The invention concerns coating composition comprising hydrophobic polymer for use as a photoreactive basecoat for a medical device or implant comprising a polymer made from monomers comprising: (a) 1 to 12 mol % of at least one photoactive monomer that is a hydrogen atom abstracter and (b) 99 to 88 mol % of one or more of acrylamides, methacrylamides, acrylates, methacrylates, and N-vinylpyrrolidone; wherein the polymer has a glass transition temperature (Tg) of less than 40° C.

An intracardiac echocardiography catheter includes a shaft and an ultrasound transducer at a distal end of the shaft. The ultrasound transducer includes an outer polymeric encapsulant layer and a nanocoating applied to the outer polymeric encapsulant layer. The nanocoating is configured to provide increased surface lubricity and self-cleaning properties to the ultrasound transducer.

A medical tube having improved lubricity is disclosed. The medical tube is produced by extruding a polymer material blended with a lubricity enhancing additive through a resilient die. The polymer material can be medical-grade high-density polyethylene, and the lubricity enhancing additive can be a silicone-based or alloy-based material. The medical tube can include one or more internal elongated protuberances so as to reduce the internal surface area of the medical tube available to generate friction on a guide wire inserted or withdrawn through the medical tube.

A neurovascular catheter is provided, such as for distal neurovascular access or aspiration. The catheter includes an elongate flexible tubular body, having a proximal end, a distal end and a side wall defining a central lumen. A distal zone of the tubular body includes a tubular inner liner, a tie layer separated from the lumen by the inner liner, a helical coil surrounding the tie layer, an outer jacket surrounding the helical coil, and an opening at the distal end. Adjacent windings of the helical coil are spaced progressively further apart in the distal direction. The opening at the distal end of the tubular body is enlargeable from a first inside diameter for transluminal navigation to a second, larger inside diameter to facilitate aspiration of thrombus into the lumen.

A method for lubricating an injection needle when used multiple times at a single occasion to penetrate a support, the method including the steps of: a) depositing a layer of a lubricating composition on the support; b) penetrating multiple times the layer of the lubricating composition deposited in step a) with the injection needle, thereby providing a lubricated injection needle having a deposited layer of the lubricating composition thereon.

In various embodiments of the present disclosure, a surgical catheter is provided. The present disclosure provides a catheter shaft that includes a distal portion and a proximal portion. The proximal portion comprises a handle operably connected to the distal portion of the elongated structure. The distal portion three radially positioned polymeric layers. At least two of the layers include chemically dissimilar polymers and at least one of the three layers includes functionalized polyvinylidene fluoride (PVDF).

A material for use in a medical device includes a blend of a non-melt polymer such as Polyamideimide, a meltable carrier polymer such as Polyetherketoneketone and lubricants/rheology modifiers such that the final polymer material can be extruded, pelletized and used to injection mold components for the medical device. The ratios of the Polyamideimide, Polyetherketoneketone and the lubricants are selected to provide sufficient lubricity and glass transition temperature to the material to make it appropriate for use in high temperature applications and additive manufacturing processes.

Embodiments of the disclosure include lubricious coatings. In an embodiment the disclosure includes a lubricious coating for a medical device including an acrylic acid polymer, an acrylamide copolymer comprising at least one photoreactive group, and a cross-linking agent comprising at least two photoreactive groups. The coating can be used on a catheter surface to facilitate its movement in the body.

Hydration mediums for hydrating hydrophilic coatings of urinary catheters and urinary catheter products containing such hydration mediums. Methods for making urinary catheter products having hydration mediums.

The current invention relates to a composition for parenteral administration comprising a canine plasma and hyaluronic acid or a salt or ester thereof, wherein said plasma comprises lipids and/or phospholipids. The inventions also relates to a kit comprising one or more aliquots of a composition, said composition comprising a canine plasma comprising lipids and/or phospholipids and hyaluronic acid or a derivative thereof and optionally one or more pharmaceutical active ingredients, wherein said kit further comprises one or more aliquots of a calcium source, preferably a calcium chloride solution. The invention also pertains to the composition and kit of current invention for use in the treatment of musculoskeletal diseases.