The present invention relates to pharmaceutical formulations comprising xanthine or xanthine derivatives, kits thereof, and methods for treating fibrotic diseases by local administration.

The present invention provides novel, stable lipid particles having a non-lamellar structure and comprising one or more active agents or therapeutic agents, methods of making such lipid particles, and methods of delivering and/or administering such lipid particles. More particularly, the present invention provides stable nucleic acid-lipid particles (SNALP) that have a non-lamellar structure and that comprise a nucleic acid (such as one or more interfering RNA), methods of making the SNALP, and methods of delivering and/or administering the SNALP.

A method is disclosed for making a pharmaceutical composition for pulmonary administration comprising co-jet milling glycopyrrolate and magnesium stearate, wherein the co-jet milled glycopyrrolate and magnesium stearate is then subjected to a conditioning step which includes exposure of the co-jet milled glycopyrrolate and magnesium stearate to humidity. A composition made by this method is also disclosed.

The invention provides ingestible particles comprising a water-swellable or water-soluble polymeric component, a lipid component, and optionally an amino acid, a vitamin and/or a micro-nutrient. The polymeric component may be embedded in the lipid component. The particle may further comprise an inert core and/or an outer layer which rapidly disintegrates after oral ingestion. The invention further provides methods for preparing the ingestible particles and uses thereof.

A coated fine particle comprisisng: (i) a complex of a drug and a cationic lipid, wherein (a) the drug is a nucleic acid and the complex is obtained by mixing the drug and the cationic lipid in water, wherein the complex has a diameter of 10 nm to 1,000 nm, and (ii) a lipid layer formed of lipid(s), wherein the lipid(s) is selected from phospholipid, glyceroglycolipid, sphingoglycolipid, cholesterol and synthetic lipid, wherein the complex is coated with the lipid layer.

Provided are a nanoliposome-microbubble conjugate in which a drug for hair loss treatment such as finasteride, minoxidil, dutasteride, etc. is encapsulated in a nanoliposome and a composition for alleviating or treating hair loss containing the same. Since an orally administered agent such as finasteride, currently useful as a drug for hair loss treatment, causes side effects, drug delivery through scalp application is most desirable, but the drug is not delivered to hair follicle cells through scalp application alone. Since a drug for hair loss treatment useful as an external preparation for skin causes various side effects, the concentration thereof that is used needs to be further lowered. The above nanoliposome-microbubble conjugate is capable of increasing the delivery efficiency of a drug for hair loss treatment at a low concentration, and is thus very effective at treating androgenic alopecia.

The invention relates to a method for production of concentrates of water-soluble active agents, wherein, in a waterless method using solid active agents as starting materials, the crystals of an active agent are uniformly distributed in a first organic solvent to which a dispersing agent is added, the viscosity of the solution thus obtained is adjusted as applicable by a suitable auxiliary agent, a polymer creator is added to the solution thus obtained, in a second organic solvent as applicable, wherein the viscosity of either the solution to be added or the solution to be obtained is adjusted by the addition of a suitable auxiliary agent, and a crosslinking agent having at least two functional groups in a third organic solvent is given to the obtained solution, wherein the viscosity of either the added or obtained solution is in turn adjusted by the addition of a suitable auxiliary agent and the polymer creator is selected from the group comprising low-viscosity polymethylene-polyphenylisocyanate, preferably having an average NCO content of 25-35, particularly preferably 30-32%, and mixtures thereof.

The present invention provides an oral pharmaceutical composition and a usage thereof, comprising a pharmaceutically acceptable acidic medicinal auxiliary material whose surface is modified and dabigatran etexilate or pharmaceutically acceptable salts or aquo-complexes thereof. The present invention further provides a surface modification method for a medicinal auxiliary material.

The present invention relates to a rumen-resistant composition in the form of microgranules, a process for its production and a feedstuff containing such composition.

The present invention provides an improved process for lipid nanoparticle formulation and mRNA encapsulation. In some embodiments, the present invention provides a process of encapsulating messenger RNA (mRNA) in lipid nanoparticles comprising a step of mixing a mRNA solution and a lipid solution, wherein the mRNA solution and/or the lipid solution are at a pre-determined temperature greater than ambient temperature.