The present invention is directed to PVP-I formulations having enhanced virucidal activity. The formulations are intended for topical administration for treatment and/or decreased risk of microbial infections in subjects. The formulations include PVP-I and other ingredients selected to enhance the virucidal activity of the formulation over PVP-I alone.

The present invention is directed to PVP-I formulations having enhanced virucidal activity. The formulations are intended for topical administration for treatment and/or decreased risk of microbial infections in subjects. The formulations include PVP-I and other ingredients selected to enhance the virucidal activity of the formulation over PVP-I alone.

A malleable polysaccharide soft tissue filler for filling tissue cavities or voids such as those resulting from tumor removal or other tissue resection. The soft tissue filler includes a first cross-linking polysaccharide, preferably a beta-D glucan and a second cross-linking polysaccharide. The soft tissue filler is both porous and malleable and can be formed to accommodate the tissue cavity or void. The soft tissue filler can include an embedded marker for locating on medical imaging. Methods of making the soft tissue filler including lyophilizing an aqueous polysaccharide suspension are disclosed. The second cross-linking polysaccharide provides for increased structural integrity in a high-porosity and malleable soft tissue filler in which the respective cross-linking polysaccharides synergistically provide structural scaffolding for one another. Methods of use are also disclosed.

A malleable polysaccharide soft tissue filler for filling tissue cavities or voids such as those resulting from tumor removal or other tissue resection. The soft tissue filler includes a first cross-linking polysaccharide, preferably a beta-D glucan and a second cross-linking polysaccharide. The soft tissue filler is both porous and malleable and can be formed to accommodate the tissue cavity or void. The soft tissue filler can include an embedded marker for locating on medical imaging. Methods of making the soft tissue filler including lyophilizing an aqueous polysaccharide suspension are disclosed. The second cross-linking polysaccharide provides for increased structural integrity in a high-porosity and malleable soft tissue filler in which the respective cross-linking polysaccharides synergistically provide structural scaffolding for one another. Methods of use are also disclosed.

A method of treating a subject having a musculoskeletal disorder includes administering to a subject's articular site in need thereof an effective amount of a hyaluronic acid (HA) composition. In one embodiment, the HA composition includes an HA derivative, wherein carboxyl functionalities of the hyaluronic acid derivative are each independently derivatized to include an N-acylurea or O-acyl isourea, or both N-acylurea and O-acyl isourea. In another embodiment, the HA composition includes a crosslinked HA gel that is prepared by reacting an uncrosslinked HA with a biscarbodiimide in the presence of pH buffer in a range of between about 4 and about 8. The composite can optionally include at least one second bioactive agent other than the HA derivative, such as a steroid.

A method of treating a subject having a musculoskeletal disorder includes administering to a subject's articular site in need thereof an effective amount of a hyaluronic acid (HA) composition. In one embodiment, the HA composition includes an HA derivative, wherein carboxyl functionalities of the hyaluronic acid derivative are each independently derivatized to include an N-acylurea or O-acyl isourea, or both N-acylurea and O-acyl isourea. In another embodiment, the HA composition includes a crosslinked HA gel that is prepared by reacting an uncrosslinked HA with a biscarbodiimide in the presence of pH buffer in a range of between about 4 and about 8. The composite can optionally include at least one second bioactive agent other than the HA derivative, such as a steroid.

The present invention relates to a preparation method for various novel fucosyl oligosaccharides and a use thereof. More specifically, the present invention allows a preparation of various novel fucosyl oligosaccharides through an enzymatic reaction with α-1,2-fucosyltransferase using a GDP-L-fucose donor and various glucose acceptors and an establishment of probiotic characteristics thereof, and thus has an effect of providing uses as materials for medicines, food, cosmetic products, and the like.

The present invention relates to a preparation method for various novel fucosyl oligosaccharides and a use thereof. More specifically, the present invention allows a preparation of various novel fucosyl oligosaccharides through an enzymatic reaction with α-1,2-fucosyltransferase using a GDP-L-fucose donor and various glucose acceptors and an establishment of probiotic characteristics thereof, and thus has an effect of providing uses as materials for medicines, food, cosmetic products, and the like.

The present invention relates to a use of agar-derived oligosaccharides for inhibiting the growth of Staphylococcus. More specifically, the present invention provides, as a material for medicine, food, cosmetics and the like, a use of agar-derived agarooligosaccharides, agarobiose or AHG, which have an effect of inhibiting the growth of Staphylococcus or killing the same.

The present invention relates to a use of agar-derived oligosaccharides for inhibiting the growth of Staphylococcus. More specifically, the present invention provides, as a material for medicine, food, cosmetics and the like, a use of agar-derived agarooligosaccharides, agarobiose or AHG, which have an effect of inhibiting the growth of Staphylococcus or killing the same.