Enzymatically degradable compositions containing biocompatible polymers reactive with glycosaminoglycan compositions having a first glycosaminoglycan compound having a first degree of acetylation and a second glycosaminoglycan compound having a second degree acetylation different than the first degree of acetylation.

A composition comprising Polyhydroxyurethanes, Glycosaminoglycans, hydrolysed glycosaminoglycans, glycosamines of glycosaminoglycans, chemically modified or not and a Protein or a peptide; said protein being collagen, elastin, keratin, fibronectin, actin, myosin, laminin, a peptide or a blend of those proteins or peptides, fibrillated, hydrolysed, chemically modified or not. This homogenous composition is obtained by the polymerisation or the covalent bounding of two preparations containing cyclic polycarbonates, polyamines, glycosaminoglycans, hydrolysed glycosaminoglycans, glycosamines, chemically modified or not and proteins or peptides or a blend of those proteins or peptides, fibrillated, hydrolysed, chemically modified or not.

A composition comprising Polyhydroxyurethanes, Glycosaminoglycans, hydrolysed glycosaminoglycans, glycosamines of glycosaminoglycans, chemically modified or not and a Protein or a peptide; said protein being collagen, elastin, keratin, fibronectin, actin, myosin, laminin, a peptide or a blend of those proteins or peptides, fibrillated, hydrolysed, chemically modified or not. This homogenous composition is obtained by the polymerisation or the covalent bounding of two preparations containing cyclic polycarbonates, polyamines, glycosaminoglycans, hydrolysed glycosaminoglycans, glycosamines, chemically modified or not and proteins or peptides or a blend of those proteins or peptides, fibrillated, hydrolysed, chemically modified or not.

Abstract: Provided herein are methods of producing heparin and heparan sulfate from modified cells, such as modified MST cells and modified basophil neoplastic cells, and compositions comprising heparin and heparan sulfate isolated from modified cells. In some embodiments, methods herein comprise culturing a genetically modified cell line comprising at least one of a mastocytoma cell line and a basophil neoplastic cell line; and isolating the heparin or heparan sulfate from the cell line.

Various embodiments of the present invention include a cannula coated or compounded with a material to extend the wear time for a patient by reducing inflammation and therefore increasing the time that the cannula may remain inserted, thereby increasing the effectiveness of the drug delivered using the cannula. The material may include a hydrophilic material, an anti-microbial material, an anti-inflammatory material, anti-thrombogenic material, or a combination of any of these materials.

Various embodiments of the present invention include a cannula coated or compounded with a material to extend the wear time for a patient by reducing inflammation and therefore increasing the time that the cannula may remain inserted, thereby increasing the effectiveness of the drug delivered using the cannula. The material may include a hydrophilic material, an anti-microbial material, an anti-inflammatory material, anti-thrombogenic material, or a combination of any of these materials.

Affinity purification of fibroblast growth factor 2-binding heparan sulphate from porcine mucosa (HS8) is disclosed. Also disclosed is the use of HS8 in repair and regeneration of the skin for treating wounds, burns, ulcers and other skin injuries.

Affinity purification of fibroblast growth factor 2-binding heparan sulphate from porcine mucosa (HS8) is disclosed. Also disclosed is the use of HS8 in repair and regeneration of the skin for treating wounds, burns, ulcers and other skin injuries.

A novel monomer design for the synthesis of PPE-type polymers containing conjugated segments of well-defined length connected by flexible linkers under Sonogashira reaction conditions is presented. The resulting polymers retain the photophysical properties of a fully conjugated PPE. The extent of incorporation of the flexible units along the backbone is governed by the comonomer feed ratio and can be varied in a statistically predictable fashion.

A novel monomer design for the synthesis of PPE-type polymers containing conjugated segments of well-defined length connected by flexible linkers under Sonogashira reaction conditions is presented. The resulting polymers retain the photophysical properties of a fully conjugated PPE. The extent of incorporation of the flexible units along the backbone is governed by the comonomer feed ratio and can be varied in a statistically predictable fashion.