A biomedical device is disclosed. The biomedical device includes a polymerization product of a biomedical device-forming mixture containing (a) one or more grafted glycosaminoglycan polymers including a glycosaminoglycan having a polymer backbone and one or more side chains comprising an ethylenically unsaturated reactive-containing residue grafted onto the polymer backbone, and (b) one or more non-silicone biomedical device-forming monomers.

Disclosed are biocompatible cryogels comprising one or more biomolecules, such as antibodies, protein complexes, enzymes, dna and polysaccharides. Also disclosed are methods of making the cryogels.

The present disclosure relates to disaccharides with defined sulfation patterns, and oligosaccharide mimetics comprising the disaccharides as repeating units linked in a head to tail fashion. The present disclosure further relates to methods of making the same, and to methods of using the same to mediate cell proliferation, cell differentiation, amyloid plaque formation, anti-coagulation, and neuronal growth.

Disclosed herein are substantially pure glycosaminoglycan compositions derived from genetically modified cells.

The present application belongs to the field of life health, and discloses a sugar chain and a composition thereof, and use in the prevention and/or treatment of coronavirus infection. The sugar chain contains any one or more of Neu5Acα2-N.sub.1Gal building blocks, and/or any one or more of xFuc-N.sub.1Gal-N.sub.1(xFuc-N.sub.1)GlcNAc building blocks, at the non-reducing end, where, x=0 or 1, and N.sub.1=1, 2, 3, 4 or 6. A glycosidic bond formed between Neu5Ac and Gal is an α2 glycosidic bond. In the xFuc-N.sub.1Gal-N.sub.1(xFuc-N.sub.1)GlcNAc building blocks, a glycosidic bond formed between any two adjacent monosaccharides is an α1 or β1 glycosidic bond. The specific building block contained at the non-reducing end of the sugar chain blocks the binding of the virus to the host, thereby blocking virus invasion and infection of the respiratory tract/lung, and achieving the specific prevention and treatment.

An object of the present invention is to provide a method for efficiently producing a heparin-like substance without using an animal-derived tissue. The present invention relates to a method for producing a heparin-like substance and the like, the method comprising: (1) preparing a mammalian cell that produces a heparin-like substance, (2) preparing a recombinant cell in which a gene that encodes an extracellular domain of syndecan is introduced into the mammalian cell that produces a heparin-like substance and is prepared in step (1), and (3) culturing the recombinant cell prepared in step (2) in a medium and collecting the heparin-like substance from the resulting culture supernatant.

The present invention relates to a method for preparing a porous scaffold for tissue engineering. It is another object of the present invention to provide a porous scaffold obtainable by the method as above described, and its use for tissue engineering, cell culture and cell delivery. The method of the invention comprises the steps consisting of: a) preparing an alkaline aqueous solution comprising an amount of at least one polysaccharide, an amount of a cross-linking agent and an amount of a porogen agent b) transforming the solution into a hydrogel by placing said solution at a temperature from about 4° C. to about 80° C. for a sufficient time to allow the cross-linking of said amount of polysaccharide and c) submerging said hydrogel into an aqueous solution d) washing the porous scaffold obtained at step c).

The present disclosure relates to synthesis of heparin, which may be bioequivalent to porcine USP Heparin Sodium. The synthesis may involve three intermediates starting from heparosan.

The present application relates to a polymerizable composition comprising: (a) a first monomer of Formula (I): (I) wherein R as described herein and (b) a second monomer of Formula (II): (II) The present application also relates to one or more adsorbent beads produced by polymerizing the polymerizable composition and to a method for heparin recovery using the adsorbent beads.

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The present invention encompasses methods and compositions for generating a biomimetic proteoglycan. The invention includes methods of treating a disease, disorder, or condition of soft tissue using a biomimetic proteoglycan.