The present invention relates to antimicrobial formulations. More particularly, the invention relates to monovalent copper-containing and/or monovalent copper-generating products for healing wounds and burns, and particularly for chronic wounds, prevention of wound infections and infections in various implants as well as medical/surgical devices.

The present invention relates to antimicrobial formulations. More particularly, the invention relates to monovalent copper-containing and/or monovalent copper-generating products for healing wounds and burns, and particularly for chronic wounds, prevention of wound infections and infections in various implants as well as medical/surgical devices.

Disclosed herein is a transdermal delivery system comprising galantamine or its salt as an active ingredient. Also provided are methods of delivering a therapeutically effective amount of galantamine to a subject for the treatment of a disease condition. The disease condition includes a neurological condition such as Alzheimer's disease. Kits including the transdermal delivery system and methods of making such delivery system are also provided.

Disclosed herein is a transdermal delivery system comprising galantamine or its salt as an active ingredient. Also provided are methods of delivering a therapeutically effective amount of galantamine to a subject for the treatment of a disease condition. The disease condition includes a neurological condition such as Alzheimer's disease. Kits including the transdermal delivery system and methods of making such delivery system are also provided.

This invention relates to pharmaceutical formulations of gemcitabine-[phenyl-benzoxy-L-alaninyl)]-phosphate, a monophosphate derivative of the well-known oncology drug gemcitabine. In particular, the invention relates to formulations which comprise a polar aprotic solvent, preferably dimethyl acetamide (DMA). Formulations comprising these solvent provide therapeutically effective treatments of gemcitabine-[phenyl-benzoxy-L-alaninyl)]-phosphate. The invention also relates to methods of using said formulations and kits comprising said formulations.

This invention relates to pharmaceutical formulations of gemcitabine-[phenyl-benzoxy-L-alaninyl)]-phosphate, a monophosphate derivative of the well-known oncology drug gemcitabine. In particular, the invention relates to formulations which comprise a polar aprotic solvent, preferably dimethyl acetamide (DMA). Formulations comprising these solvent provide therapeutically effective treatments of gemcitabine-[phenyl-benzoxy-L-alaninyl)]-phosphate. The invention also relates to methods of using said formulations and kits comprising said formulations.

Provided herein are poly-1-hydroxymethylethylene hydroxymethyl formal (PHF)-based drug delivery systems. Also disclosed are methods of making antibody-drug conjugates and methods of treatment using these conjugates.

Provided herein are poly-1-hydroxymethylethylene hydroxymethyl formal (PHF)-based drug delivery systems. Also disclosed are methods of making antibody-drug conjugates and methods of treatment using these conjugates.

Composite materials, specifically to materials used in medicine, in particular, in ophthalmology for the manufacturing of optical ophthalmic implants, mainly intraocular lenses (IOL), intended for vision correction after cataract removal. The polymerization rate of the material is controlled in order to eliminate defects in the ophthalmic implant profile, control the geometric dimensions, reduce the finished product glistening while keeping optimal physical and mechanical properties. The material for the manufacturing of ophthalmic implants by photo-polymerization method includes: a) 60-70 wt. % oligomer of urethanedi(meth)acrylate with terminal (meth)acrylate fragments; b) 20-40 wt. % of (meth)acrylate monomers with aromatic substituents in the side chain; c) 5-25 wt. % of (meth)acrylate monomers with aliphatic branched substituents in the side chain; d) at least 0.2 wt. % of a UV-absorbing component; e) 0.1 to 1 wt. % of photopolymerization initiator; and f) 0.005 to 0.5 wt. % of a radical polymerization inhibitor.

The present invention relates to compositions, in particular dietary compositions, that comprise a combination of choline cation and succinate anion (2−) and nicotinamide, and use of these compositions for maintaining and enhancing the brain energy metabolism in a human, and for preventing and treating symptoms and physiological conditions associated with an imbalanced, damaged or slowed brain energy metabolism in a human subject.