Patent application number | Description | Published |
20090209941 | Implant deployment catheter - A rapid exchange implant deployment catheter includes a relatively stiff hypotube ( | 08-20-2009 |
20110029059 | Prosthesis Coupling Device and Method - A coupling device ( | 02-03-2011 |
20110046611 | IMPLANT RELEASE MECHANISM - A delivery assembly ( | 02-24-2011 |
20110054512 | OCCLUSION DEVICE - An occlusion device ( | 03-03-2011 |
20110060275 | Drug Eluting Balloon - There is disclosed a drug eluting balloon catheter assembly provided with a balloon formed of an inner balloon member of non-compliant material and an outer balloon member of a compliant material and which is provided with holes therein for eluting a drug or other fluid. In use, the outer balloon member is biased by contraction onto the inner balloon member thereby keeping the holes therein normally sealed closed and minimizing dead space in the device. | 03-10-2011 |
20130013052 | PROSTHESIS COUPLING DEVICE AND METHOD - A coupling device is formed of a double tubing of a substantially non-porous membrane material, typically a conventional graft material, that is of inner and outer layers of membrane material. The inner and outer layers are coupled by bridging rings which allow the layers to be spaced from one another in use. Attached to the inner and outer layers are first and second stents. The stent is located on the inside of the double tubing, while the stent is located on the outside of the double tubing. The device can expand in effect to ‘bulge’ and thus to fill the gaps to the vessel wall and to the stent-graft sections. The device can provide reliable coupling of stent-grafts in vessels of varying diameter or in vessels inflicted with one or more aneurysms. | 01-10-2013 |
20150223925 | AORTIC GRAFT DEVICE - An aortic graft device ( | 08-13-2015 |
20150224282 | SHEATH OR CATHETER FOR MEDICAL INTRODUCER ASSEMBLY - An introducer assembly provided with a sheath formed of a plurality of elongate sections which are coupled to one another along their longitudinal sides by a dovetail coupling. The sheath sections are slidable longitudinally relative to one another, enabling the sheath to be retracted in stages. This reduces the amount of friction which must be overcome in the use of the sheath and in particular during the deployment of a medical device carried within the sheath. The structure can also substantially increase the precision of deployment of the medical device, as well as decreasing the force required during the deployment operation. | 08-13-2015 |