Your search keyword '"Eudragit EPO"' showing total 5 results

1. Solvent-free method for masking the bitter taste of azithromycin dihydrate using supercritical fluid technology.

Author

Mashaqbeh, Hadeia, Obaidat, Rana M., and Alsmadi, Mo'tasem M.

Subjects

SUPERCRITICAL fluids, BITTERNESS (Taste), FLAVOR, SUPERCRITICAL carbon dioxide, AZITHROMYCIN, SALIVA, CATIONIC polymers, POLYMER clay

Abstract

The unpleasant extremely bitter taste of the orally administered broad-spectrum antibiotic azithromycin decreases patient compliance, especially in pediatrics. This issue can be overcome by decreasing drug interaction with the tasting buds using insoluble polymers at salivary pH (6.8 − 7.4), like the cationic polymer Eudragit EPO. Supercritical fluid technology is a green synthesis method for preparing pharmaceutical preparations that replace organic solvents with safe supercritical CO2. This study aimed to mask the bitter taste of azithromycin using the supercritical fluid method and a pH-sensitive Eudragit EPO polymer. A foaming process was investigated for preparing a formulation (TEST), which comprises treating the polymer with supercritical carbon dioxide (CO2) fluid to prepare a taste-masked dosage form without employing organic solvents or flavors. The use of the supercritical technique at 40 °C and 10 MPa for 2 h allowed the manufacturing of solvent-free polymeric foam with azithromycin dispersions; the average calculated percentage of apparent volume change was 62.5 ± 5.9% with an average pore diameter of 34.879 Å. The formulated sample showed low drug release in simulated salivary fluid while keeping its crystalline nature. Moreover, clinical studies on healthy subjects showed that the formula successfully masked azithromycin's bitter taste. Overall, it has been shown herein that the supercritical fluid technology foaming method is promising in masking the bitter taste of bitter ingredients. [ABSTRACT FROM AUTHOR]

Published

2024

2. Supersaturating drug delivery system of fixed drug combination: sulfamethoxazole and trimethoprim.

Author

Mendes, Cassiana, Valentini, Giuliana, Chamorro Rengifo, Andrés Felipe, Pinto, Juliana M. O., Silva, Marcos A. S., Parize, Alexandre L., and Chamorro, Andres Felipe

Abstract

Background: The drug supersaturation in the intestinal lumen for few hours could result in high bioavailability. The goal of this study was the development of a supersaturating drug delivery system containing sulfamethoxazole and trimethoprim at fixed dose combination (sulfamethoxazole:trimethoprim 5:1 w/w). Methods: The amorphous solid dispersions were formed at three different proportions containing 30, 50 and 70% of Eudragit EPO in the formulation. Results: The supersaturation state is formed by the amorphous drugs produced by spray drying technique, and the maintenance of this state is due to the chemical interactions between the drugs and the polymer selected, which was observed in the fluorescence interaction studies realized between the drugs and the polymer. The Formulation containing 70% of the polymer was able to produce and maintain the supersaturated state of both drugs for 24 h. Solid state characterization demonstrated the amorphization of the drugs in the solid dispersion and indicated the hydrogen bond formation responsible for the improvement in the apparent solubility. This formulation presented an improved antibacterial activity when compared to the combination of the drugs. Conclusion: For the first time, a supersaturating drug delivery system was developed to the complementary antibacterial drugs. This ternary formulation is a powerful alternative to improve oral absorption of recognized safety drugs, reducing the dose and consequently the antibiotic resistance emergence. [ABSTRACT FROM AUTHOR]

Published

2019

3. Preparation and characterization of a powder containing an oily liquid drug with Eudragit EPO or L100 copolymer.

Author

Fujii, Makiko, Kawakami, Ayari, Saito, Asumi, Tuchiya, Haruna, Koizumi, Naoya, and Watanabe, Yoshiteru

Subjects

CLOFIBRATE, COPOLYMERS, METHACRYLATES, POWDERS, DRUG development, EMULSIONS (Pharmacy)

Abstract

Oily liquid drugs are not convenient for oral administration. We developed a powder containing clofibrate (CF), a model of an oily drug, using aminoalkyl methacrylate copolymer (EPO) or methacrylic acid copolymer (L100). CF or a mixture of CF and soybean oil was emulsified with EPO or L100 aqueous solution. Using a high-pressure homogenizer, a stable emulsion was obtained, and a powder was then obtained by lyophilization of the emulsion. The content of CF in the powder depended on the formulation, with the highest contents being 24.6% and 27.1% for EPO and L100, respectively. The incorporation ratio of CF was higher for L100 than for EPO. The powder using EPO was sticky because of leaked CF and the low glass transition temperature of EPO. The powder using L100 was a typical powder obtained by lyophilization. The leakage of CF from the powder was <2%, lower than for EPO powder. The dissolution of CF from powder using EPO was fast, regardless of the pH of the medium, but the powder using L100 showed enteric-soluble characteristics, indicating that CF is well incorporated in L100. [ABSTRACT FROM AUTHOR]

Published

2016

4. Formulation and in vitro evaluation of ketoprofen fast-dissolving tablets.

Author

Comoglu, Tansel, Inal, Ozge, and Yaacoub, Hajar Ben

Subjects

NONSTEROIDAL anti-inflammatory agents, DISSOLUTION (Chemistry), DRUG tablets, IN vitro studies, DRUG formularies

Abstract

Drugs exhibiting satisfactory absorption from the oral mucosa or intended for immediate pharmacological action can be advantageously formulated as orally fast-disintegrating tablets (FDTs or ODTs). Therefore, taste masking of active ingredients becomes essential in these systems because the drug is entirely released in the mouth. Despite advances in the FDT technologies, formulation of drugs with a bitter taste is still a challenge, especially when the amount of drug is high. In this study, a new solution is being developed to incorporate higher doses of a model bitter taste drug; ketoprofen, without affecting the fast-disintegrating properties of the formulation. The unpleasant taste of the active drug usually masked by adding flavoring ingredients and sweeteners to improve taste and palatability but in this study a novel approach of using a polymer; Eudragit EPO and a granulation procedure of this polymer with the active drug was applied to mask the bitter taste of ketoprofen. In order to produce ketoprofen FDT formulations, a two-stepped procedure was followed; granulation process with the taste-masking agent (Eudragit EPO) and then direct compression (F3 and F4). In F1 and F2 formulations, granulation process was not implemented in order to observe the effect of application method of Eudragit EPO. As well as observing the effect of taste-masking agent,crospovidoneandsodium starch glycolatewere used in different concentrations (2, 4 and 8wt%) to examine the influence of superdisintegrants on FDT properties. All the FDTs containing 30 mg ketoprofen (F1, F2, F3 and F4) were evaluated by means ofin vitroquality control tests. [ABSTRACT FROM PUBLISHER]

Published

2016

5. Amorphous solid dispersion with increased gastric solubility in tandem with oral disintegrating tablets: a successful approach to improve the bioavailability of atorvastatin.

Author

Salmani, Jumah Masoud M., Lv, Huixia, Asghar, Sajid, and Zhou, Jianping

Subjects

ATORVASTATIN, DRUG solubility, DIFFERENTIAL scanning calorimetry, X-ray powder diffraction, FOURIER transform infrared spectroscopy, HYDROGEN bonding

Abstract

Context: Serious efforts have been made to overcome the bioavailability problems of ever increasing number of poorly soluble drugs, including atorvastatin (ATO); however, enhancing its gastric solubility has not received much attention. Objectives: To improve the bioavailability of ATO by increasing its gastric solubility in a stable oral disintegration tablet (ODT) formulation. Materials and methods: Amorphous solid dispersion (ASD) of ATO with Eudragit® EPO was used as API in ODT formulation. Characterization using Differential scanning calorimetry, Powder X-ray diffraction, Fourier transform infrared drug-polymer interaction simulated by molecular modeling, solubility, dissolution and stability studies together with in vivo evaluation. Results and discussion: In ASD there was uniform distribution of drug in the polymer and it retained the amorphous nature without any chemical interactions except the possibility of hydrogen bond formation, with substantially higher gastric solubility. The dissolution profile of the ODT containing ASD was significantly improved >90% within 15 min compared with 25% of plain ATO formulation. In vivo results showed an overall enhancement in the apparent bioavailability (83% and 434% more than Lipitor® and plain amorphous ATO tablets, respectively). Combining the ASD with ODT presents a reliable solution to overcome the low solubility and bioavailability problems of ATO in a simple, robust and cost effective formulation. [ABSTRACT FROM AUTHOR]

Published

2015