Abstract: Methods and devices for providing intravascular local radiation therapy and simultaneous local delivery of a solution of a therapeutic substance are disclosed. The therapeutic substance may be an antiplatelet substance, an antithrombotic substance, a thrombolytic substance, or a mixture thereof, among other possibilities. An exemplary balloon catheter assembly for delivery of the simultaneous radiation and therapeutic substance treatments includes an elongate body with lumen for delivering the solution of the therapeutic substance to a permeable inflation region at a distal end of the body, and a centerable delivery lumen for transporting a radiation source to the treatment site.

Abstract: A method and an apparatus for electropermeabilization-mediated intracellular delivery of an agent are provided.

Abstract: A catheter assembly is provided having a balloon disposed at the distal end thereof. The balloon is capable of being inflated to selectively dilate from a collapsed configuration to an expanded configuration. The balloon is also capable of being deflated after inflation to return to the collapsed configuration or a deflated profile. A syringe assembly is in fluid communication with a delivery lumen of the catheter assembly for allowing a therapeutic substance to be injected into a tissue of a passageway. The syringe assembly includes a portion capable of pivoting from a first position towards a second position when the balloon is being inflated from the collapsed configuration to the expanded configuration. The portion of the syringe assembly is also capable of pivoting from the second position back towards the first position when the balloon is being deflated.

Abstract: A biocompatible carrier and a composition for forming the carrier are disclosed. The carrier is made from an ethylene vinyl alcohol copolymer which can serve as a reservoir, allowing for the local delivery and sustained release of actinomycin D. The carrier can be formed from the ethylene vinyl alcohol, copolymer, a dimethylsulfoxide solvent, and actinomycin D. Alternatively, the carrier can be formed from an ethylene vinyl alcohol copolymer, a dimethylsulfoxide solvent, actinornycin D, and a wetting fluid. The carrier can serve as a coating for a prosthesis, for example a stent. The composition is applied to a surface of the prosthesis and essentially all of the dimethylsulfoxide solvent or dimethylsulfoxide solvent/wetting fluid is removed or allowed to evaporate to form the coating.

Abstract: A catheter assembly is provided having a balloon disposed at the distal end thereof. The balloon is capable of being inflated to selectively dilate from a collapsed configuration to an expanded configuration. A syringe assembly is in fluid communication with a delivery lumen of the catheter assembly for allowing a therapeutic substance to be injected into a tissue of a passageway. The syringe assembly includes a portion capable of pivoting from a first position towards a second position when the balloon is being inflated from the collapsed configuration to the expanded configuration. The portion of the syringe assembly is also capable of pivoting from the second position back towards the first position when the balloon is being deflated.

Abstract: The invention provides bioactive compositions and methods of delivery for ameliorating a vascular diseased state, particularly for the management of stenosis or restenosis following a vascular trauma or disease.

Abstract: A method and an apparatus for electropermeabilization-mediated intracellular delivery of an agent are provided.

Abstract: An ethylene vinyl alcohol coating for an implantable device or prosthesis, such as a stent, is provided. Compositions are also provided for coating the implantable device. The compositions can include an ethylene vinyl alcohol copolymer added to an iso-propyl alcohol (IPA)/water solvent. Active agents, such as actinomycin D, can be included in the composition to be carried by the copolymer matrix.