The present invention relates to pharmaceutical dosage forms, for example to a tamper resistant dosage form including an opioid analgesic, and processes of manufacture, uses, and methods of treatment thereof.

A rapidly-orodispersible dosage form comprising a porous, bound-powder matrix and one or more internal cavities is provided, as well as three-dimensional printing methods for making the same. Each internal cavity is configured to contain one or more payloads, particularly pharmaceutical medicaments, while isolating the payloads from the external environment outside of the dosage form. Each payload can be contained within its cavity in its native form without having to be combined with the bound-powder matrix or binding liquid. Dosage forms can disintegrate in water or saliva in less than two minutes, independently of the payload(s) or medicament(s) contained within. The dosage forms can be formed as unitary tablets, or as two-piece tablets comprising a container body and a lidding body that are secured together to isolate the one or more cavities and their payloads inside.

The present invention relates to a dosage form comprising at least one functionalized calcium carbonate-comprising material (FCC) and at least one hot melt extruded polymer resin, a method for producing same, a pharmaceutical, nutraceutical, cosmetic, home and personal care product comprising the dosage form and the uses thereof.

The present invention relates to oral controlled-release formulations of 5-(pyridinyl)-2(1H)-pyridinone compounds and their use in the treatment of a subject with heart failure, a stage, class or manifestation of heart failure, or at risk of developing or exhibiting symptoms of heart failure. The formulations of the invention release the compounds in the range of between 0.1 μg/kg body weight/minute and 20 μg/kg body weight/minute.

Intravesical drug delivery devices that include a device body, a number of solid drug tablets, and a retention frame. The device body includes a drug reservoir lumen and a retention frame lumen. The drug tablets is positioned in the drug reservoir lumen, and the retention frame is positioned in the retention frame lumen.

The present invention relates to pharmaceutical formulations comprising at least one acid-labile proton pump inhibiting agent and at least one antacid, which have improved bioavailability, chemical stability, physical stability, dissolution profiles, disintegration times, safety, as well as other improved pharmacokinetic, pharmacodynamic, chemical and/or physical properties. The present invention is directed to methods, kits, combinations, and compositions for treating, preventing or reducing the risk of developing a gastrointestinal disorder or disease, or the symptoms associated with, or related to, a gastrointestinal disorder or disease in a subject in need thereof.

The disclosure relates to obeticholic acid formulations with improved stability, dissolution, and/or solubility, methods of preparing the same for use and methods of treating various diseases and conditions.

The invention is directed to pharmaceutical compositions such as tablets that exhibit delayed release properties when administered as either whole or half tablets. The invention is also directed to delayed release tablets comprising deferiprone for oral administration, for which twice daily administration is bioequivalent to the same daily dose of an immediate release tablet administered thrice daily. The invention is also directed to methods of making and using the same.

Compositions for development of matrix type extended release mesalamine minitablets without use of any modified release coating, comprising a) mesalamine or its prodrug or derivatives thereof having a weight percentage in a range of 65-85 weight percentage with respect to the composition; b) at least one intragranular excipient having a weight percentage in a range of 3.5-22.5 weight percentage with respect to the composition; c) at least one binder having a weight percentage in a range of 2-6.5 weight percent with respect to the composition; and d) at least one extra granular excipient having a weight percentage in a range of 2-5 weight percentage with respect to the composition such that largest dimension in the minitablet is range of 1.00 mm to 2.8 mm. In another aspect of the present disclosure provides for a process of preparation of composition.

Described herein are medical devices and medical implements with high lubricity to flesh (or biological fluid) and/or inhibited nucleation on its surface. The device has a surface comprising an impregnating liquid and a plurality of micro-scale and/or nano-scale solid features spaced sufficiently close to stably contain the impregnating liquid therebetween. The impregnating liquid fills spaces between said solid features, the surface stably contains the impregnating liquid between the solid features, and the impregnating liquid is substantially held in place between the plurality of solid features regardless of orientation of the surface.