A method of treating a gastrointestinal disorder includes administering to a patient an effective amount of a multiparticulate dosage form including a plurality of individual spheroidal enteric coated cores having a diameter of 0.1 mm to 3 mm. The individual spheroidal enteric coated cores have (a) a core including menthol, (b) a proteinaceous subcoating over the core, and (c) an enteric coating over the proteinaceous subcoating. The multiparticulate dosage form is configured to release most of the menthol in the area of the GI tract where the inflammation is occurring.

Provided are pharmaceutical compositions and methods for preparing pharmaceutical compositions that preserve the coating of coated API particles in a pharmaceutical suspension. Pharmaceutical compositions include coated active pharmaceutical ingredient (API) particles comprising: an API particle; a first coating comprising one or more deformed components coating the API particle; a second coating comprising silica surrounding and/or partially or fully embedded into the first coating, a matrix former, and a structure former.

Disclosed herein are immediate release oral dosage forms that contain abuse-deterrent and abuse-resistant features. In particular, the disclosed dosage forms can provide deterrence of abuse by ingestion of multiple individual doses. The disclosed dosage forms can likewise provide protection from overdose in the event of accidental or intentional ingestion of multiple individual doses. The dosage forms may also exhibit abuse resistant properties when physically manipulated, and also when physically manipulated and then administered in a manner not consistent with oral dosing. The dosage forms may also exhibit abuse resistant properties when administered in a manner intended to result in administration of the esketamine in a higher than therapeutic dose.

Provided herein are methods of treating or ameliorating a pediatric cholestatic liver disease by non-systemically administering to an individual in need thereof a therapeutically effective amount of a pediatric formulation comprising an Apical Sodium-dependent Bile Acid Transporter Inhibitor (ASBTI) or a pharmaceutically acceptable salt thereof. Also provided are methods for treating or ameliorating a pediatric liver disease, decreasing the levels of serum bile acids or hepatic bile acids, treating or ameliorating pruritis, reducing liver enzymes, or reducing bilirubin comprising non-systemically administering to an individual in need thereof a therapeutically effective amount of a pediatric formulation comprising an ASBTI or a pharmaceutically acceptable salt thereof.

Phenylephrine particles suitable for solid, semi solid or liquid dosage forms are disclosed.

Pharmaceutical formulation dosage form (1) with a core (2) encapsulated by at least one shell (3) and comprising at least one active pharmaceutical ingredient (4), wherein the at least one active pharmaceutical ingredient (4) is embedded in said core (2) of the pharmaceutical formulation dosage form (1), preferably in that said core (2) is formed by a matrix based on xyloglucan (5) containing said active pharmaceutical ingredient (4), and wherein said shell (3) is a pH-responsive coating.

A unit multiparticulate dosage form for delivering one or more basic, active pharmaceutical ingredients into the body in need of such medications to achieve target PK (pharmacokinetics) profiles is described. The dosage form comprises one or more multicoated drug particles (beads, pellets, mini-/micro-tablets) having a barrier coating and a lag-time coating. Each Timed Pulsatile Release (TPR) bead population exhibits pre-determined lag-time followed by differing release characteristics. The composition and thickness of the barrier coating, composition and thickness of the lag-time coating, ratio of IR beads to one or more TPR bead populations and total dose may be varied depending on the alkalinity, pH-dependent solubility and elimination half-life of the active ingredients to achieve target PK profiles (suitable for a once or twice daily dosing regimen) in patients in need of such medications.

Provided are pharmaceutical compositions and methods for preparing pharmaceutical compositions comprising Ibuprofen using solventless mixing methods. Excess coating material that is not bound to coated Ibuprofen may be removed by a sieving process. Coating and dosing ratios can also be optimized to minimize the amount of excess unbound coating material. Additionally, the compositions can be formulated to preserve the functional coating of coated Ibuprofen and to minimize aeration of Ibuprofen when mixed into suspension.

The invention relates to an oral pharmaceutical composition comprising coated particles of a complex of at least one active agent with an ion-exchange resin, wherein said particles are coated with a bioadhesive coating layer comprising at least one bioadhesive material. The invention also relates to a process for preparing the oral pharmaceutical composition.

A method for treating depression in patients with depression and bipolar disorder who have not responded to antidepressants and to avoid dose dumping upon ingestion of alcohol. The present invention also relates to an oral dosage form for administration of ketamine and a method of preparing an oral dosage form for administration of ketamine, preferably once or twice a day.