A method of forming an implantable article includes providing a biodegradable polymer including anti-thrombogenic groups along the length of the biodegradable polymer, biodegradable groups in the backbone of the biodegradable polymer and a plurality of functional groups adapted to react with reactive functional groups on a surface of the implantable article, and reacting at least a portion of the plurality of functional groups with the reactive functional groups on the surface of the implantable article.

There is described inter alia a device having a surface comprising a layered coating wherein the outer coating layer comprises a plurality of cationic hyperbranched polymer molecules characterized by having (i) a core moiety of molecular weight 14-1,000 Da (ii) a total molecular weight of 1,500 to 1,000,000 Da (iii) a ratio of total molecular weight to core moiety molecular weight of at least 80:1 and (iv) functional end groups, whereby one or more of said functional end groups have an anti-coagulant entity covalently attached thereto.

A medical device including: a substrate having a mottled structure containing silicone on a surface of the substrate; and a coating layer containing a polyalkylene glycol on a surface of the substrate.

A medical device including: a substrate having a mottled structure containing silicone on a surface of the substrate; and a coating layer containing a polyalkylene glycol on a surface of the substrate.

Disclosed herein is a medical device, comprising a covalently-bonded heparin coating on a substrate, where the covalently bonded heparin coating is the reaction product of (a) an isocyanate-bearing material on or covalently bonded to the substrate and (b) a heparin molecule selected from one of the formulae in the claims. The current invention also relates to a method of forming the medical device, which may be useful as heart stent or intravascular stent that is hemocompatible for preventing the formation of blood clots.

Medical articles formed from a polyurethane-based resin including an ionically-charged modifier provide enhanced properties. The polyurethane-based resin is a reaction product of ingredients comprising: a diisocyanate; a diol chain extender; a polyglycol; and an anionic modifier incorporated into a backbone, as a side chain, or both of the polyurethane-based resin. Exemplary anionic modifier includes 2,2-bis(hydroxymethyl)butyric acid (BHMBA) and/or bis-1,4-((2-hydroxypropoxy)-2-propoxy)-butane sulfonate sodium salt (SULFADIOL®-7Q). Medical articles herein either have inherent antimicrobial and/or anti-fouling characteristics or can easily bond cationic active agents to provide desirable material properties, including antimicrobial, anti-fouling, and/or radiopacity.

Medical articles formed from a polyurethane-based resin including an ionically-charged modifier provide enhanced properties. The polyurethane-based resin is a reaction product of ingredients comprising: a diisocyanate; a diol chain extender; a polyglycol; and an anionic modifier incorporated into a backbone, as a side chain, or both of the polyurethane-based resin. Exemplary anionic modifier includes 2,2-bis(hydroxymethyl)butyric acid (BHMBA) and/or bis-1,4-((2-hydroxypropoxy)-2-propoxy)-butane sulfonate sodium salt (SULFADIOL®-7Q). Medical articles herein either have inherent antimicrobial and/or anti-fouling characteristics or can easily bond cationic active agents to provide desirable material properties, including antimicrobial, anti-fouling, and/or radiopacity.

Disclosed is an antithrombotic coating composition and a coating method using the same. The composition is highly hydrophilic and biocompatible, thereby enabling a thin and flexible coating layer. The composition is suitably used for coating vascular catheters, stents, guide wires, and other invasive medical devices.

Disclosed is an antithrombotic coating composition and a coating method using the same. The composition is highly hydrophilic and biocompatible, thereby enabling a thin and flexible coating layer. The composition is suitably used for coating vascular catheters, stents, guide wires, and other invasive medical devices.

The present invention provides a composition which is used to form a cured film that is disposed on a medical device and a medical device with a cured film, which are capable of suppressing both the adhesion of platelets and the adhesion of cells. A composition according to the embodiment of the present invention is a composition which is used to form a cured film that is disposed on a medical device, and which contains a compound represented by Formula (1).

##STR00001##