A crosslinked polymeric network is disclosed. The crosslinked polymeric network comprises a reaction product of a first glycosaminoglycan, a second glycosaminoglycan, and a crosslinking agent, wherein the first glycosaminoglycan is different than the second glycosaminoglycan.

A biomedical device having a coating on a surface thereof, where the coating includes a glycophospholipid polymer which is a reaction product of one or more glycosaminoglycans and one or more phospholipids.

Provided herein is chitosan-derivative nanoparticle comprising chitosan functionalized with a cationic amino acid and a hydrophilic polyol; and methods of making and using same, e.g., for gene delivery in vivo.

Disclosed is a method for extracting useful substances from shrimp shells. The method comprises: crushing the shrimp shells, mixing the crushed shrimp shells and water, then heating same to 28° C.-35° C., adjusting the pH value to 6.8-7.5, preferably 6.8-7, then adding an alkaline protease and mixing same, heating same to 42° C.-48° C., performing constant-temperature enzymolysis for 50-70 min, and performing sieving to obtain an enzymatic hydrolysate and solid residues; performing centrifugal separation treatment on the enzymatic hydrolysate to obtain a shrimp protein deposit containing astaxanthin; mixing the shrimp protein deposit and water, performing heating while stirring, adjusting the pH value to 6.8-7.0, performing heating to 58° C.-60° C., adding vegetable oil, and performing emulsification for 50-70 min under stirring to obtain an emulsion; and performing centrifugation on the emulsion, and performing delamination to obtain astaxanthin-containing oil in an upper layer, water in a middle layer, and a shrimp protein in a lower layer. The method of the present invention uses waste biomass obtained after shrimps processed as a raw material, and can simultaneously extract several high-value substances, thereby not only improving the utilization rate of the raw material, but also shortening the production cycle; and no organic solvent is added, such that the method is clean, green and environmentally friendly.

An injectable device, comprising a hyaluronic acid-based composition, useful for long lasting facial sculpting and correction of facial features, for example, for augmenting and shaping the profile, including for example, the chin, jawline or the nose, in a human being is provided. Methods of treatment are also provided.

Methods of treating chin retrusion in a subject by increasing a glabella-subnasale-pogonion (G-Sn-Pog) facial angle of the subject are provided, which may include injecting a first volume of a dermal filler into a pogonion, injecting a second volume of a dermal filler into a mentum, and/or injecting a third volume of the dermal filler into a left pre-jowl sulcus and/or a right pre-jowl sulcus, wherein the G-Sn-Pog facial angle of the subject is increased by at least about 1° or more. Methods of treating chin retrusion are provided that may include injecting a first volume of a dermal filler into a pogonion, injecting a second volume of a dermal filler into a mentum, and/or injecting a third volume of the dermal filler into a left pre-jowl sulcus and/or a right pre jowl sulcus, wherein the chin retrusion of the subject is decreased by at least about 2 mm.

The present invention provides alkyl substituted polysaccharide compositions and methods of repairing substrates involving use of the alkyl substituted polysaccharide compositions.

For the isolating of nanocrystals from a lignocellulose- or chitin-containing starting material, the starting material is exposed to an oxidative effect of periodate anions in an aqueous suspension. The pH value of the aqueous suspension is adjusted to greater than pH 7.0. The periodate anions are provided in a quantity of at least 5 mol per kg of the starting material, and the starting material is exposed to the oxidative effect of the periodate anions in the aqueous suspension for a period of at least one day.

The present invention provides a method for producing pentosan polysulfate, the method including a first step of obtaining an acidic xylooligosaccharide from a plant-derived raw material, and a second step of obtaining pentosan polysulfate from the acidic xylooligosaccharide. The first step includes a step of depolymerizing the plant-derived raw material. The second step includes a step of sulfating the acidic xylooligosaccharide. The method further includes a deacetylation step of adding a base to achieve a pH of 11 or higher. The deacetylation step is a step performed after the depolymerization step. The production method of the present invention can provide pentosan polysulfate having a low acetyl group content, and also produce pentosan polysulfate with a high yield inexpensively and efficiently.

A chitin-modified polypropylene spunbond non-woven fabric and a preparation method of the chitin-modified polypropylene spunbond non-woven fabric are provided. The chitin-modified polypropylene spunbond non-woven fabric contains a modified chitin in a weight percentage range of approximately 0.2%-1.5%. The modified chitin includes chitin modified by a modifier including 2-hydroxybenzimidazole, cellulose acetate butyrate, and adipic acid dihydrazide. The chitin-modified polypropylene spunbond non-woven fabric has an anti-mold grade less than 1, and an antibacterial rate greater than 9.5%.