A valerian composition includes valerian and an acidifying agent blended together in a pharmaceutically acceptable hydrogel-forming polymer matrix. An expedited release portion of the dosage form includes 5% to 50% of the valerian and is effective to release the valerian therein within 2 hours from placement in a 0.1 N HCl solution. A sustained release portion of the dosage form includes the remainder of the valerian and is effective to release the valerian therein within 10 hours from placement in a phosphate buffer with a pH of 6.8.

An oral pharmaceutical dosage form that comprises both acetaminophen and a glutathione replenishing agent, such as N-acetylcysteine. This allows co-administering the glutathione replenishing agent along with acetaminophen, which may be beneficial in rapidly counteracting the toxic effects of acetaminophen overdose. The oral dosage form could be in the form of a tablet or capsule. The dosage form may be designed to compartmentally separate the glutathione replenishing agent from having chemical interaction with the acetaminophen. The dosage form may be designed to mask the taste or smell of the glutathione replenishing agent.

The present invention relates in a first aspect to a fast disintegrating cannabinoid tablet, the tablet comprising a sugar alcohol composition comprising one or more sugar alcohol particles in an amount of at least 20% by weight of the tablet, a cannabinoid composition comprising one or more cannabinoids, and a disintegrant composition comprising one or more disintegrants operable to disintegrate the tablet within a period of 2 minutes or less in contact with oral saliva. In a second aspect, the invention relates to a modular tablet, wherein the tablet comprises a further tablet module that is different in composition.

A novel orally administrable dosage form including a drug/active layer for loading a therapeutic agent and an extension layer for retaining the API or drug dosage form in the stomach of a subject in need thereof. Also disclosed is a method of treating diseases with the dosage form.

An ibuprofen controlled-release tablet and a method for preparing same are provided. The controlled-release tablet is composed of a drug-containing immediate-release layer and a drug-containing sustained-release layer, wherein a mass of ibuprofen in the drug-containing sustained-release layer is greater than a mass of ibuprofen in the drug-containing immediate-release layer, and a ratio of the mass of the ibuprofen in the drug-containing sustained-release layer to the mass of the ibuprofen in the drug-containing immediate-release layer is ≤7. The tablet of the present disclosure has an effective analgesic effect for 24 h after administration.

A composition is based on N-palmitoyl-ethanolamide and Baicalein in the co-micronized form. The includes a mixture of palmitoyl-ethanolamide (PEA) and Baicalein in co-micronized form. The composition is usable for treating benign prostatic hyperplasia.

An oral dosage form of ticagrelor includes a core and a semi-permeable membrane coating the core. The core comprises a first drug layer and a push layer. The first drug layer contains ticagrelor that is sufficient to deliver an effective amount of the drug over an intended delivery time. The push layer comprises a swelling agent and an osmogen agent. The semi-permeable membrane has at least one passageway formed therethrough, positionally configured to face the first drug layer, but not to face the push layer, of the core, and functionally configured to allow the ticagrelor to realize an extended release out of the core upon contacting an aqueous environment. The dosage form optionally further includes a second ticagrelor-containing drug layer coating the semi-permeable membrane, thereby providing a starting effective dose upon administration. The dosage form can realize once-a-day administration of ticagrelor of patients in need thereof.

The present disclosure relates to oral naproxen sodium tablets comprising roller-compacted granules, methods of preparing thereof, and methods of using thereof. The naproxen sodium tablets are formulated for and prepared by dry granulation methods, specifically roller compaction. The combination of dry granulation compatible excipients with roller compaction methods results m naproxen sodium tablets that exhibit an enhanced dissolution profile and shorter disintegration time as compared to commercially available oral naproxen sodium tablets prepared by standard wet granulation methods.

There is provide an extended release dosage form comprising a release modifying excipient comprising high amylose starch, cross-linked hydroxypropylated amylopectin, and a pre-gelatinized common starch; wherein the release modifying excipient is substantially free of crosslinks between amylose and amylopectin and substantially free of crosslinks between amylose and amylose. It has been found that the extended release properties of conventional cross-linked high amylose starches (e.g., Contramid®) can be reproduced by intimately mixing i) cross-linked chemically modified amylopectin; ii) a high amylose, non-chemically modified starch and; iii) a pre-gelatinized common starch. Producing a release modifying excipient in this way means that no chemical cross linking between (a) amylose and amylopectin or (b) amylose and amylose has occurred—properties heretofore considered vital for Contramid® function. The release modifying excipient blends overcome problems associated with use of Contramid, and provide a flexible platform for formulation of active pharmaceutical ingredients for controlled release applications.

Described herein is a method for forming multi-layer drug dosage forms having at least two layers. In the method, a first formulation comprising a non-gelling matrix forming agent and having a first density is dosed into a preformed mold. A second formulation comprising a non-gelling matrix former and having a second density not equal to the first density is subsequently dosed into the preformed mold. Then, the combination of the formulations dosed into the mold is freeze dried to form the multi-layer dosage form having at least two layers. The use of a density difference between the first and second formulations ensures formation of a product with two distinct layers.