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HPC – hydroxypropyl cellulose
Understanding Direct Powder Extrusion for Fabrication of 3D Printed Personalised Medicines: A Case…
Fuse deposition modelling (FDM) has emerged as a novel technology for manufacturing 3D printed medicines. However, it is a two-step process requiring the fabrication of filaments using a hot melt extruder with suitable properties prior to printing taking place, which can be a rate-limiting step in…
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Development of agomelatine nanocomposite formulations by wet media milling
Nanocrystal formulations of the BCS class II agomelatine, were developed by wet media milling. The most suitable stabilizer was identified and effects of process and formulation variables on the nanocrystal size and ζ-potential were evaluated employing a Box-Behnken experimental design. The…
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Preparation of seeded granules to improve mechanical properties and various drug loading for…
The present work explores the pharmaceutical application of a novel seeded granulation to develop properties-improved, high drug-loaded, and sustained-release tablets using hydroxypropylcellulose (HPC) as a binder. Itraconazole, 4-acetamidophenol, and rifaximin were selected as model drugs. They…
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Tuning of Paroxetine 3D-Printable Formulations for Fused Deposition Modelling
This work reports the preliminary development of paroxetine-containing formulations amenable to hot-melt extrusion coupled to fused deposition modelling-based 3D printing. Polymeric matrices were used alone, or added with processing enhancers (e.g., plasticizer and filler). The polymeric formulation…
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Direct Powder Extrusion of Paracetamol Loaded Mixtures for 3D Printed Pharmaceutics for Personalized…
Three-dimensional printed drug development is nowadays an active area in the pharmaceutical industry, where the search for an appropriate edible carrier that permits the thermal processing of the mixture at temperature levels that are safe for the drug is an important field of study. Here, potato…
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Impact of Matrix Surface Area on Griseofulvin Release from Extrudates Prepared via Nanoextrusion
We aimed to examine the impact of milling of extrudates prepared via nanoextrusion and the resulting matrix surface area of the particles on griseofulvin (GF, a model poorly soluble drug) release during in vitro dissolution. Wet-milled GF nanosuspensions containing a polymer (Sol: Soluplus®, Kol:…
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New Characterization Measures of Pore Shape and Connectivity Applied to Coatings used for Controlled…
Pore geometry characterization-methods are important tools for understanding how pore structure influences properties such as transport through a porous material. Bottlenecks can have a large influence on transport and related properties. However, existing methods only catch certain types of…
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Three-dimensional printing of tablets – a potential approach to on-clinical-site extemporaneous…
The oral route is the most common form of drug administration, being a safe and convenient, particularly for solid oral dosage forms. Current large-scale manufacturing techniques mostly result in fixed dose units and allow a limited choice of dosage strengths. In some cases, there is a need for…
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Enabling the direct compression of metformin hydrochloride through QESD crystallization
Metformin hydrochloride is a drug used in the treatment of type 2 diabetes. It shows very poor flowability and agglomeration under storage so that a direct compression of the material into tablets has not yet been successfully realized. In a previous study the authors showed that a quasi-emulsion…
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Phase behavior of ASDs based on hydroxypropyl cellulose
Novel polymeric carriers for amorphous solid dispersions (ASDs) are highly demanded in pharmaceutical industry to improve the bioavailability of poorly-soluble drug candidates. Besides established polymer candidates, hydroxypropyl celluloses (HPC) comes more and more into the focus of ASD production…
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