A urinary catheter including a hydrophilic coatings on the outer surface of the catheter tube wherein the hydrophilic coatings comprises a hydrophilic polymer and a diacrylate compound have a number average molecular weight between about 200 and about 600.

An implantation needle for inserting a subcutaneously insertable element into a body tissue, a kit for inserting a subcutaneously insertable element into a body tissue and a method of manufacturing an implantation needle are described. The implantation needle comprises at least one covering comprising at least one pharmaceutical compound. The pharmaceutical compound is configured to remain at least partially in the body tissue after insertion of the subcutaneously insertable element.

A prosthetic heart valve leaflet includes a plurality of electrospun fibers at least partially embedded in a polymer matrix. The plurality of fibers includes a first polyisobutylene urethane copolymer having a first predetermined weight average percentage of hard segment portions and the polymer matrix includes a second polyisobutylene urethane copolymer having a second predetermined weight average percentage of the hard segment portions, wherein the first predetermined weight average percentage of the hard segment portions is greater than the second predetermined weight average percentage of the hard segment portions.

Provided are a flexible tube for an endoscope, the flexible tube having good elasticity, being capable of sufficiently maintaining adhesiveness between a flexible-tube base and a polymer cover layer covering the flexible-tube base even when a bending operation is repeated, and being less likely to undergo a decrease in elasticity even when the flexible tube is repeatedly heated, an endoscopic medical device including the flexible tube for an endoscope, and methods for producing the flexible tube and the endoscopic medical device.

The flexible tube for an endoscope has a flexible-tube base containing metal as a constituent material, a porous layer on the flexible-tube base, a primer layer on the porous layer, and a polymer cover layer on the primer layer. The polymer cover layer includes at least one compound of a polyamide, a polyester, a polyurethane, or a polyolefin on a side in contact with the primer layer.

An ultrasonic surgical blade includes a body having a proximal end, a distal end, and an outer surface. The distal end is movable relative to a longitudinal axis in accordance with ultrasonic vibrations applied to the proximal end. At least a portion of the outer surface of the body comprises a lubricious coating adhered thereto. The lubricious coating has a coefficient of friction that is less than the coefficient of friction of the outer surface of the body.

There is provided a production method for a microcapsule in which cells are encapsulated with alginic acid and a polycation, the method including dropwise adding a cell suspension containing cells and alginic acid into a calcium ion-containing solution to obtain a liquid droplet in which the cells are encapsulated in alginic acid, and immersing the liquid droplet in a coating liquid containing a polycation, to obtain the microcapsule, where the coating liquid contains a calcium ion or a barium ion at a concentration of 0.1 mM or more and 50.0 mM or less. According to the production method of the present invention, it is possible to produce a microcapsule having a uniform shape and particle size.

Coatings for medical devices having selectable levels of durability and lubricity are disclosed. The coatings include polymeric material components, the characteristics and relative amounts of which can be selected to provide target levels of durability and lubricity. Methods of making the coatings for medical devices are also disclosed.

Provided are multilayer synthetic rubber compositions formed from a layer of a styrene block copolymer composition and a layer of one or more synthetic elastomers, such as polychloroprene, polyisoprene, nitrile rubber, styrene butadiene rubber, butyl rubber and polyurethane. The multilayer compositions find use in the manufacture of thin walled articles, for example gloves, particularly medical or industrial gloves.

Disclosed is a drug eluting balloon for a balloon catheter. The drug eluting balloon comprises a balloon body (100) and a coating (200), and the coating (200) comprises a water-soluble adhesive layer (210), an isolating layer (220) and a drug layer (230) from the inside out. After the drug eluting balloon is pushed to a diseased part, the balloon body (100) is expanded, and the water-soluble adhesive layer (210) dissolves due to scouring by a blood flow, such that the isolating layer (220) and the drug layer (230) are separated from an outer surface of the balloon body (100) and adhere to a blood vessel wall. The provision of the isolating layer (220) can effectively suppress the water-soluble adhesive layer (210) from removing part of the drug layer (230) during dissolution, and after the drug layer (230) adheres to and makes contact with the blood vessel wall, the isolating layer can also reduce the scouring effect on the drug layer (230) by the blood flow, thereby reducing the loss of drugs, allowing the drugs to be taken in by the blood vessel wall to the greatest extent, greatly improving the utilization rate of the drugs and improving the treatment effect while also preventing toxic and side effects brought about by large doses of the drugs. Moreover, the isolating layer (220) can also realize the slow release of the drug layer (230), such that the drug layer (230) can provide treatment for a long time, and a good treatment effect can be obtained.

Provided are a magnesium alloy stent with improved corrosion resistance, and a method for producing same. The bioabsorbable stent including a core structure of a magnesium alloy, the stent is composed of: a first anticorrosive layer containing magnesium fluoride as a main component formed on the core structure, and a second anticorrosive layer coated with a diamond-like carbon on the first anticorrosive layer.