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Lactose
Elucidation of the effect of added fines on the performance of dry powder inhalation formulations
Dry powder inhalers (DPIs) are regularly used to treat respiratory diseases. Adding extrinsic fine excipient particles to the blend of active pharmaceutical ingredient (API) and carrier is an established strategy to improve aerosolization efficiency during pulmonary drug delivery. Different amounts…
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The impact of lactose type on disintegration: An integral study on porosity and polymorphism
Besides factors such as disintegrant and lubricant, the raw material properties of filler excipients can have an impact on the disintegration behavior of a tablet. The current research aims to model the impact of lactose properties on disintegration time. For the first time, the impact of lactose…
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AEROSIL® Pharma colloidal silicon dioxide – technical information
Evonik is one of the world’s leading CDMOs for advanced drug delivery. Our integrated portfolio of functional excipients, technologies and services for the formulation development, process scale-up and cGMP manufacturing of complex oral and parenteral drug products can reduce your project risk,…
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MicroceLac® 100 – MEGGLE’s co-processed lactose grades for direct compression
MEGGLE is a pioneer in co-processing technologies that allow simple, robust formulation development and manufacture. Through co-processing, MEGGLE developed highly functional excipients possessing unique qualities for directly compressible immediate and sustained release pharmaceutical solid dosage…
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Effect of a superdisintegrant on disintegration of orally disintegrating tablets determined by…
Abstract
The disintegration time is critical for characterizing orally disintegrating tablets (ODTs), according to regulatory standards. The current study aimed to assess the effect of superdisintegrants such as sodium starch glycolate, croscarmellose sodium, and crospovidone on the…
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Milled and Sieved Lactose – MEGGLE’s crystalline alpha-lactose monohydrate grades
MEGGLE is a pioneer in co-processing technologies that allow simple, robust formulation development and manufacture. Through co-processing, MEGGLE developed highly functional excipients possessing unique qualities for directly compressible immediate and sustained release pharmaceutical solid dosage…
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Recent advancements in additive manufacturing techniques employed in the pharmaceutical industry: A…
Abstract
The 3–dimensional printing process (3DP) was patented in the 1980s, but the utilization of this process has expanded substantially over the past decade, to which the pharmaceutical industry is a major contributor. With increasing interest, researchers across the globe are striving for the…
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Classification of scanning electron microscope images of pharmaceutical excipients using deep…
Convolutional Neural Networks (CNNs) are image analysis techniques that have been applied to image classification in various fields. In this study, we applied a CNN to classify scanning electron microscopy (SEM) images of pharmaceutical raw material powders to determine if a CNN can evaluate…
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Cellactose® 80 – MEGGLE’s co-processed lactose grades for direct compression
MEGGLE is a pioneer in co-processing technologies that allow simple, robust formulation development and manufacture. Through co-processing, MEGGLE developed highly functional excipients possessing unique qualities for directly compressible immediate and sustained release pharmaceutical solid dosage…
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Influences of different microcrystalline cellulose (MCC) grades on tablet quality and compression…
Microcrystalline cellulose (MCC) is one of the most commonly used excipients in tablet formulations. At present, numerous grades of MCC are available for pharmaceutical manufacturing and significantly differ in particulate and powder properties. The choice of MCC is important to the development of a…
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