The invention provides methods for reducing the percentage of body fat, increasing the level of adiponectin, and/or treating or reducing the risk of cardiovascular disease (CVD) and coronary heart disease (CHD). Such methods include administering to an animal or human sufficient levels of a compound comprising a tri blend of HPMC (K15, K100, and K200) and myristic fatty acid.

The invention provides methods for reducing the percentage of body fat, increasing the level of adiponectin, and/or treating or reducing the risk of cardiovascular disease (CVD) and coronary heart disease (CHD). Such methods include administering to an animal or human sufficient levels of a compound comprising a tri blend of HPMC (K15, K100, and K200) and myristic fatty acid.

Methods of preparing and administering an injectable depot formulation of crystalline iloperidone are disclosed herein.

Methods of preparing and administering an injectable depot formulation of crystalline iloperidone are disclosed herein.

The present invention provides ophthalmic pharmaceutical compositions of the compound of Formula (I).

##STR(I)##

The present invention provides ophthalmic pharmaceutical compositions of the compound of Formula (I).

##STR(I)##

The present disclosure provides osmotic, floating gastroretentive compositions comprising a multilayer core comprising a pull layer containing liothyronine or a pharmaceutically acceptable salt thereof, an acid, a gas-generating agent, a first osmogen, and at least one water-soluble hydrophilic polymer; and a push layer comprising a polyethylene oxide polymer with an average molecular weight of at least 900,000 Da, and a second osmogen. The composition further comprises a permeable elastic membrane covering at least a portion of the multilayer core and containing at least one orifice in fluid communication with the pull layer. The composition provides sustained release, while maintaining plasma concentration of from 0.5 ng/ml to 3 ng/ml, of liothyronine or a pharmaceutically acceptable salt, for at least 6 hours.

The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.

The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.

A method of preparing a Polygoni Milletii Rhizome tincture includes: preparing a first mixture; extracting the first mixture with 70-90% ethanol under reflux condition to obtain a first extract solution; preparing a second mixture; extracting the second mixture with 50-70% ethanol to obtain a second extract solution; and mixing the first extract solution with the second extract solution to obtain the polygoni milletii rhizome tincture. A method of preparing a Polygoni Milletii Rhizome poultice includes: reparing a Polygoni Milletii Rhizome mixture; mixing the Polygoni Milletii Rhizome mixture and a skin penetration enhancer in water; mixing a moisturizing agent and a binder in water; adding a thickener in water; mixing methylparaben and ethylparaben in 90% ethanol; mixing all solutions to form a mixture; and applying the mixture on a non-woven fabric cloth and drying to form the Polygoni Milletii Rhizome poultice.