Aspects of the present invention are directed to an oral dosage form comprising a core containing one more active ingredients and a fast-release exterior coating. The fast release exterior coating includes a water soluble polymer; a saccharide or sugar alcohol, or a combination thereof, and a flavoring. The flavoring may be a warming sensate that is released in the oral cavity of the user after inserting the dosage form in his or her mouth.

An oral methylphenidate extended release tablet is described, which can be scored and still retain its extended release profile. The tablet contains a combination of an uncoated methylphenidate - ion exchange resin complex, a barrier coated methylphenidate - ion exchange resin complex -matrix, and an uncomplexed methylphenidate active component. Following administration of a single dose of the extended release methylphenidate chewable tablet, a therapeutically effective amount of methylphenidate is reached in less than about 20 minutes and the composition provides a twelve-hour extended release profile.

An oral methylphenidate extended release tablet is described, which can be scored and still retain its extended release profile. The tablet contains a combination of an uncoated methylphenidate - ion exchange resin complex, a barrier coated methylphenidate - ion exchange resin complex -matrix, and an uncomplexed methylphenidate active component. Following administration of a single dose of the extended release methylphenidate chewable tablet, a therapeutically effective amount of methylphenidate is reached in less than about 20 minutes and the composition provides a twelve-hour extended release profile.

A Rifaximin polymorphic mixture of α/β form in a relative ratio of 85/15±3 and a process for its preparation. The polymorphic mixture of Rifaximin is for use as a medicament, in particular in the treatment of traveler's diarrhea and hepatic encephalopathy. A pharmaceutical composition comprises the polymorphic mixture of Rifaximin as active ingredient, in particular, a solid formulation, more in particular, a film coated tablet. A polymorphic form of crude wet rifaximin and of purified wet rifaximin their use are used as intermediates in a process for the preparation of Rifaximin polymorphic mixture of α/β form in a relative ratio of 85/15±3.

A Rifaximin polymorphic mixture of α/β form in a relative ratio of 85/15±3 and a process for its preparation. The polymorphic mixture of Rifaximin is for use as a medicament, in particular in the treatment of traveler's diarrhea and hepatic encephalopathy. A pharmaceutical composition comprises the polymorphic mixture of Rifaximin as active ingredient, in particular, a solid formulation, more in particular, a film coated tablet. A polymorphic form of crude wet rifaximin and of purified wet rifaximin their use are used as intermediates in a process for the preparation of Rifaximin polymorphic mixture of α/β form in a relative ratio of 85/15±3.

The present disclosure relates to the fields of chemistry and medicine, more particularly to processes for making 4-(2-chloro-4-methoxy-5-methylphenyl)-N-[(1S)-2-cyclopropyl-1-(3-fluoro-4-methylphenyl)ethyl]-5-methyl-N-prop-2-ynyl-1,3-thi-azol-2-amine (Compound 1), pharmaceutically acceptable salts, and crystalline forms thereof, for the treatment of congenital adrenal hyperplasia (CAH).

A method for treating influenza is described. The disclosed method generally involves administering an effective amount of a compound, for example baloxavir marboxil, to a subject having influenza, where the compound is administered initially at least about 48 hours after an onset of influenza. Generally, the effective amount is sufficient to alleviate a symptom of influenza in the subject as compared to a symptom that the subject has when the compound is first administered to the subject.

The present invention relates to pharmaceutical compositions and pharmaceutical articles comprising such compositions wherein the compositions comprise multiple dosage forms each comprising a core and an enteric coating, wherein the core comprises at least one compound stimulating enteroendocrine cells to release at least one enterokine, wherein the size of the dosage forms, with respect to the largest dimension of the dosage forms, provides for entry of the dosage forms into the intestine of a subject independent of gastric emptying mechanisms, and wherein the composition further comprises one or more gelling agents. The invention also relates to the treatment and/or prevention of conditions amenable to stimulation of enterokine release by enteroendocrine cells.

Room-temperature stable dosage forms for oral delivery of calcitonin are disclosed herein. Dosage forms for oral delivery of calcitonin with low water content are also disclosed herein. Further disclosed herein are methods for producing such room-temperature stable dosage forms and low-water content dosage forms. Methods of treatment comprising the administration of such room-temperature stable dosage forms and low-water content dosage forms are also disclosed herein.

A dosage form contains a) a core, containing a biologically active ingredient, which is stable to a degree of at least 95% at a pH of 3 for 2 hours at 22° C.; b) an intermediate coating layer (ICL) onto or above the core, containing an alkaline agent; and c) an enteric coating layer (ECL) onto or above the intermediate coating layer, containing an enteric polymer. The relation in percent of the alkaline agent in the ICL to the enteric polymer in the ECL is 5 to 95% when calculated by the formula:

[00001]$\frac{\begin{array}{cc}\mathrm{quantity}\mathrm{of}\mathrm{alkaline}\mathrm{agent}\mathrm{in}\mathrm{grams}\mathrm{in}\mathrm{the}\mathrm{ICL}& \times 100\end{array}}{\left(\mathrm{quantity}\mathrm{of}\mathrm{alkaline}\mathrm{agent}\mathrm{in}\mathrm{grams}\mathrm{in}\mathrm{the}\mathrm{ICL}+\mathrm{quantity}\mathrm{of}\mathrm{enteric}\mathrm{polymer}\mathrm{in}\mathrm{grams}\mathrm{in}\mathrm{the}\mathrm{ECL}\right).}$