Provided are pharmaceutical compositions and methods for preparing pharmaceutical compositions comprising coated API. Excess coating material that is not bound to coated API 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 API and to minimize aeration of API when mixed into suspension.

Embodiments of the present disclosure provide novel compositions, methods of use and methods for single composition, multi-dose, thermostable vaccine formulations. In certain embodiments, the present disclosure provides compositions and methods for dehydrating immunogenic agents in the presence of glass-forming agents, and coating the particles formed by the glass-forming agents. In other embodiments, the present disclosure provides for generating compositions for administering an immunogenic composition to a subject multiple times using a single immunogenic composition capable of time-release administration. In other embodiments, single-dose immunogenic agent-containing particles can be directed to two or more pathogens. In other embodiments, incompatible immunogenic agents against two or more different pathogens of immunogenic agent-containing particles disclosed herein can be mixed together and coated for timed-release administration to produce single-administration formulations capable of eliciting an immune response to the two or more pathogens in a subject.

Disclosed herein are methods of delivering drugs to a subject in a controlled release fashion by administering a magneto-electric nanoparticle having ionic bonds to a drug then applying a magnetic field to weaken the ionic bonds and release the drug.

The present invention provides novel derivative of β-lactam antibiotics, such as meropenem. The inventive compounds include compounds of Formula (I), and pharmaceutically acceptable salts, solvates, hydrates, polymorphs, co-crystals, tautomers, stereoisomers, isotopically labeled derivatives, and prodrugs thereof. Also provided are particles (e.g., nanoparticles) and pharmaceutical compositions thereof that are mucus penetrating. The inventive particles and pharmaceutical compositions may be useful in delivering an inventive compound to the respiratory tract of a subject. The invention further provides methods of using and kits including the inventive compounds, particles thereof, and/or pharmaceutical compositions thereof for treating and/or preventing a pulmonary disease (e.g., a respiratory tract infection). ##STR00001##

Oral medicament comprising an osmotic laxative incorporated into a matrix based on plant fats. The present invention relates to an oral pharmaceutical composition comprising: between 30 and 55% by weight of said pharmaceutical composition of micronized anhydrous macrogol; and between 45 and 70% by weight of the pharmaceutical composition of a carrier consisting of an anhydrous hydrophobic lipid coating based on fatty compounds of plant origin, having a melting point of between 36 and 38° C., and to the use thereof as laxative. Said composition enables the reduction in the daily dosage of macrogol by preserving the osmotic pressure thereof as far as the colon, the site of therapeutic action of osmotic laxatives; said carrier protects the macrogol from a reduction, due to the moisture in the digestive tract, in the osmotic pressure.

Metallic copper fine particles coated with a fatty acid and an ester compound. Also disclosed is an antiviral agent containing the metallic copper fine particles and a method for producing the metallic copper fine particles.

Microparticles or granules intended for use in the zootechnical field, constituted by a core which contains a substance having a pharmacological action, a food supplement or a diagnostic medium, intimately mixed or adsorbed with a hydrated silicate of magnesium, aluminum, calcium and sodium (smectite, montmorillonite or bentonite); the core is coated with a double fatty layer constituted by two fats or waxes, of which the one having the highest melting point constitutes the inner layer while the one having the lowest melting point is arranged so as to form the outer layer. The ability to control release effectively and accordingly reduce rumen degradation of active substances which contain a cationic or an anionic chemical function, such as for example choline chloride lysine hydrochloride, calcium chloride, citric acid, ascorbic acid or nicotinic acid is determined by the synergistic action of two phenomena: an interaction between the active substance and the other component of the core, and the barrier effect of the double fat layer. Taken individually, the two phenomena are unable to apply effective control over the release of the active substance.

An enteric-coated bead dosage form of cysteamine, and related methods of manufacture and use, are disclosed.

Gels are formed based on generally recognized as safe (GRAS) low molecular weight amphiphilic molecules in a self-assembly process with limited or no heating. A selective range of ratios between an organic solvent and water, or an aqueous solution, in the medium, allows for the GRAS low molecular weight amphiphiles to form a homogeneous self-supporting gel encapsulating agents to be delivered under very mild conditions. Proteins including enzymes, antibodies, and serum albumin are loaded in the self-assembled gels to provide sustained and/or responsive delivery. The encapsulated proteins retain at least 70%, 80%, or 90% of their activity over days in various storage conditions.

A self-assembled gel composition with enhanced adhesion to cartilage tissue is provided. A cationic agent co-self assembles with a generally regarded as safe (GRAS), low molecular weight (<2,500 Da) gelator, forming homogeneous self-supporting gel that can encapsulate one or more therapeutic agents for controlled release. The composition adheres to connective tissue, e.g., cartilage, to a greater extent and a greater length of time than a self-assembled gel from gelators alone. The composition is used to specifically target connective tissue and deliver one or more therapeutic, prophylactic, or diagnostic agents for controlled release to improve dosing efficacy.