Use of Eudragit RS PO, HPMC K100M, Ethyl Cellulose, and Their Combination for Controlling Nicorandil Release from the Bilayer Tablets with Atorvastatin as an Immediate-Release Layer

The main goal of this study was to develop a stable formulation of antihypertensive drugs telmisartan and hydrochlorothiazide as an immediate-release bilayer tablet and to evaluate the dissolution profile in comparison with a reference product. The formulation development work was initiated with wet granulation. Telmisartan was converted to its sodium salt by dissolving in aqueous solution of sodium hydroxide to improve solubility and drug release. Lactose monohydrate and microcrystalline cellulose were used as diluents. Starch paste is prepared in purified water and was used as the binder. Sodium starch glycolate is added as a disintegrating agent. Magnesium stearate was used as the lubricant. The prepared granules were compressed into a double-layer compression machine. The tablets thus formulated with higher proportion of sodium starch glycolate showed satisfactory physical parameters, and it was found to be stable and in vitro release studies are showed that formulation (F-T5H5) was 101.11% and 99.89% respectively. The formulation T5H5 is further selected and compared with the release profile of the innovator product, and was found to be similar (f2 factor) to that of the marketed product. The results suggest the feasibility of developing bilayer tablets consisting of telmisartan and hydrochlorothiazide for the convenience of patients with hypertension.

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Bilayer tablets with sustained-release metformin and immediate-release sitagliptin: preparation and in vitro/in vivo evaluation

Journal of Pharmaceutical Investigation ◽

10.1007/s40005-021-00533-z ◽

2021 ◽

Author(s):

Ngoc Nha Thao Nguyen ◽

Duy Toan Pham ◽

Duc Tuan Nguyen ◽

Thi Thu Loan Trinh

Keyword(s):

Sustained Release ◽

Immediate Release ◽

In Vivo Evaluation ◽

Bilayer Tablets

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Formulation and Evaluation of Luliconazole Microsponges Loaded Gel for Topical Delivery

Research Journal of Pharmacy and Technology ◽

10.52711/0974-360x.2021.01004 ◽

2021 ◽

pp. 5775-5780

Author(s):

Farhana Sultan ◽

Himansu Chopra ◽

Gyanendra Kumar Sharma

Keyword(s):

Controlled Release ◽

Drug Release ◽

Ethyl Cellulose ◽

Entrapment Efficiency ◽

Topical Delivery ◽

Production Yield ◽

In Vitro Drug Release ◽

Eudragit Rs ◽

Diffusion Studies

Microsponge containing Luliconazole (LCZ) with different proportion of drug:polymer (Ethyl cellulose and Eudragit RS 100) were obtained efficiently using Quasi-emulsion solvent diffusion method. Luliconazole is an anti-fungal drug used for the topical delivery. The purpose of the microsponge formulation is to control the release of LCZ drug to the skin through Microsponge Delivery System (MDS) known to be the novel technique which overcome the maximum concentration of active ingredient, frequency doses, and skin irritation. The prepared microsponges were examined using drug content, % production yield, % entrapment efficiency and in-vitro drug release. The formulation were subjected to in-vitro drug release studies for 6 hr in which it was concluded that Ethyl cellulose microsponges formulated by drug:polymer (1:1) and Eudragit RS 100 microsponges formulated by drug:polymer (1:3) showed maximum controlled release i.e., Increase in drug:polymer ratio (1:1 to 1:9) increased the production yield and entrapment efficiency of microsponges using Ethyl cellulose with no significant effect for Eudragit RS 100.Therefore, both formulation F1 and F2 was dispersed in carbopol gel preparation for controlled delivery of LCZ to the skin. Various physical parameters like pH, spreadability, viscosity and in-vitro drug diffusion studies were evaluated for the prepared gel formulations. Microsponge gel formulation i.e., FG1 showed better results for controlled release of 89.40% as compared to FG2 i.e., 92.18% over the period of 12 hrs which is performed in Franz Diffusion Cell. On basis of in-vitro diffusion studies for LCZ gel formulation, microsponges using Ethyl cellulose (FG1) was found to be best for its controlled release of LCZ for 12 hrs and followed zero order kinetics. Hence, formulated LCZ loaded gel have potential to treat fungal infections i.e., tinea pedis, tinea cruris and tinea corporis.

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FORMULATION DEVELOPMENT AND EVALUATION OF IMMEDIATE RELEASE BILAYER TABLETS OF TELMISERTAN AND HYDROCHLOROTHIAZIDE

International Research Journal of Pharmacy ◽

10.7897/2230-8407.04925 ◽

2013 ◽

Vol 2 (9) ◽

pp. 117-122

Author(s):

Bhavesh Bhavsar ◽

Manish Chauhan ◽

Biswajit Biswal

Keyword(s):

Immediate Release ◽

Formulation Development ◽

Bilayer Tablets

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In-Vitro Functionality of Clozapine Biphasic Release Minitablet Using Advanced Statistical Tools

Drug Delivery Letters ◽

10.2174/2210303111666210412163605 ◽

2021 ◽

Vol 11 ◽

Author(s):

Hardik Rana ◽

Rushikesh Chaudhari ◽

Vaishali Thakkar ◽

Tejal Gandhi

Keyword(s):

Drug Release ◽

Sustained Release ◽

Ethyl Cellulose ◽

Dosage Form ◽

Immediate Release ◽

Solid Dosage Form ◽

Solid Dosage ◽

Precipitation Inhibitor

Background: The better control of the drug release with immediate effect is the major concern to achieve better therapeutic action and patient compliance. The failure of the solid dispersion complex during storage as well as in-vivo is another concern for the oral solid dosage form. Objective: The prime objective of the present study was to optimize the biphasic minitablet incorporating quality by design approach using the combination of waxy erodible and water-impermeable excipients. Exploration of Soluplus as a precipitation inhibitor and Dexolve as a solubility enhancer in oral solid dosage form was the secondary objective. Methods: The drug-Excipient compatibility study was assessed by FTIR. Clozapine was chosen as a model drug that has poor aqueous solubility. The complex was formulated using B-cyclodextrin or HP B-CD or Dexolve by kneading method. The screening of solubility enhancers and their amount were performed based on phase solubility study. The precipitation inhibitor was screened as per the parachute effect study. Immediate release minitablets were formulated using a direct compression method using different disintegrating agents. The IR minitablets were evaluated for different evaluation parameters. The sustained release minitablets was formulated by hot-melt granulation technique incorporating the Precirol ATO 5 as a waxy excipient and ethyl cellulose as water impermeable excipient. The SR minitablet was optimized using a central composite design. The amount of Precirol ATO 5 and ethyl cellulose were chosen as independent variables and % drug release at 1, 6, and 10 h was selected as responses. The designed batches were evaluated for different pre and post compressional parameters. The IR and SR minitablets were filled in a capsule as per dose requirement and evaluated for in-vitro drug release. The in-vivo plasma concentration was predicted using the Back calculation of the Wagner – Nelson approach. Results: Drug – Excipient study revealed that no significant interaction was observed. Dexolve was screened as a solubility enhancer for the improvement of the solubility of clozapine. The Soluplus was chosen as a precipitation inhibitor from the parachute effect study. The immediate-release tablet was formulated using Prosolv EASYtab SP yield less disintegration time with better flowability. The sustained release mini-tablet was formulated using Precirol ATO 5 and ethyl cellulose. Two-dimensional and three-dimensional plots were revealed the significant effect of the amount of Precirol ATO 5 and ethyl cellulose. The overlay plot locates the optimized region. The in-vitro drug release study revealed the desired drug release of the final combined formulation. The in-vivo plasma concentration-time confirms the drug release up to 12h. Conclusion: The biphasic mini-tablets were formulated successfully for better control of drug release leads to high patient compliance. The use of soluplus as a precipitation inhibitor is explored in the oral solid dosage form for a poorly aqueous drug. Prosolv EASYtab SP was incorporated in the formulation as super disintegrant. The amount of Precirol ATO 5 and ethyl cellulose had a significant effect on drug release in sustained-release minitablet. The approach can be useful in the industry.

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Optimized chronomodulated dual release bilayer tablets of fexofenadine and montelukast: quality by design, development, and in vitro evaluation

Future Journal of Pharmaceutical Sciences ◽

10.1186/s43094-019-0006-9 ◽

2019 ◽

Vol 5 (1) ◽

Cited By ~ 1

Author(s):

Bhupendra Singh ◽

Geetanjali Saini ◽

Manish Vyas ◽

Surajpal Verma ◽

Sourav Thakur

Keyword(s):

Drug Release ◽

Sustained Release ◽

Quality By Design ◽

Immediate Release ◽

Oral Dosage ◽

Nocturnal Asthma ◽

Sustained Release Tablet ◽

Bilayer Tablets ◽

Dual Release ◽

Release Tablet

Abstract Background The conventional oral dosage forms are not effective in dealing with chronopathological conditions, such as nocturnal asthma. Therefore, there is an unmet need to develop a delivery system that can deliver drug as per the chronopharmacology of the diseases. The purpose of the study is to use quality by design (QbD) technique and pulsatile principles for the development of Eudragit-coated dual release bilayer tablets. The dual layer consists of immediate release layer of fexofenadine HCl and sustained release layer of montelukast sodium. Results The quality target product profile of the formulation was developed, and the critical quality attributes were identified. Three-level, three-factor Box-Behnken design was used for the optimization of the bilayer tablets. Based on the design, a total of 13 formulation combinations (F1–F13 and M1–M13) were made having acceptable micromeritic properties. The developed immediate and sustained release layers were evaluated for physicochemical properties. Depending upon the value of the diffusion exponent, the Fickian diffusion mechanism is dominant among immediate and sustained release tablet layers. Response curve for immediate release layer showed that concentrations of sodium starch glycolate and sodium bicarbonate had a negative effect on disintegration time and a positive effect on drug release. For sustained release tablet layer, concentrations of HPMC E 5 LV and magnesium stearate had a significant effect on drug release. The ANOVA and diagnostic plots confirmed the significance and goodness of fit of the used model. Based on desirability plot values, optimized formulation was developed and coated with Eudragit coat. The coated bilayer tablet showed met the requirement of providing an immediate release during the first hour and a sustained release action for a period of more than 8 h after passing the gastric region. Conclusions The formulation can be fruitful in curbing the menace of nocturnal asthma and providing a high degree of patient compliance as the patient will not have to wake up at night to take the medication.

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