The present invention provides anti-thrombogenic compositions, including anti-thrombogenic vascular grafts. In certain embodiments, the compositions comprise decellularized tissue coated with an anti-thrombogenic coating. The present invention also provides methods of preparing anti-thrombogenic compositions and methods of treatment comprising implanting the anti-thrombogenic compositions into a subject in need thereof.

There is described inter alia a medical device having a surface which comprises a coating layer, said coating layer being a biocompatible composition comprising an anti-coagulant entity capable of interacting with mammalian blood to prevent coagulation or thrombus formation, which anti-coagulant entity is covalently attached to said surface through a linker comprising a thioether.

The present invention provides anti-thrombogenic compositions, including anti-thrombogenic vascular grafts. In certain embodiments, the compositions comprise decellularized tissue coated with an anti-thrombogenic coating. The present invention also provides methods of preparing anti-thrombogenic compositions and methods of treatment comprising implanting the anti-thrombogenic compositions into a subject in need thereof.

There is described inter alia a medical device having a surface which comprises a coating layer, said coating layer being a biocompatible composition comprising an anti-coagulant entity capable of interacting with mammalian blood to prevent coagulation or thrombus formation, which anti-coagulant entity is covalently attached to said surface through a linker comprising a thioether.

An antithrombogenic material includes a coating material containing: a cationic polymer containing, as a constituent monomer, a compound selected from the group consisting of alkyleneimines, vinylamines, allylamines, lysine, protamine, and diallyldimethylammonium chloride; and an anionic compound containing a sulfur atom and having anticoagulant activity; and a base material whose surface is coated with the coating material; wherein the cationic polymer is covalently bound to the base material; the anionic compound containing a sulfur atom and having anticoagulant activity is immobilized on the surface of the base material by ionic bonding to the cationic polymer; and the average thickness of the coating material is 15 to 400 nm.

An antithrombogenic material includes a coating material containing: a cationic polymer containing, as a constituent monomer, a compound selected from the group consisting of alkyleneimines, vinylamines, allylamines, lysine, protamine, and diallyldimethylammonium chloride; and an anionic compound containing a sulfur atom and having anticoagulant activity; and a base material whose surface is coated with the coating material; wherein the cationic polymer is covalently bound to the base material; the anionic compound containing a sulfur atom and having anticoagulant activity is immobilized on the surface of the base material by ionic bonding to the cationic polymer; and the average thickness of the coating material is 15 to 400 nm.

A method of treating a tubular medical device with a biomolecule comprises the steps of: a) providing a polyolefin tubular substrate forming a tubular medical device; b) cleaning the tubular polyolefin substrate; c) exposing the tubular polyolefin substrate to a reactive gas containing at least one of acrylic acid and siloxane and to plasma energy to yield a plasma-deposited coating on at least one surface of the tubular polyolefin substrate; and d) attaching a biomolecule to the polyolefin substrate following formation of the plasma-deposited coating on at least one surface of the tubular polyolefin substrate, and wherein the biomolecule is at least one of an antibacterial agent, antimicrobial agent, anticoagulant, heparin, antithrombotic agent, platelet agent, anti-inflammatory, enzyme, catalyst, hormone, growth factor, drug, vitamin, antibody, antigen, protein, nucleic acid, dye, a DNA segment, an RNA segment, protein, and peptide.

The invention concerns polyurethane (PUR) having an antithrombogenic coating, wherein the antithrombogenic coating comprises at least one antithrombogenic substance covalently bound to a surface of the PUR via at least two bonds, wherein a first of said bonds is an amide bond between the surface of the PUR and a polyethyleneimine (PEI) and a second of said bonds is between the PEI and the antithrombogenic substance, wherein the surface of the PUR had been activated by use of a carbon dioxide plasma or a plasma modified by addition of carbon dioxide before the first of said bonds was formed.

The present invention is directed to materials compatible with blood, implantable devices comprising said material, methods of preparation of such material and medical devices coated therewith and uses thereof for anti-thrombotic and/or cell-proliferating aspects.

The present invention is directed to materials compatible with blood, implantable devices comprising said material, methods of preparation of such material and medical devices coated therewith and uses thereof for anti-thrombotic and/or cell-proliferating aspects.