Tablet Formulation From Meniran (Phyllanthus Niruri L.) Extract With Direct Compression Method

Mustarichie, Resmi; Priambodo, Dradjad

doi:10.22159/ijap.2018v10i4.26795

Cited by 8 publications

(7 citation statements)

References 2 publications

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“…Meniran extract has been shown to increase macrophage phagocytic activity and nitric oxide production [4]. Many polyphenol compounds have been reported to have positive pharmacological effects [5][6][7]. In this case, the primary compound responsible for increasing the immune system is polyphenols, especially flavonoids [8].…”

Section: Introductionmentioning

confidence: 99%

Chitosan Nanoparticle as a Delivery System for Polyphenols From Meniran Extract (Phyllanthus Niruri L.): Formulation, Optimization, and Immunomodulatory Activity

Pratiwi¹,

Martien

Murwanti

2019

Int J App Pharm

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Objective: This study aims to formulate meniran extract into polymeric nanoparticles. Better stability of active substances in formulas compared to unformulated extracts is expected to increase immunomodulatory activity. Methods: Nanoparticles were formulated using ionic gelation method with chitosan and tripolyphosphate polymers. Optimize the mixture of nanoparticles using simplex lattice design (SLD) with the help of Design-Expert (DX) software. Evaluation of particle size and potential zeta using dynamic light scattering (DLS). Interactions between components were analyzed using Fourier transform infrared spectrophotometry-attenuated total reflectance (FTIR-ATR) and morphology of the lyophilization results observed using scanning electron microscopy (SEM). Immunomodulatory tests using the latex assay method. The parameters tested included phagocytosis index, phagocytic activity, and nitric oxide secretion. Results: The optimum mixture of the formulation process was obtained in the composition of chitosan 0.270 %, extract 0.626 %, and tripolyphosphate 0.074 % with desirability value of 0.841. Optimal response with particle size 434.7±3.90 d. nm, polydispersity index 0.285±0.03 and entrapment efficiency 62.98±0.65 %. The zeta potential value in the optimum formula is 11.9±0.1 mV with a positive charge. Phagocytosis index and phagocytic activity of nanoparticles differed significantly (p<0.05) compared with unformulated extracts. Conclusion: Meniran extract was successfully formulated into polymeric nanoparticles using chitosan-tripolyphosphate polymer. The developed nanoparticles have the immunomodulatory activity that is better than unformulated extract.

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Section: Introductionmentioning

confidence: 99%

Chitosan Nanoparticle as a Delivery System for Polyphenols From Meniran Extract (Phyllanthus Niruri L.): Formulation, Optimization, and Immunomodulatory Activity

Pratiwi¹,

Martien

Murwanti

2019

Int J App Pharm

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“…The granule evaluation was according to the compendial method, i.e. the Indonesian Pharmacopoeia [6,7]. Then, the tablet cores were molded and coated using Kollicoat®Protect coating, then evaluated.…”

Section: Methodsmentioning

confidence: 99%

The Anti-Inflammatory Tablet Formulation of Coleus (Plectranthus Scutellariodes) Leaves Extract Using Kollicoat®protect Coating

Mustarichie

Ramdhani²,

Saptarini³

2022

Int J App Pharm

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Objective: The purpose of this study was to find the concentration of weight gain on the use of Kollicoat®Protect to produce coleus leaf extract film-coated tablets with good physical properties. Methods: Coleus extract was obtained by maceration using 70% ethanol. Tablet cores were prepared using the wet granulation method, then evaluated (uniformity of weight, size, hardness, friability, and disintegration time). Coated tablets were made in four variations of polymer weight gain, i.e. 5, 6, 7, and 8%. To determine the effect of the weight gain concentration of Kollicoat®Protect an evaluation of the coated tablets was carried out, i.e. the uniformity of weight, size, hardness, disintegration time, and physical appearance of the film-coated tablets. Results: The four variations (Film Coated Tablet, FCT 5, 6, 7, and 8%) in weight gain of film-coated tablets showed the physical appearance results per the applicable requirements. However, the physical observation test at room temperature showed the instability of the film-coated tablet. The qualitative analysis of thin-layer chromatography showed that the productive substances in the extracts, tablet cores, and film-coated tablets were still contained even though they had undergone several formulation stages. Conclusion: Film-coated tablets met the standards of the Indonesian Pharmacopoeia and the United States Pharmacopeia. After two weeks, there was slight instability in film-coated tablets at room temperature storage. The extract, tablet core, and film-coated tablet contain flavonoids.

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“…This test could be used as a supporting factor to determine the quality of the tablet. Evaluation of print mass includes resting angle, flow rate, real density, compressed density, and compressibility [30,31]. From the results of the evaluation of the print mass, all formulas gave good results, so that the pressing process could be done by direct pressing method.…”

Section: Print Mass Evaluationmentioning

confidence: 99%

DISSOLUTION PROFILE OF AMBROXOL HCl TABLET WITH ADDITIONAL VARIATIONS OF LUDIPRESS® AND LACTOSE USING THE DIRECT PRESS METHOD

2020

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Objective: The drug will provide a therapeutic effect when dissolved so that it is easily absorbed. The process of dissolving drugs is called dissolution. Additional substances contained in pharmaceutical preparations, one of which serves to accelerate the solubility of active substances. The aim of this study was to obtain a comparative composition of Ludipress® and lactose additives suitable for producing ambroxol HCl tablets that met the ambroxol acceleration ambroxol in the body. Methods: Ambroxol HCl tablets were made by direct pressing method. For research purposes, 4 formulas with variations of Ludipress® and Lactose were designed. The tablet was then evaluated, which includes uniformity in weight, diameter, thickness, hardness, friability, disintegration time, and dissolution. Data obtained in the analysis using the perfect random block design method (DBAS) with α = 0.05 where blocks and groups were used. Results: From the results of the Mass Printing Evaluation of Tablets, it was found that the four formulas that were designed met the resting angle, flow rate, real density, compressed density, and compressibility met existing requirements. The results of evaluation tablets, which included uniformity of weight, uniformity of size, hardness, friability, disintegration time, and dissolution test, were found that only F1 formula did not meet uniformity requirements. All four formulas meet the Indonesian pharmacopeia requirements for time of violence, fragility and disintegration. The dissolution test results showed that in the 45-minute test each percent dissolved concentration of the active substance for F1, F2, F3, and F4 was 58.77974, 66.91104, 80.09946, and 64.02293 suggesting only the F3 formula fulfilled the dissolution requirements according to European Pharmacopoeia which stated that the concentration of dissolved active tablets should not be less than 75% during the 45-minute test. Conclusion: The formula that met the solubility requirements consisted of an additional 69% Ludipress® and 10% lactose with a solubility value of 80.09%.

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Tablet Formulation From Meniran (Phyllanthus Niruri L.) Extract With Direct Compression Method

Cited by 8 publications

References 2 publications

Chitosan Nanoparticle as a Delivery System for Polyphenols From Meniran Extract (Phyllanthus Niruri L.): Formulation, Optimization, and Immunomodulatory Activity

Chitosan Nanoparticle as a Delivery System for Polyphenols From Meniran Extract (Phyllanthus Niruri L.): Formulation, Optimization, and Immunomodulatory Activity

The Anti-Inflammatory Tablet Formulation of Coleus (Plectranthus Scutellariodes) Leaves Extract Using Kollicoat®protect Coating

DISSOLUTION PROFILE OF AMBROXOL HCl TABLET WITH ADDITIONAL VARIATIONS OF LUDIPRESS® AND LACTOSE USING THE DIRECT PRESS METHOD

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