Abstract: The invention generally relates to systems and methods for stress testing to failure tubular mesh devices, specifically, one or more stents or mesh grid tubes. A radial compression method of stress to fatigue is developed by placing a tubular medical implant within a lower than normal compliance test vessel. A radial expansion method of stress to fatigue is developed by placing higher than normal compliance tubes within a tubular medical implant. A method for radial expansion and radial compression is conducted by placing a higher than normal compliance tube through the mesh device and the placing the tube and device within a lower than normal compliance test vessel. Each method is tested on a tester that operates by delivering pulsatile flow with varying pressures, frequencies and testing parameters. Fracture of the test subject is visualized by high speed camera.

Abstract: A method of determining the endurance limit of an implantable medical device is disclosed. The method utilizes a mock vessel that has a compliance that is higher or lower than the normal compliance of a human vessel for which the device is to be used. The device is deployed into the mock vessel and a curable liquid is used to form a layer over the device on the surface of the lumen of the mock vessel. High pressure pulsatile pressurization is applied to the lumen of the mock vessel to cause a failure of the implantable medical device. The amount and cycles of pressure necessary to cause a failure may be used to determine the endurance limit of the implantable medical device.

Abstract: A method of determining the endurance limit of an implantable medical device is disclosed. The method utilizes a mock vessel that has a compliance that is higher or lower than the normal compliance of a human vessel for which the device is to be used. The device is deployed into the mock vessel and a curable liquid is used to form a layer over the device on the surface of the lumen of the mock vessel. High pressure pulsatile pressurization is applied to the lumen of the mock vessel to cause a failure of the implantable medical device. The amount and cycles of pressure necessary to cause a failure may be used to determine the endurance limit of the implantable medical device.

Abstract: The invention generally relates to systems and methods for stress testing to failure tubular mesh devices, specifically, one or more stents or mesh grid tubes. A radial compression method of stress to fatigue is developed by placing a tubular medical implant within a lower than normal compliance test vessel. A radial expansion method of stress to fatigue is developed by placing higher than normal compliance tubes within a tubular medical implant. A method for radial expansion and radial compression is conducted by placing a higher than normal compliance tube through the mesh device and the placing the tube and device within a lower than normal compliance test vessel. Each method is tested on a tester that operates by delivering pulsatile flow with varying pressures, frequencies and testing parameters. Fracture of the test subject is visualized by high speed camera.