecionada como o o melhor polímero gelificante e os comprimidos foram preparados por compressão direta. O cloreto de sódio também foi usado como agente modificador de liberação para aprimorar a liberação do fármaco do comprimido. Aplicou-se planejamento fatorial 32 para otimizar a porcentagem de goma xantana e de cloreto de sódio para se alcançar o índice de inchamento e o perfil de liberação desejáveis. Os comprimidos foram avaliados quanto à variação de peso, dureza, friabilidade, tempo de desintegração, conteúdo de fármaco, estudos in vitro de inchamento e de dissolução. A formulação mais bem otimizada mostrou bom índice de inchamento e liberação prolongada acima de 12 h, em comparação com um comprimido convencional, que libera o fármaco em 45 minutos. Os resultados indicam que a 6-mercaptopurina carregada no comprimido de gelificação in situ poderia ser eficaz para a liberação controlada por período de tempo prolongado através do TGI, o que pode, possivelmente, aprimorar a biodisponibilidade oral.
Subject(s)
Purines/agonists , Pharmaceutical Preparations/administration & dosage , Drug Delivery Systems , Gels/administration & dosage , Solubility/drug effects , Tablets/administration & dosageABSTRACT
This study investigated the effects of nanosuspension and inclusion complex techniques on in vitro trypsin inhibitory activity of naproxen—a member of the propionic acid derivatives, which are a group of antipyretic, analgesic, and non-steroidal anti-inflammatory drugs. Nanosuspension and inclusion complex techniques were used to increase the solubility and anti-inflammatory efficacy of naproxen. The evaporative precipitation into aqueous solution (EPAS) technique and the kneading methods were used to prepare the nanosuspension and inclusion complex of naproxen, respectively. We also used an in vitro protease inhibitory assay to investigate the anti-inflammatory effect of modified naproxen formulations. Physiochemical properties of modified naproxen formulations were analyzed using UV, IR spectra, and solubility studies. Beta-cyclodextrin inclusion complex of naproxen was found to have a lower percentage of antitryptic activity than a pure nanosuspension of naproxen did. In conclusion, nanosuspension of naproxen has a greater anti-inflammatory effect than the other two tested formulations. This is because the nanosuspension formulation reduces the particle size of naproxen. Based on these results, the antitryptic activity of naproxen nanosuspension was noteworthy; therefore, this formulation can be used for the management of inflammatory disorders.
O objetivo do presente estudo foi investigar a atividade anti-inflamatória in vitro de nanossuspensões e do complexo de inclusão contendo naproxeno. Esse fármaco é derivado de ácido propiônico, com ação analgésica, antipirética e antiinflamatória. A obtenção dessas formulações teve por finalidade o aumento da solubilidade e da atividade anti-inflamatória do fármaco. Os métodos por precipitação em solução aquosa por evaporação e por empastagem foram modificados para a obtenção da nanossuspensão e do complexo de inclusão, respectivamente. Para a avaliação da atividade anti-inflamatória das formulações utilizou-se ensaio in vitro modificado de inibição de tripsina. As propriedades físico-químicas das formulações propostas foram determinadas utilizando espectroscopia UV e de infravermelho, além de estudos de solubilidade. O complexo de inclusão de naproxeno apresentou menor atividade antitripsina, quando comparado ao composto livre e à nanossuspensão. Em conclusão, entre as formulações avaliadas, a nanossuspensão de naproxeno apresentou maior efeito anti-inflamatório. Esse efeito foi devido à redução da dimensão das partículas de naproxeno para a escala nanométrica. Com base nos resultados obtidos, a atividade da nanossuspensão de naproxeno foi notável. Dessa forma, essa formulação apresenta potencial para o tratamento de distúrbios inflamatórios.
Subject(s)
Protease Inhibitors/pharmacokinetics , Naproxen/pharmacokinetics , Solubility/drug effects , Excipients/pharmacokineticsABSTRACT
Polymorphism in solids is a common phenomenon in drugs, which can lead to compromised quality due to changes in their physicochemical properties, particularly solubility, and, therefore, reduce bioavailability. Herein, a bibliographic survey was performed based on key issues and studies related to polymorphism in active pharmaceutical ingredient (APIs) present in medications from the Farmácia Popular Rede Própria. Polymorphism must be controlled to prevent possible ineffective therapy and/or improper dosage. Few mandatory tests for the identification and control of polymorphism in medications are currently available, which can result in serious public health concerns.
O polimorfismo em sólidos é um fenômeno frequente em fármacos e pode levar a problemas na qualidade dos medicamentos por alterar suas propriedades físico-químicas, em especial a solubilidade e, consequentemente, a biodisponibilidade. Nesse trabalho realizou-se levantamento bibliográfico sobre os principais estudos e problemas relacionados ao polimorfismo em fármacos presentes nos medicamentos disponibilizados pela Farmácia Popular do Brasil. O polimorfismo deve ser controlado a fim de evitar possível ineficácia terapêutica e/ou dosagem inapropriada dos medicamentos. Destacamos que são poucos os ensaios obrigatórios para identificação e controle desse fenômeno em medicamentos, o que pode acarretar grande problema de saúde pública.
Subject(s)
Solubility/drug effects , Community Pharmacy Services , Quality Control , Review Literature as Topic , Production of ProductsABSTRACT
Formation of urinary stone is a serious and debilitating problem throughout the world. In the present study, the inhibitory effect of aqueous extract of root of Rotula aquatica was investigated against struvite crystals (one of the components of urinary stone) grown in vitro using single diffusion gel growth technique. For setting the gel, sodium metasilicate solution (specific gravity 1.05) and 0.5 M aqueous solution of ammonium dihydrogen phosphate were mixed, so that the pH of the mixture could be set at 7.0. Equal amounts of supernatant solution of magnesium acetate (1.0 M) prepared with 0.0%, 0.5% and 1% concentrations of the extract were gently poured on the set gels. It was observed that the number, dimension, total mass, total volume, growth rate and depth of growth of struvite crystals decreased with the increasing extract concentrations in the supernatant solutions. The enhancement of dissolution rate and fragmentation of struvite crystals suggested potential application of the extract for inhibition of struvite type urinary stone.
Subject(s)
Crystallization , Humans , Magnesium Compounds/analysis , Magnesium Compounds/chemistry , Particle Size , Phosphates/analysis , Phosphates/chemistry , Plant Extracts/pharmacology , Plant Roots , Solubility/drug effects , Urinary Calculi/chemistry , Urinary Calculi/prevention & controlABSTRACT
Nimesulide is a poorly soluble drug, the rate of its oral absorption is often controlled by the dissolution rate in the gastrointestinal tract. There are several techniques to enhance the dissolution of poorly soluble drugs. Among them the technique of liquisolid compacts which is a promising one. The liquisolid compacts were prepared using 20 mg nimesulide, Avicel PH102 as a carrier, and Aerosil 200 as a coating material in a ratio of 20:1, as well as AC-DI-SOL as a disintegrant in a concentration of 5% from the total weight of the compact. The liquids used include PEG400, PG, and a mixture of these solvents with Tween 80. From the results obtained it is concluded that the suitable loading factor [Lf] is 0.2 which gave good flowability and compressibility. Friability, hardness, disintegration time and the dissolution rate were carried out. All the liquisolid compacts showed higher dissolution rate than the conventional tablets. The liquisolid compacts containing the PEG400 showed the highest dissolution rate than the other preparations. The effect of different concentrations of drug on the dissolution rate was studied, and it was observed that 20% of drug gave the maximum dissolution rate, and no significant increase of the dissolution rate with increasing the drug concentration. Conventional tablets and liquisolid compacts containing PG and PEG400 were tested for their anti-inflammatory effects using paw oedema test. liquisolid compacts exhibited a pronounced inhibition of swelling than that of conventional tablets. In conclusion liquisolid compact of nimesulide can be used as a technique to improve the dissolution rate and the anti-inflammatory effect of nimesulide
Subject(s)
Solubility/drug effects , Anti-Infective AgentsABSTRACT
Moxifloxacin and lomefloxacin are fluoroquinolone antibiotics used in treating urinary and respiratory tract infections. Fluoroquinolones are known to have interactions with drugs that are active in gastro intestinal tract. Being moxifloxacin and lomefloxacin fluoroquinolones the interaction study of was carried out with sucralfate, gelusil, erythromycin and multi minerals. The interaction was studied at neutral, acidic and basic conditions both at room temperature and 37°C. The effect of dissolution medium simulating various body environments with response to pH has been examined in order to elucidate the interactions. The response of moxifloxacin and lomefloxacin after interaction with co-administered drugs at different conditions and temperature were noted using a Shimadzu HPLC system with PDA detector. It was seen that interaction of these fluoroquinolones was more at 37°C than at room temperature. Moxifloxacin and Lomefloxacin reacts faster with sucralfate and gelusil in acidic media whereas with erythromycin in basic media and multi-minerals in neutral media. The study ensures the interaction of fluoroquinolones with selected class of drugs. In order to achieve the effective therapeutic effect appropriate time intervals between administrations of drugs is essential
Subject(s)
Surveys and Questionnaires , Anti-Infective Agents/chemistry , Aza Compounds/chemistry , Solubility/drug effects , Chromatography, High Pressure Liquid/methods , Drug Combinations , Drug Interactions , Tablets/chemistry , Temperature , In Vitro TechniquesABSTRACT
The main aim of present investigation was to develop sustained release matrix tablets of Gliclazide using fruit mucilage from the plant Ficus glomerata. Varying ratios of drug and polymer viz. 1:0.25, 1:0.5, 1:0.75, 1:1.0 and 1:1.25 were selected for the study. The flow properties of powdered mucilage and physical properties of matrix tablets were performed. The swelling behavior and release rate characteristics were studied. The in vitro drug release data was analyzed by zero order, first order, Higuchi plot, Peppas plot and Hixon-Crowell Models. It was observed that as the proportion of mucilage increased the release of drug from the matrix tablets was retarded. Stability studies were conducted at 40 +/- 2°C and RH 75 +/- 5% for 3 months indicates that Gliclazide was stable in the matrix tablets. The Differential Scanning Calorimetric [DSC] and Fourier Transform Infrared [FTIR] study revealed that there was no negative chemical interaction between drug and the mucilage used. From the dissolution study, it was concluded that dried Ficus glomerata mucilage can be used as an excipient for making sustained release matrix tablets