The present invention relates to a starch-free soft chew formulation for oral delivery of at least one active ingredient to an animal, and a starch-free soft chew containing the formulation and at least one active ingredient. The starch-free soft chew includes one or more active ingredients and excipients, such as a bulking agent, a flavoring agent, a humectant, a preservative, an antioxidant, and a lubricant, but no added water. In addition, the invention relates to a composition of starch-free, non-water excipients for use in the final dosage form of a soft chew for oral administration of at least one active ingredient to an animal. Also provided are processes for making the starch-free soft chew formulation and the starch-free soft chew.

One of the problems of one embodiment of the present invention is to provide film-coated granules which have a new film constitution. Alternatively, one of the problems of one embodiment of the present invention is to provide a pharmaceutical preparation containing the film-coated granules which have a new film constitution. Alternatively, one of the problems of one embodiment of the present invention is to provide a new dry manufacturing method of the film-coated granules. Alternatively, one of the problems of one embodiment of the present invention is to provide a new dry manufacturing method of the pharmaceutical preparation containing the film-coated granules. According to one embodiment of the present invention, a film-coated granule is provided that comprises a core particle having a melt component, and a film arranged on a surface of the core particle, wherein the film includes a porous substance, a plasticizer and a polymer.

The present invention provides methods for preventing, inhibiting or treating a surgical site infection associated with a surgical operation comprising the step of applying to the surgical site a biocompatible, biodegradable substrate being impregnated and/or having its surface coated fully or partially with a matrix composition which provides local controlled and prolonged release of at least one pharmaceutically active agent at the surgical site.

A method for using treated biochar to reduce the overall environmental impact of farming and minimize the carbon footprint of farms is provided. The method comprising engaging in one or more of the following practices: (1) combining treated biochar with feed or using biochar as feed for animals to reduce methane from enteric fermentation and increase animal health and nutrition; (2) combining treated biochar with compost, animal bedding or manure piles to reduce odor and increase nutrient retention; (3) applying treated biochar to lagoons to reduce odor and treat water; (4) applying treated biochar to pastures to increase pasture health; (5) applying treated biochar to crops to increase crop productivity, healthier roots and prevent fertilizer leaching; and (6) using the carbon negativity of a produced biochar to reduce the overall farm or ranch carbon footprint.

Healthcare formulations, including, inventive surfactants, Active ingredient formulated as solids, liquids, or emulsions. The present disclosure provides formulations of healthcare products, such as: prescription drugs, over the counter drugs; minerals, herbal, and/or vitamin supplements; drugs administered in hospitals, clinics, physician's office, and places of palliative care; vaccines, tissue, organ, and cell transplants and/or grafts and/or infusions; and wound care formulations including topical ointments, lotions, cleaners, wipes, bandages, and dressings. The Active may be included in the formulations as a solute, a solvent, a particle, or an oil immiscible component of the formulation. The Active may be included in tablets, capsules, tinctures, liquids, or emulsions. Inventive healthcare formulations include formulations suitable for administration orally, topically, and/or by injection.

Multiparticulate compositions including an active agent and a gelling agent are disclosed. The multiparticulate compositions are prepared by an aqueous-based spray and congeal process.

This document discloses a powder formulation of tadalafil for oral administration. Also disclosed are a method of preparing the powder formulation, a suspension dosage form of tadalafil and a method of treating diseases.

An abuse deterrent pharmaceutical composition including a drug susceptible to abuse, a first acid soluble ingredient, a first buffering ingredient, and a delayed release buffering component.

A method for treating an influenza virus infection is described. The disclosed method generally involves administering an effective amount of a compound, for example baloxavir marboxil, to a subject having an influenza virus infection and at least one complication risk factor. Generally, the amount is effective such that a reduction in a time to improvement of at leat one symptom of an influenza virus infection is statistically significant as compared to that of a non-treated subject.

A method for fabricating an oral drug delivery system includes steps as follows. A mixture is provided, which includes an organic ligand, a metal ion, a biological macromolecule and water. A coating step is performed for forming a biomimetic mineralized carrier encapsulated the biological macromolecule having a surface with the positive charge. A first solution including the biomimetic mineralized carrier is provided. A second solution including a yeast capsule is provided, wherein the yeast capsule has a surface with the negative charge. A loading step is performing, wherein the first solution is mixed with the second solution and then shaken for a shaking time, and the biomimetic mineralized carrier is loaded into the yeast capsule by an electrostatic force to form the oral drug delivery system.