The invention relates to coated particles with a taste-masked drug substance. The particles comprise a core with a melt-agglomerated active pharmaceutical ingredient (API), optionally a thermolabile API, and a coating comprising a triglyceride and a surfactant. The particles exhibit immediate drug release and a storage-stable release profile. Moreover, the invention provides a hot-melt granulation and hot-melt coating method for manufacturing such coated particles, and pharmaceutical compositions comprising the coated particles. The method allows the granulation of APIs with small particle sizes (e.g., mean particle size below 150 μm, or even below 100 μm or 50 μm) into core particles, as well as coating said core particles, at moderate temperatures, thereby preventing the degradation of thermolabile active pharmaceutical ingredients.

Provided herein are pharmaceutical compositions (e.g., oral dosage formulations) comprising (S)-2-(2,6-dioxopiperidin-3-yl)-4-((2-fluoro-4-((3-morpholinoazetidin-1-yl)methyl)benzyl)amino)isoindoline-1,3-dione, or an enantiomer, mixture of enantiomers, tautomer, isotopolog, or pharmaceutically acceptable salt thereof, and a carrier or diluent. Also provided herein are methods of preparing and methods of using the pharmaceutical compositions.

The application relates to (106) specific heterocyclic compounds comprising a thiazole ring, an indazol and a 6,7-dihydro-5H-pyrrolo[1,2-c]imidazole system, to pharmaceutical compositions containing them and their medical use. The compounds are described as selective allosteric inhibitors of T790M/L858R, T790M/L858R/C797S, L858R, L858R/C797S containing EGFR mutants and thus useful for the treatment of cancer, in particular non-small cell lung cancer. (formula)

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This invention relates to a 19-nor C3,3-disubstituted C21-pyrazolyl steroid of formula (I) and pharmaceutical compositions thereof. Also disclosed herein are methods of making the pharmaceutical compositions of the 19-nor C3,3-disubstituted C21-pyrazolyl steroid of formula (I) and methods of using the 19-nor C3,3-disubstituted C21-pyrazolyl steroid of formula (I) or crystalline solid forms, pharmaceutically acceptable salts, and pharmaceutically acceptable compositions thereof.

The invention relates to an improved composition of ferric maltol or ferric trimaltol for the treatment of iron deficiency, wherein the composition comprises the active ferric maltol or ferric trimaltol lower than 60% of the total composition weight. The compositions further can be a capsule or tablet or any other pharmaceutical solid dosage form, preferably a capsule in a hard gelatin in a size of 0 or 1, for oral administration.

A mini-tablets in capsule oral dosage form comprising a dose of atorvastatin. Also disclosed are methods of preparing the dosage form and methods of treating a condition, disease or disorder that is therapeutically responsive to atorvastatin.

Liquid fill matrices comprising dissolved arsenic trioxide and having not more than 20% aqueous component and at least 80% nonaqueous component, wherein the components are miscible, are described as well as processes of preparing such liquid fill matrices and processing the liquid fill matrices into dosage forms including soft capsules; for the treatment of various ailments, such as cancer and GVHD.

The invention discloses polymorphic forms of a compound of formula I, pharmaceutical compositions containing same, preparation method therefor and use thereof. The compound of formula I of the present invention is as shown in formula I, of which the crystalline form can be crystalline form 1, crystalline form 2, crystalline form 3, crystalline form 5, crystalline form 6 or crystalline form 7. All the crystalline forms of the compound of formula I in the present invention have good crystalline stability and chemical stability and a decrease in purity of their main ingredient less than 2%. The preparation method of the present invention may be used to produce the various crystalline forms of the compound of formula I with high purity, and suitable for large scale production.

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Described herein are electrospun core-shell fibers that include (i) a central core that is electrically conductive having an exterior surface, wherein the core comprises a first polymer and an electroconductive material; (ii) a shell adjacent to the exterior surface of the core, the shell comprising a second polymer; and (iii) one or more bioactive agents in the shell. In one aspect, the fibers are electrospun fibers. Additionally, described herein are methods for making and using the core-shell fibers.

The present disclosure relates to the field of pharmaceutical chemistry, and particularly to a compound represented by Formula (I), a preparation method and medical use thereof. In the compound represented by Formula (I), a lactulosyl group is connected to a heteroatom of genin (G) via a glycosidic bond, wherein the genin (G) is a group formed by removing one hydrogen atom from a heteroatom of an active pharmaceutical molecule, and “” indicates that the lactulosyl group is connected to the heteroatom of the genin (G) via an α-glycosidic bond or a β-glycosidic bond. Pharmacokinetic experiments prove that the lactuloside compound according to the present disclosure can pass through the gastrointestinal tract of a mammal without being absorbed significantly by the gastrointestinal tract and hydrolyzed significantly by endogenous enzymes of a mammal host. Therefore, the lactuloside compound can arrive at the colon site of the mammal, and release an active drug in the colon under the action of colon flora. The lactuloside compound has a function of colon-localized drug release, and can be used for preventing or treating an intestinal disease. ##STR00001##