The invention pertains to a method for treating a neoplasm, such as colorectal cancer, using hollow silica spheres (“HSS”). It also is directed to a method for making uncalcined HSS, calcined HSS from which phenyl groups have been removed, and HSS incorporating particles of Fe.sub.3O.sub.4, as well as compositions containing HSS.

The present invention provides parenteral pharmaceutical compositions comprising therapeutically effective amounts of semaglutide or pharmaceutically acceptable salts thereof, the parenteral pharmaceutical compositions are formulated in depot form and provide low-burst release and a continued release profile. The present invention further provides methods of use of the parenteral pharmaceutical compositions for treating type-2 diabetes mellitus, obesity, and Parkinson's disease.

Disclosed compositions comprise a therapeutic agent and a carrier selected, or processed to have, an acceptable composite flow index, a granular particle size of 18 mesh to 80 mesh, or both, such as processed granular wheat middlings. The composition may also comprise an oil and/or micro tracers. Suitable granular wheat middlings may have a size range of from 18 mesh to 80 mesh, such as 20 mesh to 80 mesh. The composition has improved flowability characteristics, compared to a composition where the carrier, such as processed wheat middlings, are powdered and/or flakey. Certain embodiments concern a composition comprising, consisting essentially of, or consisting of, nicarbazin, granular wheat middlings, soybean oil and micro tracers. The composition may be administered to an animal, for example, to treat or prevent coccidiosis. Also disclosed herein are methods for making and using the composition.

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.

Provided is a manufacturing method of particles coated with coatable microparticles. The method is a manufacturing method of particles coated with coatable microparticles, comprising the step of adding the coatable microparticles to an inner core comprising a component of interest and a macromolecule, and, while rolling the mixture, coating the mixture while spraying a solvent that can dissolve the macromolecule, wherein the particles coated with the coatable microparticles are coated, component of interest-containing hollow particles.

Formulations of mazindol having superior stability and methods of administering same are provided. The formulations may be immediate, enhanced, or otherwise delayed release formulations of mazindol.

The present invention relates in one aspect to the discovery of novel mesoporous silica nanoparticles (MSNs) templated around and comprising benzalkonium chloride (BAC). In certain embodiments, the BAC-SiO.sub.2 mesoporous nanoparticles are capable of sustained release of BAC under acidic conditions, thereby acting as a long release antimicrobial agent. In other embodiments, the BAC-SiO.sub.2 mesoporous nanoparticles can be incorporated into a variety of consumer products as an antimicrobial agent additive, including for example, but not limited to, surgical dressings, bandages, deodorants, soaps, facial cleansers and industrial cleaners.

An insulin formulation and a method of preparing and using same. The insulin preparation includes insulin, oligosaccharide and sodium chloride at a ratio of 1:A:B (w:w:w respectively) with ranges of A and B are 1000-5000 and 10-50, respectively.

Novel biocompatible Fenton-catalytic nano-particulate composites preferably based on nanoparticle (NP)-based catalysts, one or more reducing agents, and one or more peroxide compounds are formulated to take advantage of their ability to stimulate bactericidal as well as anti-tumor immune response by means of eliciting the generation of reactive oxygen species (ROS) in immune cells, in particular, in macrophages. The therapeutic composition can serve as a treatment for wound infections by, but not limited to, Staphylococcus aureus, Pseudomonas aeruginosa, Staphylococcus epidermidis, Klebsiella pneumoniae, and Acinetobacter baumannii, as a wound/lesion dressing that provide an anti-bacterial immune environment for the accelerated wound healing. In a similar principle, the therapeutic composition can serve as a treatment for solid tumors by providing an anti-tumor immune environment that inhibits tumor growth.

Multilayer beads for pharmaceutical use having a drug-in-polymer layer are disclosed. The disclosed multilayer beads for pharmaceutical use have (a) a core particle; (b) an optional barrier layer coated on the surface of the core particle; (c) a drug-in-polymer layer coated on the surface of the core or the barrier layer, (d) an optional sealant layer coated on the surface of the drug-in-polymer layer; and (e) optionally one or more outer layers external to the drug-in-polymer layer or the sealant layer. The drug-in-polymer layer consists essentially of (i) a drug selected from the group consisting of a 15-keto prostaglandin drug, a 13,14-dihydro prostaglandin drug, and a 13,14-dihydro-15-keto prostaglandin drug; and (ii) a polymer selected from the group consisting of polyvinylpyrrolidone, vinylpyrrolidone-vinylacetate copolymer or a mixture thereof. The drug-in-polymer layer may be solid dispersion of the drug in the polymer. Pharmaceutical compositions comprising a plurality of multilayer beads and a pharmaceutically acceptable excipient and methods of treating a gastrointestinal disorder are also disclosed.