초록 ▼

Thermal spray processing and cold spray processing are utilized to manufacture porous starting materials (such as tube stock, wire and substrate sheets) from biocompatible metals, metal alloys, ceramics and polymers that may be further processed into porous medical devices, such as stents. The spray

Thermal spray processing and cold spray processing are utilized to manufacture porous starting materials (such as tube stock, wire and substrate sheets) from biocompatible metals, metal alloys, ceramics and polymers that may be further processed into porous medical devices, such as stents. The spray processes are also used to form porous coatings on consolidated biocompatible medical devices. The porous substrates and coatings may be used as a reservoir to hold a drug or therapeutic agent for elution in the body. The spray-formed porous substrates and coatings may be functionally graded to allow direct control of drug elution without an additional polymer topcoat. The spray processes are also used to apply the drug or agent to the porous substrate or coating when drug or agent is robust enough to withstand the temperatures and velocities of the spray process with minimal degradation.

대표청구항 ▼

What is claimed: 1. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is selected from the group consisting of a start substrate from which a medical device is manufactured, a near net-shaped device from which a med

What is claimed: 1. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is selected from the group consisting of a start substrate from which a medical device is manufactured, a near net-shaped device from which a medical device is manufactured, and a coating disposed over a medical device, wherein forming the porous component is performed by a method selected from the group consisting of cold spray process, combustion wire thermal spray process, combustion powder thermal spray process, high velocity oxygen fuel thermal spray process, and detonation thermal spray process, and wherein, if the porous component is a start substrate or near net-shaped device, the process further comprises forming a medical device from the start substrate or the near net-shaped device. 2. The method of claim 1, with the proviso that the forming the porous component does not include a plasma process. 3. The method of claim 1, wherein the porous component comprises a metallic material. 4. The method of claim 1, wherein the porous component comprises a ceramic material. 5. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is selected from the group consisting of a start substrate from which a medical device is manufactured, a near net-shaped device from which a medical device is manufactured, and a coating disposed over a medical device, wherein forming the porous component is performed by a method selected from the group consisting of cold spray process, combustion wire thermal spray process, combustion powder thermal spray process, arc wire spray process, high velocity oxygen fuel thermal spray process, and detonation thermal spray process, wherein, if the porous component is a start substrate or near net-shaped device, the process further comprises forming a medical device from the start substrate or the near net-shaped device, and wherein the medical device is a stent. 6. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is selected from the group consisting of a start substrate from which a medical device is manufactured, a near net-shaped device from which a medical device is manufactured, and a coating disposed over a medical device, wherein forming the porous component is performed by a method selected from the group consisting of cold spray process, combustion wire thermal spray process, combustion powder thermal spray process, arc wire spray process, high velocity oxygen fuel thermal spray process, and detonation thermal spray process, wherein, if the porous component is a start substrate or near net-shaped device, the process further comprises forming a medical device from the start substrate or the near net-shaped device, and applying a drug to the medical device. 7. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is selected from the group consisting of a start substrate from which a medical device is manufactured, a near net-shaped device from which a medical device is manufactured, and a coating disposed over a medical device, wherein forming the porous component is performed by a method selected from the group consisting of cold spray process, combustion wire thermal spray process, combustion powder thermal spray process, arc wire spray process, high velocity oxygen fuel thermal spray process, and detonation thermal spray process, wherein, if the porous component is a start substrate or near net-shaped device, the process further comprises forming a medical device from the start substrate or the near net-shaped device, and manufacturing the medical device into a drug delivery stent. 8. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is a start substrate from which a medical device is manufactured, wherein forming the porous component is performed by a method selected from the group consisting of cold spray process, combustion wire thermal spray process, combustion powder thermal spray process, arc wire spray process, high velocity oxygen fuel thermal spray process, and detonation thermal spray process, and forming a medical device from the start substrate, wherein forming the start substrate comprises forming a porous tube stock, a substrate sheet or a wire. 9. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is a start substrate from which a medical device is manufactured, wherein forming the porous component is performed by a method selected from the group consisting of cold spray process, combustion wire thermal spray process, combustion powder thermal spray process, arc wire spray process, high velocity oxygen fuel thermal spray process, and detonation thermal spray process, and forming a medical device from the start substrate, wherein forming the start substrate comprises applying a material on a tubular mandrel to form a tube stock, followed by removing the mandrel once the tube stock is formed. 10. The method of claim 9, wherein the removing the mandrel comprises subjecting the mandrel and the tube stock to heat, such that the coefficient of expansion of the mandrel is different than the coefficient of expansion of the tube stock allowing the mandrel to be removed from within the tube stock. 11. The method of claim 9, wherein the mandrel is coated to allow removal of the mandrel from the tube stock. 12. The method of claim 9, wherein the removing the mandrel comprises shrinking the mandrel to allow the mandrel to be removed from within the tube stock. 13. A method of manufacturing a medical device, comprising: forming a porous component for a medical device, wherein the porous component is a start substrate from which a medical device is manufactured, wherein forming the porous component is performed by a method selected from the group consisting of cold spray process, combustion wire thermal spray process, combustion powder thermal spray process, arc wire spray process, high velocity oxygen fuel thermal spray process, and detonation thermal spray process, and forming a medical device from the start substrate, wherein forming the start substrate comprises applying a material on a tubular mandrel such that the mandrel melts out during the formation of the start substrate.