Patent application number | Description | Published |
20090192602 | Deformable Sizer and Holder Devices for Minimally Invasive Cardiac Surgery - Described is a device for sizing a heart valve annulus by a minimally invasive route, the device comprising: a sizing plate having first and second major surfaces, wherein the sizing plate comprises a deformable material such that the sizing plate can deform and fit through the minimally invasive route; and an elongate handle to which the sizing plate is attached. Also described is a similarly deformable device for holding an annuloplasty device. Additionally, methods of using the deformable sizing and holding devices are disclosed. | 07-30-2009 |
20090192606 | Holder Devices for Annuloplasty Devices Having a Plurality of Anterior-Posterior Ratios - Described is an adjustable annuloplasty device holder possible of having a plurality of different anterior-posterior ratios, the holder comprising a member having an anterior segment and a posterior segment that are shaped to hold an anterior portion and a posterior portion, respectively, of an annuloplasty device, wherein the anterior segment has a given size and the posterior segment is adjustable in order to change the anterior-posterior ratio of the holder to accommodate annuloplasty devices having a plurality of different anterior-posterior ratios. Also described is a method of using such an adjustable annuloplasty holder device. | 07-30-2009 |
20090264996 | Set of Annuloplasty Devices with Varying Anterior-Posterior Ratios and Related Methods - Described is a set of at least two annuloplasty devices having a particular size that corresponds to an inter-trigonal or inter-commissural distance of a heart valve annulus, wherein the at least two annuloplasty devices have different anterior-posterior ratios. Also, described is a kit for annuloplasty repair of a heart valve annulus including a plurality of annuloplasty devices each comprising one of a plurality of different sizes, wherein the different sizes each correspond to a different inter-trigonal or inter-commissural distance of a heart valve annulus, and for each of the plurality of different sizes there are at least two devices each having the same size but having different anterior-posterior ratios. Additionally, a method of choosing an annuloplasty device for implantation in a valve annulus is described. | 10-22-2009 |
20110022169 | Annuloplasty Device for Tricuspid Valve Repair - Annuloplasty device for implantation adjacent an annulus of a tricuspid valve, the annulus comprising anterior, posterior and septal aspects adjacent anterior, posterior and septal leaflets, respectively, of the tricuspid valve, the device comprising: a ring body comprising: an anterior portion, a posterior portion and a septal portion shaped to conform to, and for implantation adjacent, the anterior, posterior and septal aspects of the annulus, respectively; and first and second end portions that are more flexible than a remainder of the ring body to provide a gradual transition from the remainder of the ring body to tissue of the tricuspid valve annulus; wherein the ring body is curvilinear, with substantially no flat portions, and forming a shape. Related devices, kits and sizer devices. | 01-27-2011 |
20110257728 | Catheter-Based Annuloplasty System and Method - A catheter-based annuloplasty system for use in repairing a heart valve having leaflets and a valve annulus, includes a delivery catheter having a proximal end and a distal end, and an expandable stent disposed on the distal end of the catheter. An adjustable annuloplasty ring is disposed on the expandable stent and is configured to expand and contract in response to expansion and contraction of the stent. | 10-20-2011 |
20120022643 | Set of Annuloplasty Devices with Varying Anterior-Posterior Ratios and Related Methods - Described is a set of at least two annuloplasty devices having a particular size that corresponds to an inter-trigonal or inter-commissural distance of a heart valve annulus, wherein the at least two annuloplasty devices have different anterior-posterior ratios. Also, described is a kit for annuloplasty repair of a heart valve annulus including a plurality of annuloplasty devices each comprising one of a plurality of different sizes, wherein the different sizes each correspond to a different inter-trigonal or inter-commissural distance of a heart valve annulus, and for each of the plurality of different sizes there are at least two devices each having the same size but having different anterior-posterior ratios. Additionally, a method of choosing an annuloplasty device for implantation in a valve annulus is described. | 01-26-2012 |
20130123913 | Catheter-Based Annuloplasty System and Method - A catheter-based annuloplasty system for use in repairing a heart valve having leaflets and a valve annulus, includes a delivery catheter having a proximal end and a distal end, and an expandable stent disposed on the distal end of the catheter. An adjustable annuloplasty ring is disposed on the expandable stent and is configured to expand and contract in response to expansion and contraction of the stent. | 05-16-2013 |
20130261739 | Dual Valve Prosthesis for Transcatheter Valve Implantation - A dual valve prosthesis having a self-expanding anchoring frame with first and second prosthetic valve assemblies attached to the anchoring frame is disclosed. Each of the first and second prosthetic valve assemblies includes a balloon-expandable stent structure with a prosthetic valve secured therein. In a disclosed method, the first and second prosthetic valve assemblies include prosthetic mitral and aortic valves, respectively, and the dual heart valve prosthesis is configured to replace both the native mitral and aortic valves of the heart in a single transcatheter heart valve implantation procedure. | 10-03-2013 |
Patent application number | Description | Published |
20120001429 | CARBON DIOXIDE-BASED GEOTHERMAL ENERGY GENERATION SYSTEMS AND METHODS RELATED THERETO - Novel carbon dioxide-based geothermal energy generation systems, i.e., carbon plume geothermal (CPG) systems, and methods are provided. With the novel systems and methods described herein, geothermal energy can now be provided at lower temperatures and at locations other than hot, dry rock formations, without negatively impacting the surrounding area through use of large-scale hydrofracturing. Use of a carbon dioxide-based geothermal system further provides a means for sequestering and storing excess carbon dioxide, rather than having it released to the atmosphere. | 01-05-2012 |
20130043678 | CARBON DIOXIDE-BASED GEOTHERMAL ENERGY GENERATION SYSTEMS AND METHODS RELATED THERETO - A system comprises an injection well for accessing a reservoir containing a native fluid comprising a hydrocarbon. The reservoir is located below one or more caprocks, is at a first temperature, and is accessible without using large-scale hydrofracturing. The system further includes a production well in fluid communication with the reservoir, a supply apparatus configured to feed a non-water based working fluid at a second temperature that is lower than the first temperature through the injection well to the reservoir. The working fluid mixes with the native fluid to form a production fluid comprising at least a portion of the working fluid and at least a portion of the hydrocarbon at a third temperature that is higher than the second temperature. An energy recovery apparatus in fluid communication with the productions well converts energy contained in the production fluid to electricity, heat, or combinations thereof. | 02-21-2013 |
20130062890 | CARBON DIOXIDE-BASED GEOTHERMAL ENERGY GENERATION SYSTEMS AND METHODS RELATED THERETO - Novel carbon dioxide-based geothermal energy generation systems, i.e., carbon plume geothermal (CPG) systems, and methods are provided. With the novel systems and methods described herein, geothermal energy can now be provided at lower temperatures and at locations other than hot, dry rock formations, without negatively impacting the surrounding area through use of large-scale hydrofracturing. Use of a carbon dioxide-based geothermal system further provides a means for sequestering and storing excess carbon dioxide, rather than having it released to the atmosphere. | 03-14-2013 |