Influence of different types of lactose on powder flow and tablets dissolution

Velázquez-González, Karen; Ramírez-Flores, Eduardo; Villafuerte-Robles, Leopoldo

doi:10.7324/japs.2015.50916

J App Pharm Sci

2015

DOI: 10.7324/japs.2015.50916

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Influence of different types of lactose on powder flow and tablets dissolution

Karen Velázquez-González

Eduardo Ramírez-Flores

Leopoldo Villafuerte-Robles

Abstract: The objective of this study was the evaluation of different types of lactose on the powders flow properties and dissolution of tablets of formulations with captopril and amoxicillin. Data of powders flow rate, compressibility index and dissolution profiles of tablets are presented. The powders flow rate showed higher sensitivity to small changes in their properties, compared to compressibility index. SuperTabs 21AN and 24AN flow at least 20 times faster than Lactopress and lactose NF. Lubrication increases the… Show more

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2024

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Ipomoea batatas and Artocarpus altilis Particles into Tablets

Torrens Sotomayor,

Velazquez-Figueroa

2024

Ars Pharm

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Introduction: Tablets are solid pharmaceutical dosage forms administered orally, composed of granules subjected to compression. They can be formed from particles (excipients and active ingredients) that deform under pressure. There are several naturally derived particles from agricultural products that are malleable and could potentially be used as excipients in tablet formulation. However, there is a research gap regarding the use of these agricultural products in tablets. This study explored the potential of using chemically unmodified Ipomoea batatas and Artocarpus altilis granules as excipients in tablet formulation. Method: The research evaluated physical properties and solubility under varying conditions, including cutting methods, binder addition, and compression forces. The experimental process involved drying, milling, binder mixing (Polyvinylpyrrolidone), and tablet compaction. Particle characterization included size distribution, density, morphology, and porosity, while compacted material analysis focused on hardness, friability, disintegration time, and solubility times. Results: I. batatas particles were spherical with a D50 of 420 µm and 50%-60% porosity. A. altilis particles were irregularly shaped with a D50 of 120–200 µm and 75%-80% porosity. Compacted I. batatas had hardness >4 kgf, friability <1%, disintegration 8-15 min, and solubility 14-18 min. A. altilis had hardness >4 kgf, friability <2%, disintegration 2.5-5 min, and solubility 5-9 min. Conclusions: Binder addition and compression forces reduced weight loss and increased hardness, disintegration, and solubility times. The carbohydrate (mainly starches) composition significantly affected solubility time, while cutting technique influenced drying time, but not the final product behavior. This study demonstrates the feasibility of using granular materials obtained from natural agricultural products to form compressed products.

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Ipomoea batatas and Artocarpus altilis Particles into Tablets

Torrens Sotomayor,

Velazquez-Figueroa

2024

Ars Pharm

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Influence of different types of lactose on powder flow and tablets dissolution

Cited by 1 publication

References 13 publications

<em>Ipomoea batatas</em> and <em>Artocarpus altilis</em> Particles into Tablets

<em>Ipomoea batatas</em> and <em>Artocarpus altilis</em> Particles into Tablets

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