A medical device includes an inflatable balloon having an axial length with a wall located along the axial length having an interior surface and an exterior surface that defines a wall thickness there between. At least a portion of the wall is formed of a nanoplatelet composite material that includes a polymeric matrix and one or more platelet nanofillers. The platelet nanofillers are aligned in a predetermined pattern. The predetermined pattern allows the platelet nanofillers to extend in at least two directions ranging from the nanofillers being circumferentially-oriented to axially-oriented relative to the axial length of the inflatable balloon.

A medical device includes an inflatable balloon having an axial length with a wall located along the axial length having an interior surface and an exterior surface that defines a wall thickness there between. At least a portion of the wall is formed of a reinforced nanocomposite that includes a polymeric matrix and a plurality of nanofibers. The nanofibers are aligned in a direction that ranges from being circumferentially-oriented and/or axially-oriented with respect to the axial length of the inflatable balloon.

Medical devices comprise a polymeric body comprising: a base polymeric formulation comprising at least a polymer or co-polymer of propylene; and an additive comprising a copolymer having a polypropylene backbone and hybrid micromolecule side-chains based on organo-functional silanes (PP-g-XSiOA) in the presence of a co-agent, for example, difunctional metallic diacrylate monomers, where X is an organic group or an organo-functional group, and A is a metal, an inorganic oxide, an inorganic hydroxide, or any other inorganic material. X may be derived from a compound selected from the group consisting of epoxy, amino, acrylate, methacryloxy, and vinyl; and A is selected from the group consisting of: silicon, (Si), aluminum (Al), iron (Fe), titanium (Ti), silver (Ag), zinc (Zn), nickel (Ni), calcium (Ca), copper (Cu), tin (Sn); oxides thereof; hydroxides thereof; and mixtures of the foregoing. Optionally, inorganic fillers may be included. The medical devices are laser markable.

A coating for an expandable portion of a catheter comprising a lipophilic matrix and a plurality of micro-reservoirs dispersed in the lipophilic matrix is disclosed. The plurality of micro-reservoirs comprises an active agent. A coating formulation and a method for forming the coating are also disclosed. A catheter comprising the coating on the expandable portion and a method for treating a condition are also provided.

A coating for an expandable portion of a catheter comprising a lipophilic matrix and a plurality of micro-reservoirs dispersed in the lipophilic matrix is disclosed. The plurality of micro-reservoirs comprises an active agent. A coating formulation and a method for forming the coating are also disclosed. A catheter comprising the coating on the expandable portion and a method for treating a condition are also provided.

The present invention relates a composition for producing a foley catheter which is inserted in vivo and a method for producing the same, which the composition consists of the materials which carbon nanotube polymer (CNT Polymer) bonded a carbon nanotube and zinc oxide (ZnO) is combined with a silicon, wherein from 1.0 to 2.2 parts by weight of the said carbon nanotube polymer are combined with 100 parts by weight of silicon.

The invention relates in various embodiments to a composite useful as e.g. a medical implant device, and a method of treating fouling, including biofouling as may occur on an implant. The composite comprises a matrix phase and a patterned phase that comprises an energetically activatable wire intermixed with the matrix phase, the wire when energetically activated, which includes thermal activation, causes modification of at least a portion of the matrix phase to treat fouling that might otherwise occur. The method of treating biofouling may be practiced on a patent while the medical implant of the invention is in situ.

Nanoparticle composites comprised of a metal oxide and ions of a metallic element included within a crystal lattice of said metal oxide are disclosed. Process of preparing the nanoparticle composites per se and incorporated in or on a substrate are also disclosed. Uses of the nanoparticle composites and of substrates incorporating same, particularly for reducing a formation of a load of a microorganism or of a biofilm, are also disclosed.

The invention relates to a rod-shaped body comprised of one or more filaments and of a non-ferromagnetic matrix material. The matrix material surrounds the filament(s) and/or adheres them to one another. The rod-shaped body is also comprised of a dopant consisting of particles that generate magnetic resonance tomographic artifacts that is introduced into the matrix material. Rod-shaped bodies of this type can be used to construct guide wires, catheters and other instruments to be used in minimally invasive surgical interventions.

A fecal catheter or ostomy pouch made of an odor barrier material including a thermoplastic elastomer, odor barrier modifier and an antiblocking agent.