The present invention relates to methods for making wear and oxidation resistant polymeric materials by high temperature melting. The invention also provides methods of making medical implants containing cross-linked antioxidant-containing tough and ductile polymers and materials used therewith also are provided.

The present invention is related to scoring or cutting balloon catheters carrying at least on a portion of their surface at least one drug or drug preparation and at least one lipophilic antioxidant at a ratio of 3-100% by weight of the at least one lipophilic antioxidant in relation to 100% by weight of the drug, wherein a combination of the at least one drug being a limus drug and the at least one lipophilic antioxidant being butylated hydroxytoluene is excluded.

The present invention relates to a medical device to be applied to a body of a human or animal being. The medical device comprises a contact surface to contact the body of the human or animal being when the medical device is applied to the body of the human or animal being. The contact surface is covered with a soluble surface sealing. The surface sealing is composed of an organic compound.

Hydration mediums, assemblies containing hydration mediums and methods of making the same are disclosed. The hydration mediums are intended for hydrating or wetting a medical device such as a catheter and comprise a hydration foam. Furthermore, methods and products involving hydrophilic substances are disclosed e.g. involving mucilage, deep eutectic liquids, antifreeze substances or cryoprotectants, oil or a hydration medium together with water, surfactant, polyol and stabilizer.

A plurality of structural layers having different properties are nested together to form the medical balloon. Certain embodiments include at least one layer comprising a fiber-reinforced polymer. The layers of the balloons can slide relative to one another in use. A structural layer may comprise metal reinforcing fibers suspended in a polymer matrix.

A plurality of structural layers having different properties are nested together to form the medical balloon. Certain embodiments include at least one layer comprising a fiber-reinforced polymer. The layers of the balloons can slide relative to one another in use. A structural layer may comprise metal reinforcing fibers suspended in a polymer matrix.

The present invention disclosed a process to coat the surface of flexible polymeric implant with biocompatible polymer such that the coating does not crack when the implant is subjected to mechanical forces such as tension, torsion or bending while retaining the inherent properties of the coated polymer.

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.

Medical devices having an alkaline resistant halogenated polymer include a halogenated polymer incorporating one or more of a polymeric stabilizer, a polymeric plasticizer or a free radical inhibitor or combinations thereof. The medical devices can be used to administer high pH formulations to a patient in need of such administration by administering the formulation through contact the an alkaline resistant halogenated polymer.

Methods of making sleeved hydrophilic urinary catheters.