An antithrombogenic metallic material includes a metallic material whose surface is coated with a coating material, the coating material containing: a phosphonic acid derivative or a catechol derivative; a 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; the polymer being covalently bound to the phosphonic acid derivative or the catechol derivative, the phosphonic acid derivative or the catechol derivative being bound to the metallic material through a phosphonic acid group or a catechol group thereof, wherein the abundance ratio of nitrogen atoms to the abundance of total atoms as measured by X-ray photoelectron spectroscopy (XPS) on the surface is 4.0 to 13.0 atomic percent.

The present invention relates to the preparation and use of copolymers composed of N-(2-hydroxypropyl) methacrylamide (HPMAA) and carboxybetaine methacrylamide (CBMAA).

The invention further describes polymer brushes having structure I

S-R-polymer (I) wherein S is a substrate; R is a residue of a polymerization initiator or a RAFT agent bound to the substrate; and polymer is the copolymer of N-(2-hydroxypropyl) methacrylamide and carboxybetaine methacrylamide

Furthermore, production of these polymer brushes, containing random or block copolymers grafted to or from a substrate is described.

The copolymer brushes are suitable for protecting substrates from deposition and/or adhesion of biological substances, and/or against thrombus formation. The brushes functionalized by covalent attachment of bioactive substances to CBMAA monomer units are particularly suitable for specific interaction with target biological substances which is not affected by nonspecific deposition of non-target compounds.

The present invention relates to the preparation and use of copolymers composed of N-(2-hydroxypropyl) methacrylamide (HPMAA) and carboxybetaine methacrylamide (CBMAA).

The invention further describes polymer brushes having structure I

S-R-polymer (I) wherein S is a substrate; R is a residue of a polymerization initiator or a RAFT agent bound to the substrate; and polymer is the copolymer of N-(2-hydroxypropyl) methacrylamide and carboxybetaine methacrylamide

Furthermore, production of these polymer brushes, containing random or block copolymers grafted to or from a substrate is described.

The copolymer brushes are suitable for protecting substrates from deposition and/or adhesion of biological substances, and/or against thrombus formation. The brushes functionalized by covalent attachment of bioactive substances to CBMAA monomer units are particularly suitable for specific interaction with target biological substances which is not affected by nonspecific deposition of non-target compounds.

A coating composition comprises an aqueous solution comprising at least one vinyl carboxylic acid monomer and at least one neutral monomer, wherein the at least one neutral monomer has a glass transition temperature of less than about 100? C. in homopolymeric form. A device comprises a protonated polyacrylate coating, wherein the device is inherently antimicrobial, anti-thrombogenic, flexible, and/or sheds few to no particulates.

A self-healing, scratch resistant slippery surface that is manufactured by wicking a chemically-inert, high-density liquid coating over a roughened solid surface featuring micro and nanoscale topographies is described. Such a slippery surface shows anti-wetting properties, as well as exhibits significant reduction of adhesion of a broad range of biological materials, including particles in suspension or solution. Specifically, the slippery surfaces can be applied to medical devices and equipment to effectively repel biological materials such as blood, and prevent, reduce, or delay coagulation and surface-mediated clot formation. Moreover, the slippery surfaces can be used to prevent fouling by microorganisms such as bacteria.

A self-healing, scratch resistant slippery surface that is manufactured by wicking a chemically-inert, high-density liquid coating over a roughened solid surface featuring micro and nanoscale topographies is described. Such a slippery surface shows anti-wetting properties, as well as exhibits significant reduction of adhesion of a broad range of biological materials, including particles in suspension or solution. Specifically, the slippery surfaces can be applied to medical devices and equipment to effectively repel biological materials such as blood, and prevent, reduce, or delay coagulation and surface-mediated clot formation. Moreover, the slippery surfaces can be used to prevent fouling by microorganisms such as bacteria.

Provided is a coating agent which can be stably immobilized on metal surface, and which can give blood compatibility. Provided is a copolymer which is usable as the above-mentioned coating agent that comprises PEG segment and a segment which has a phosphoric acid residue (PO(OH).sub.2) and a cyclic nitroxideradical randomly as a side chain or a pendant group.

Provided is a coating agent which can be stably immobilized on metal surface, and which can give blood compatibility. Provided is a copolymer which is usable as the above-mentioned coating agent that comprises PEG segment and a segment which has a phosphoric acid residue (PO(OH).sub.2) and a cyclic nitroxideradical randomly as a side chain or a pendant group.

A medical device is provided including a base member and a coating layer containing an antithrombogenic material and covering a surface of the base member. The antithrombogenic material contains a copolymer having a repeating unit (A) represented by the following formula (1): ##STR00001##
wherein R.sup.11 is a hydrogen atom or a methyl group, Z is an oxygen atom or NH, R.sup.12 is a C.sub.1-6 alkylene group, R.sup.13 and R.sup.14 are each independently a C.sub.1-4 alkyl group, and R.sup.15 is a C.sub.1-2 alkylene group, and a repeating unit (B) represented by the following formula (2): ##STR00002##
wherein R.sup.21 is a hydrogen atom or a methyl group, R.sup.22 is a C.sub.1-6 alkylene group, and R.sup.23 is a C.sub.1-4 alkyl group. The repeating unit (A) is contained in a proportion of 1 to 7 mol % based on all the structural units of the copolymer.

The present disclosure describes a strategy to create self-healing, slippery liquid-infused porous surfaces. Roughened (e.g., porous) surfaces can be utilized to lock in place a lubricating fluid, referred to herein as Liquid B to repel a wide range of materials, referred to herein as Object A (Solid A or Liquid A). Slippery liquid-infused porous surfaces outperforms other conventional surfaces in its capability to repel various simple and complex liquids (water, hydrocarbons, crude oil and blood), maintain low-contact-angle hysteresis (<2.5?), quickly restore liquid-repellency after physical damage (within 0.1-1 s), resist ice, microorganisms and insects adhesion, and function at high pressures (up to at least 690 atm). Some exemplary application where slippery liquid-infused porous surfaces will be useful include energy-efficient fluid handling and transportation, optical sensing, medicine, and as self-cleaning, and anti-fouling materials operating in extreme environments.