Patent application number | Description | Published |
20080279910 | Composite Hemocompatible Material and Method for Its Production - According to the invention, the hemocompatible material comprises a strong and leaklight synthetic substrate, to which a biological tissue adheres by virtue of the constituent substance of said substrate dispersing in a solvent. | 11-13-2008 |
20090132038 | ROTARY DISPLACEMENT PUMP WITH SMALLER RADIAL DIMENSIONS - According to the invention the rotary pump consists of an external gear ( | 05-21-2009 |
20090157176 | ANNULOPLASTY RINGS FOR CORRECTING DEGENERATIVE VALVULAR DISEASES - A set of annuloplasty rings progressively sized to take into account more of the common pathologies. The proportional shapes of each ring as the orifice size changes vary. For instance, the larger rings have larger minor axis dimensions relative to their major axis dimensions. | 06-18-2009 |
20090192607 | ONE-PIECE HEART PROSTHESIS IMPLANTABLE IN AN ANATOMICAL POSITION - One-piece heart prosthesis implantable in an anatomical position. According to the invention, the artificial left and right ventricles ( | 07-30-2009 |
20090204206 | DEVICE FOR RAPID CONNECTION BETWEEN A TOTALLY IMPLANTABLE HEART PROSTHESIS AND NATURAL AURICLES - Device for rapid connection between a totally implantable heart prosthesis and natural articles. According to the invention, said prosthesis comprises: fastening means ( | 08-13-2009 |
20090276041 | DEVICE FOR CONNECTION BETWEEN A HEART PROSTHESIS AND THE NATURAL AURICLES - Device for connection between a heart prosthesis and the natural auricles. According to the invention, the means of joining to the natural auricles are formed by individual suture attachments ( | 11-05-2009 |
20090287303 | PHYSIOLOGICALLY HARMONIZED TRICUSPID ANNULOPLASTY RING - A prosthetic tricuspid remodeling annuloplasty ring having two free ends that are upturned in the inflow direction to help avoid unnecessary leaflet abrasion. The free ends are desirably separated across a gap that is large enough to reduce the risk of passing sutures through the conductive system of the heart, yet not too large that support of the septal leaflet of the tricuspid annulus is degraded. The tricuspid ring may have four sequential segments looking from the inflow side and extending in a clockwise direction from a free end located adjacent the antero septal commissure after implant. The ring may define an inflow bulge in the first segment and/or an inflow bulge in the fourth segment that help the ring conform to the natural bulges created by the adjacent aorta, thereby reducing stress and the potential for ring dehiscence. Desirably, the ring has variable flexibility, either gradual and/or between or within different segments, so as to adapt or harmonize its 3-dimensional shape to each individual patient and, therefore, to significantly reduce the constraints on the annulus and adjacent structures, particularly the leaflets and the conduction tissue. | 11-19-2009 |
20110244246 | Process for Producing a Haemocompatible Article of Complex Configuration and Article Thus Obtained - Process for producing a hemocompatible article of complex configuration and article thus obtained. According to the invention, a membrane ( | 10-06-2011 |
20120089226 | IMPLANTABLE ONE-PIECE HEART PROSTHESIS - Implantable one-piece heart prosthesis. According to the invention, the prosthesis comprises a main hydraulic actuator ( | 04-12-2012 |
20120253515 | METHODS AND APPARATUS FOR SURGICAL PLANNING - Methods and apparatus for enhancing surgical planning provide enhanced planning of entry port placement and/or robot position for laparoscopic, robotic, and other minimally invasive surgery. Various embodiments may be used in robotic surgery systems to identify advantageous entry ports for multiple robotic surgical tools into a patient to access a surgical site. Generally, data such as imaging data is processed and used to create a model of a surgical site, which can then be used to select advantageous entry port sites for two or more surgical tools based on multiple criteria. Advantageous robot positioning may also be determined, based on the entry port locations and other factors. Validation and simulation may then be provided to ensure feasibility of the selected port placements and/or robot positions. Such methods, apparatus and systems may also be used in nonsurgical contexts, such as for robotic port placement in munitions defusion or hazardous waste handling. | 10-04-2012 |
20120330412 | PHYSIOLOGICALLY HARMONIZED TRICUSPID ANNULOPLASTY RING - A tricuspid remodeling annuloplasty ring having two free ends that are upturned in the inflow direction to help avoid unnecessary leaflet abrasion. The free ends are separated across a gap that is large enough to reduce the risk of passing sutures through the conductive system of the heart, yet not too large that support of the septal leaflet of the tricuspid annulus is degraded. The ring may have four sequential segments looking from the inflow side and extending in a clockwise direction from a free end located adjacent the antero septal commis sure after implant. The ring may define an inflow bulge in the first segment and/or an inflow bulge in the fourth segment that help the ring conform to the natural bulges created by the adjacent aorta, thereby reducing stress and the potential for ring dehiscence. Desirably, the ring has variable flexibility, either gradual and/or between or within different segments. | 12-27-2012 |
Patent application number | Description | Published |
20090177276 | Degenerative Valvular Disease Specific Annuloplasty Rings - Annuloplasty rings optimally sized to take into account more of the common degenerative valve pathologies. Each ring has a structural ring body with a shape that complies with predicted shapes of degenerative valvular diseases, such as fibroelastic deficiency (FED), Marfan's or Barlow's. The predicted shapes are obtained through careful echocardiographic and intraoperative measurements, and often differ for different annulus orifice sizes. For instance, in mitral rings the larger rings have larger minor axis and oblique axis dimensions relative to their major axis dimensions, and are more circular as opposed to D-shaped. The rings may also be three-dimensional and the relative heights around the rings may change for different sized rings. A mitral ring may have a higher anterior saddle relative to a posterior saddle, with the relative heights varying across the ring sizes. The ring may have varying flexibility around the ring periphery which also changes for different ring sizes. A bulge on the sewing cuff forms a step on the outflow side for ease of suturing, which may be indicated by a suture line. | 07-09-2009 |
20100057193 | FLEXIBLE HEART VALVE AND ASSOCIATED CONNECTING BAND - A highly flexible tissue-type heart valve is disclosed having a structural stent in a generally cylindrical configuration with cusps and commissures that are permitted to move radially. The stent commissures are constructed so that the cusps are pivotably or flexibly coupled together at the commissures to permit relative movement therebetween. The stent may be cloth-covered and may be a single element or may be made in three separate elements for a three cusp valve, each element having a cusp portion and two commissure portions; adjacent commissure portions for each pair of adjacent stent element combining to form the stent commissures. If the stent has separate elements their commissure portions may be pivotably or flexible coupled, or may be designed to completely separate into independent leaflets at bioresorbable couples. The cloth covering may have an outwardly projecting flap that mates with valve leaflets (e.g., pericardial leaflets) along the cusps and commissures. A connecting band may be provided that follows the cusps and commissures and extends outwardly. The valve is connected to the natural tissue along the undulating connecting band using conventional techniques, such as sutures. The connecting band may be a cloth-covered silicon member and attaches to the underside of the valve at the cusps to provide support to the stent and to the outer side of the valve at the commissures. The connecting band includes commissure portions defining generally axial gaps that help permit flexing of the valve. | 03-04-2010 |
20110015731 | Anatomically Approximate Prosthetic Mitral Valve - An anatomically approximate prosthetic heart valve includes dissimilar flexible leaflets, dissimilar commissures and/or a non-circular flow orifice. The heart valve may be implanted in the mitral position and have one larger leaflet oriented along the anterior aspect so as to mimic the natural anterior leaflet. Two other smaller leaflets extend around the posterior aspect of the valve. A basic structure providing peripheral support for the leaflets includes two taller commissures on both sides of the larger leaflet, with a third, smaller commissure between the other two leaflets. The larger leaflet may be thicker and/or stronger than the other two leaflets. The base structure defines a flow orifice intended to simulate the shape of the mitral annulus during the systolic phase. For example, the flow orifice may be elliptical. A relatively wide sewing ring has a contoured inflow end and is attached to the base structure in such a way that the valve can be implanted in an intra-atrial position and the taller commissures do not extend too far into the left ventricle, therefore avoiding injury to the ventricle. | 01-20-2011 |
20110034999 | DEGENERATIVE VALVULAR DISEASE SPECIFIC ANNULOPLASTY RINGS - Annuloplasty rings optimally sized to take into account more of the common degenerative valve pathologies. Each ring has a structural ring body with a shape that complies with predicted shapes of degenerative valvular diseases, such as fibroelastic deficiency (FED), Marfan's or Barlow's. The predicted shapes are obtained through careful echocardiographic and intraoperative measurements, and often differ for different annulus orifice sizes. For instance, in mitral rings the larger rings have larger minor axis and oblique axis dimensions relative to their major axis dimensions, and are more circular as opposed to D-shaped. The rings may also be three-dimensional and the relative heights around the rings may change for different sized rings. A mitral ring may have a higher anterior saddle relative to a posterior saddle, with the relative heights varying across the ring sizes. The ring may have varying flexibility around the ring periphery which also changes for different ring sizes. A bulge on the sewing cuff forms a step on the outflow side for ease of suturing, which may be indicated by a suture line. | 02-10-2011 |
20110160849 | BIMODAL TRICUSPID ANNULOPLASTY RING - A prosthetic remodeling tricuspid annuloplasty ring having two free ends can be configured to more accurately mimic native valve anatomy (e.g., shape) and movement during the cardiac cycle. A tricuspid ring can be provided with a substantially elliptical shape in the X-Y plane, and a bimodal saddle shape in the Z direction. The tricuspid ring can be configured to contract and expand during each cardiac cycle such that the area of the orifice and/or the diameter of the ring decrease with each contraction. Further, the elevation or non-planarity of the bimodal saddle shape can increase with each contraction. Movement of the tricuspid ring can vary in each different segment of the tricuspid ring. Tricuspid annuloplasty rings can be provided in a set, with changing ratios of diameter, changing out-of-plane static amplitudes, and changing amounts of dynamic movement in each different size of tricuspid ring. | 06-30-2011 |
20110224786 | Degenerative Valvular Disease Specific Annuloplasty Rings - Annuloplasty rings optimally sized to take into account more of the common degenerative valve pathologies. Each ring has a structural ring body with a shape that complies with predicted shapes of degenerative valvular diseases, such as fibroelastic deficiency (FED), Marfan's or Barlow's. The predicted shapes are obtained through careful echocardiographic and intraoperative measurements, and often differ for different annulus orifice sizes. For instance, in mitral rings the larger rings have larger minor axis and oblique axis dimensions relative to their major axis dimensions, and are more circular as opposed to D-shaped. The rings may also be three-dimensional and the relative heights around the rings may change for different sized rings. A mitral ring may have a higher anterior saddle relative to a posterior saddle, with the relative heights varying across the ring sizes. The ring may have varying flexibility around the ring periphery which also changes for different ring sizes. A bulge on the sewing cuff forms a step on the outflow side for ease of suturing, which may be indicated by a suture line. | 09-15-2011 |
20110238171 | MITRAL ANNULOPLASTY RINGS WITH SEWING CUFF - Annuloplasty rings optimally sized to take into account more of the common degenerative valve pathologies. Each ring has a structural ring body with a shape that complies with predicted shapes of degenerative valvular diseases, such as fibroelastic deficiency (FED), Marfan's or Barlow's. The predicted shapes are obtained through careful echocardiographic and intraoperative measurements, and often differ for different annulus orifice sizes. For instance, in mitral rings the larger rings have larger minor axis and oblique axis dimensions relative to their major axis dimensions, and are more circular as opposed to D-shaped. The rings may also be three-dimensional and the relative heights around the rings may change for different sized rings. A mitral ring may have a higher anterior saddle relative to a posterior saddle, with the relative heights varying across the ring sizes. The ring may have varying flexibility around the ring periphery which also changes for different ring sizes. A bulge on the sewing cuff forms a step on the outflow side for ease of suturing, which may be indicated by a suture line. | 09-29-2011 |
20110301704 | Annuloplasty Rings for Repair of Abnormal Mitral Valves - A remodeling mitral annuloplasty ring with a reduced anterior-to-posterior dimension to restore coaptation between the mitral leaflets in mitral valve insufficiency (IMVI). The ring has a generally oval shaped body with a major axis perpendicular to a minor axis, both perpendicular to a blood flow axis. An anterior section lies between anteriolateral and posteriomedial trigones, while a posterior section defines the remaining ring body and is divided into P | 12-08-2011 |
20120071970 | PHYSIOLOGIC TRICUSPID ANNULOPLASTY RING - A prosthetic tricuspid remodeling annuloplasty ring for use in tricuspid valve repairs to provide annular support after reconstructive valve surgery. The ring maintains an optimal annular dimension to prevent excessive dilatation of the natural valve annulus while adapting to the dynamic motion of the tricuspid annulus during the cardiac cycle. An exemplary ring features a waveform contour and may be constructed of a titanium core having a varying cross-section for selective flexibility for good Z-axis or out-of plane movement. The “waveform” contour and selective flexibility of the different segments of this ring are designed to adapt to the complex motion of the annulus. This reduces the stress on the anatomical structures and therefore minimizes the risk of arrhythmia and ring dehiscence. | 03-22-2012 |
20120117734 | TREATMENT OF BIOPROSTHETIC TISSUES TO MITIGATE POST IMPLANTANATION CALCIFICATION - Bioprosthetic tissues are treated by immersing or otherwise contacting fixed, unfixed or partially fixed tissue with a glutaraldehyde solution that has previously been heat-treated or pH adjusted prior to its contact with the tissue. The prior heat treating or pH adjustment of the glutaraldehyde solution causes its free aldehyde concentration to decrease by about 25% or more, preferably by as much as 50%, and allows a “stabilized” glutaraldehyde solution to be obtained at the desired concentration and pH for an optimal fixation of the tissue at high or low temperature. This treatment results in a decrease in the tissue's propensity to calcify after being implanted within the body of a human or animal patient. | 05-17-2012 |
20120123530 | PROSTHETIC HEART VALVE WITH DISSIMILAR LEAFLETS - An anatomically approximate prosthetic heart valve includes dissimilar flexible leaflets, dissimilar commissures and/or a non-circular flow orifice. The heart valve may be implanted in the mitral position and have one larger leaflet oriented along the anterior aspect so as to mimic the natural anterior leaflet. Two other smaller leaflets extend around the posterior aspect of the valve. A basic structure providing peripheral support for the leaflets includes two taller commissures on both sides of the larger leaflet, with a third, smaller commissure between the other two leaflets. The larger leaflet may be thicker and/or stronger than the other two leaflets. The base structure defines a flow orifice intended to simulate the shape of the mitral annulus during the systolic phase. | 05-17-2012 |
20120123557 | DOUBLE CROSS-LINKAGE PROCESS TO ENHANCE POST-IMPLANTATION BIOPROSTHETIC TISSUE DURABILITY - Bioprosthetic tissues and methods for making same, comprising fixing bioprosthetic implant tissue by treatment with 0.1 to 10 wt. % glutaraldehyde at elevated temperature, capping said fixed tissue by treatment with a diamine crosslinking agent, and treating said capped tissue with about 0.6 wt. % glutaraldehyde. | 05-17-2012 |
20120136434 | ERGONOMIC MITRAL HEART VALVE HOLDERS - A holder for a prosthetic mitral heart valve that attaches to an inflow end of the valve and includes a simple tensioning mechanism that flexes the heart valve commissure posts inward to help prevent suture looping. The tensioning mechanism may include relatively movable rings of the holder or a generally unitary holder with a tensor, or rotatable knob. Connecting sutures thread through internal passages in the holder and travel in the outflow direction along valve commissure posts, emerging at the post tips and mutually crossing over the outflow side of the valve. A handle attaches off-center on the holder to increase visualization of and access to the heart valve through a central window. The holder is constructed of non-metallic materials so as to avoid interfering with imaging devices, and the handle is ergonomically curved and shaped to facilitate manipulation. The holder may be shaped as a ring with an open inner diameter for enhanced access to the commissure posts and leaflets. | 05-31-2012 |
20120215304 | DEGENERATIVE VALVULAR DISEASE SPECIFIC ANNULOPLASTY RING SETS - Annuloplasty rings optimally sized to take into account more of the common degenerative valve pathologies. Each ring has a structural ring body with a shape that complies with predicted shapes of degenerative valvular diseases. The predicted shapes are obtained through careful echocardiographic and intraoperative measurements, and often differ for different annulus orifice sizes. For instance, in mitral rings the larger rings have larger minor axis and oblique axis dimensions relative to their major axis dimensions, and are more circular as opposed to D-shaped. The rings may also be three-dimensional and the relative heights around the rings may change for different sized rings. A mitral ring may have a higher anterior saddle relative to a posterior saddle, with the relative heights varying across the ring sizes. The ring may have varying flexibility around the ring periphery which also changes for different ring sizes. | 08-23-2012 |
20140130456 | Treatment of Bioprosthetic Tissues to Mitigate Post Implantation Calcification - Bioprosthetic tissues are treated by immersing or otherwise contacting fixed, unfixed or partially fixed tissue with a glutaraldehyde solution that has previously been heat-treated or pH adjusted prior to its contact with the tissue. The prior heat treating or pH adjustment of the glutaraldehyde solution causes its free aldehyde concentration to decrease by about 25% or more, preferably by as much as 50%, and allows a “stabilized” glutaraldehyde solution to be obtained at the desired concentration and pH for an optimal fixation of the tissue at high or low temperature. This treatment results in a decrease in the tissue's propensity to calcify after being implanted within the body of a human or animal patient. | 05-15-2014 |
20140222141 | PROSTHETIC MITRAL VALVE - A prosthetic mitral valve with a compressible and expandable stent that, when expanded, is circumferentially oval, elliptical, or D-shaped, with a major axis and a minor axis ratio of from about 3:4 to about 4:5. Embodiments of the stent comprise three commissure posts disposed towards an outflow end and three curved cusp regions between adjacent commissure posts. Three flexible leaflets are attached to the commissure posts in a tri-foil configuration. Embodiments of the prosthetic mitral valve include an atrial ring disposed at the inflow end of the stent. | 08-07-2014 |