Pharma Excipients
Organic Chemicals
Actual Sugars
Artificial Sweeteners
Carbohydrates
Cellulose
Cellulose Esters
Cellulose Ethers
CMC and Croscarmellose Sodium
Converted Starch
Dried Starch
Ethyl Cellulose
HPC - hydroxypropyl cellulose
HPMC - Hydroxypropylmethylcellulose
Microcrystalline Cellulose
Modified Starch
Starch
Sugar Alcohols
Sugars
Trehalose
Effect of Powdered Cellulose Nanofiber with Different Particle Sizes on the Physical Properties of…
Abstract
Direct compression is a tableting technique that involves a few steps in non-demanding manufacturing conditions. High strength and rapid disintegration of tablet formulations were previously achieved through the addition of cellulose nanofibers (CNFs), which have recently attracted…
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3D-printed prednisolone phosphate suppositories with tunable dose and rapid release for the…
Established medicines are often not tailored to the needs of the pediatric population, causing difficulties with administration or dosing. Three-dimensional (3D) printing technology allows novel approaches for compounding of personalized medicine, as is exemplified in this study for the automated…
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Co-processed materials testing as excipients to produce Orally Disintegrating Tablets (ODT) using…
The use of co-processed materials for Orally Disintegrating Tablets (ODT) preparation by direct compression is well consolidated. However, the evaluation of their potential for ODT preparation by 3D printing technology remains almost unexplored. The present study aimed to estimate the use of…
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Physicochemical reports of gliclazide-carplex solid dispersions and tablets prepared with directly…
Abstract
Objectives
The main goal of this research was to develop better tablet formulations by utilizing solid dispersions (SDs) and coprocessing excipients composite to achieve a better release rate of poor water-soluble gliclazide.
Methods
The solvent evaporation method made SDs of…
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Phase homogeneity in ternary amorphous solid dispersions and its impact on solubility, dissolution…
Abstract
As performance of ternary amorphous solid dispersions (ASDs) depends on the solid-state characteristics and polymer mixing, a comprehensive understanding of synergistic interactions between the polymers in regard of dissolution enhancement of poorly soluble drugs and subsequent…
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Pre and post characterization of ODTs with emphasis on compression force and quality of…
Oral dispersible tablets (ODTs) are patient compliant dosage forms which rapidly disintegrate in the mouth following active absorption with rapid onset of action. The current study was designed to resolve compression problems used for ODTs, as high compression force exhibited hardness and drug…
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Expanded porous-starch matrix as an alternative to porous starch granule: Present status,…
Abstract
Exposing the hydrated-soft-starch matrix of intact grain or reconstituted flour dough to a high-temperature-short-time (HTST) leads to rapid vapor generation that facilitates high-pressure build-up in its elastic matrix linked to large deformation and expansion. The expanded starch matrix…
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Revolutionary Advancements in Fast Dissolving Tablets: An In-Depth Exploration
ABSTRACT
A novel drug delivery system plays a pivotal role in enhancing patient adherence to medication regimens. Among these innovative approaches, fast dissolving tablets (FDT’s) stand out as a particularly promising option. FDT’s offer a range of benefits, including precise dosing, ease of…
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Monitoring low dose API blend uniformity with Parteck® M mannitol using near-infrared (NIR)…
Direct compression is often used for tablet manufacturing because it is the shortest, most effective, and least complex method. The physical properties of active pharmaceutical ingredients (APIs) can, however, create a challenge for flowability and compressibility, and, as a result, affect tablet…
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Fabrication of dissolving microneedles for transdermal delivery of protein and peptide drugs:…
Proteins and peptides are rapidly developing pharmaceutical products and are expected to continue growing in the future. However, due to their nature, their delivery is often limited to injection, with drawbacks such as pain and needle waste. To overcome these limitations, microneedle technology is…
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