A tube connection part adapted to accommodate a flexible tube made from a material comprising polyvinyl chloride, wherein said tube connection part comprises a sleeve adapted to form an overlapping region between said tube connection part and said tube, wherein an adhesion promoting agent is deposited on at least a subsection of a surface of said sleeve, characterized in that the adhesion promoting agent comprises a styrene-butadiene block copolymer.

The disclosed technology provides thermoplastic polyurethane compositions having antimicrobial properties while still maintaining good physical properties and good non-fouling properties, methods of making the same, and articles, including medical devices, made from such compositions. The disclosed technology includes a process of making an antimicrobial polymer composition, where the process includes mixing an antimicrobial additive into a base polymer and further includes mixing in a non-fouling additive, where the antimicrobial additive is chemically held in the composition and the antimicrobial and non-fouling additives do not negatively impact each other's effectiveness.

Disclosed herein is a composite material comprising a substrate coated with a block copolymer brush, where the block copolymer brush comprises a first block of a hydrophobic polymer conjugated to a nitric oxide source, where the first block of the hydrophobic polymer is covalently bonded to a surface of the substrate or a first block of a cationic polymer covalently bonded to a surface of the substrate and a second block of a hydrophilic polymer, extending from the first block to form an outer surface of the block copolymer brush.

Disclosed herein is a composite material comprising a substrate coated with a block copolymer brush, where the block copolymer brush comprises a first block of a hydrophobic polymer conjugated to a nitric oxide source, where the first block of the hydrophobic polymer is covalently bonded to a surface of the substrate or a first block of a cationic polymer covalently bonded to a surface of the substrate and a second block of a hydrophilic polymer, extending from the first block to form an outer surface of the block copolymer brush.

Provided are a drug-loaded implantable medical instrument and a manufacturing method therefor. The drug-loaded implantable medical instrument (10) comprises an instrument body (100), a microporous membrane (200) fixed on the instrument body (100), and a nanocrystal medicament (300) loaded on the microporous membrane (200). A method for preparing a drug-loaded implantable medical device includes: providing a microporous membrane; loading a nanocrystalline drug on the microporous membrane; and fixing the microporous membrane loaded with the nanocrystalline drug to the device body.

Fouling on the surface of biomaterials and medical devices by proteins and microorganisms in the body severely hinders device functionality and drastically shortens lifetime. Currently, there is high demand for coatings that mitigate this biofouling. In this invention, the use of polyacrylamides has been explored in hydrogel coatings by building the largest library of acrylamide-based copolymer anti-biofouling hydrogels (>160 combinations) to date. A combinatorial approach was used, exploiting the ease of hydrogel synthesis to examine a high-throughput screening of platelet adhesion, precursor to thrombosis and a common culprit in biofouling. Applicability has been demonstrated of top-performing polyacrylamide-based hydrogel by (i) coating affinity-based electrochemical biosensors in vitro in a whole blood assay, and (ii) through coating an electrochemical aptamer-based device for real-time monitoring of analytes in an in vivo closed-loop system.

Fouling on the surface of biomaterials and medical devices by proteins and microorganisms in the body severely hinders device functionality and drastically shortens lifetime. Currently, there is high demand for coatings that mitigate this biofouling. In this invention, the use of polyacrylamides has been explored in hydrogel coatings by building the largest library of acrylamide-based copolymer anti-biofouling hydrogels (>160 combinations) to date. A combinatorial approach was used, exploiting the ease of hydrogel synthesis to examine a high-throughput screening of platelet adhesion, precursor to thrombosis and a common culprit in biofouling. Applicability has been demonstrated of top-performing polyacrylamide-based hydrogel by (i) coating affinity-based electrochemical biosensors in vitro in a whole blood assay, and (ii) through coating an electrochemical aptamer-based device for real-time monitoring of analytes in an in vivo closed-loop system.

A urinary catheter and a method of its manufacture are disclosed. The urinary catheter comprises a tubular shaft extending between an insertion end and a discharge end, the tubular shaft being formed of at least two materials having different properties. The materials are arranged substantially separated from each other in distinct zones, wherein at least one of the width and thickness of said zones varies over the length of the tubular shaft, to form two or more uniform sections of the tubular shaft having various relative amounts of said materials, and wherein at least one transition between two such uniform sections is formed by at least one transition section providing a gradual transition between the uniform sections. The catheter can e.g. be produced by intermittent extrusion.

Use of 10H-benzo[g]pteridine-2,4-dione derivatives as photosensitizers in the inactivation of microorganisms.

A method is described herein for the treatment of intracranial aneurysms. The method comprises inserting into an aneurysm an embolism coil coated with a polymeric coating comprising a genipin, such as genipin or a derivative thereof, thereby increasing the stability of clots within the aneurysm. According to one example, the coating is a poly(L-lactide-co-glycolide) (PLGA) is used to release genipin to crosslink fibrin clots thereby creating more stable occlusions. Increased clotting can improve segregation of the weakened portion of the blood vessel from the rest of the vasculature and reduce the risk of recurrence.