Patent application number | Description | Published |
20090082778 | APPLICATOR, ASSEMBLY, AND METHOD FOR CONNECTING AN INLET CONDUIT TO A HOLLOW ORGAN - The invention provides an applicator for forming a hole in a wall of a hollow organ and for connecting a hemostatic connection assembly to the hollow organ, wherein, when the hole is formed in the wall of the hollow organ, a first fluid seal exists between the hemostatic connection assembly and the wall of the hollow organ and a second fluid seal exists between the hemostatic connection assembly and the applicator, thereby minimizing fluid loss from the hollow organ. The invention further provides a hemostatic connection assembly for connecting an inlet conduit to a hollow organ, the hemostatic connection assembly comprising a organ wall connection portion, a cuff portion, an extension portion, and a seal ring portion, wherein, during the process of connecting the inlet conduit to the hollow organ, a first fluid seal exists between the organ wall connection portion and the wall of the hollow organ, and a second fluid seal exists between the hemostatic connection assembly and the inlet conduit, thereby minimizing fluid loss from the hollow organ. A method is also disclosed in which the applicator and hemostatic connection assemblies of the invention are used to connect an inlet conduit to a hollow organ. | 03-26-2009 |
20100010500 | Apparatus and method for connecting a conduit to a hollow organ - An apparatus and method for connecting a first conduit to the heart without the need for cardiopulmonary bypass. The first conduit may then be attached to a second conduit that has a prosthetic device interposed. The second conduit may then be connected to the aorta. The prosthetic device may be a prosthetic valve or a pump, for example. The apparatus of the present invention includes an implantable connector with first conduit component, a retractor expansion component, a coring component, and a pushing component. The retractor expansion component is slide-ably coupled to the coring component. The retractor expansion component serves to seat against and separate the inside apical wall of the left ventricle so that the coring component may cut cleanly through the myocardium to form a tissue plug without leaving any hanging attachments to the inside walls. By remaining seated against the inside wall, the retractor expansion component follows the tissue plug into the coring component. The surgeon applies force and rotary motion to the pushing component sufficient to cut the tissue plug and implant the prosthetic component. | 01-14-2010 |
20110071455 | METHOD AND APPARATUS FOR SUTURELESSLY CONNECTING A CONDUIT TO A HOLLOW ORGAN - An implantable connector for suturelessly connecting a conduit to a hollow organ, the implantable connector comprising: | 03-24-2011 |
20110118651 | METHOD AND APPARATUS FOR EFFECTING A PERCUTANEOUS AORTIC VALVE BYPASS - A method for performing a percutaneous valve bypass, the method comprising:
| 05-19-2011 |
20110118763 | METHOD AND APPARATUS FOR EFFECTING AN AORTIC VALVE BYPASS, INCLUDING THE PROVISION AND USE OF A T-STENT FOR EFFECTING A DISTAL ANASTOMOSIS FOR THE SAME - A connector for joining a first hollow structure to the side wall of a second hollow structure, the connector comprising:
| 05-19-2011 |
20110118764 | METHOD AND APPARATUS FOR EFFECTING A MINIMALLY INVASIVE DISTAL ANASTOMOSIS FOR AN AORTIC VALVE BYPASS - A connector for joining a first hollow structure to the side wall of a second hollow structure, the connector comprising:
| 05-19-2011 |
20110196408 | Apparatus and method for forming a hole in a hollow organ - The invention relates to an apparatus and method for forming a hole in a wall of a hollow organ. The applicator includes a hole forming element for forming a hole in the wall of the organ, a positioning means for positioning the hole forming element, and a retractor element. In addition, the applicator includes a sequencing means for coordinating the relative movement of the retractor element and the hole forming element in a sequential manner to thereby carry out a procedure for forming a hole in the wall of the hollow organ. The sequencing means may further include a safety latch element operatively coupled to the retracting means and the hole forming element. The safety latch of the invention keeps prevents damage to the internal surface of the organ during the formation of the hole. | 08-11-2011 |
20130218261 | APPARATUS AND METHOD FOR CONNECTING A CONDUIT TO A HOLLOW VESSEL - An applicator for forming a hole in a wall of a hollow vessel and engaging a graft, the applicator comprising: a hole forming element adapted to form a hole in the wall of the vessel, the hole forming element comprising a cutting element adapted to cut a hole in the wall of the vessel and a positioning element adapted to hold the position of the applicator relative to the vessel; and an insertion element adapted to be inserted through the wall of the vessel, the insertion element comprising a retraction element adapted to enter into engagement with a graft. | 08-22-2013 |
20140100430 | APPLICATOR, ASSEMBLY, AND METHOD FOR CONNECTING AN INLET CONDUIT TO A HOLLOW ORGAN - The invention provides an applicator for forming a hole in a wall of a hollow organ and for connecting a hemostatic connection assembly to the hollow organ, wherein, when the hole is formed in the wall of the hollow organ, a first fluid seal exists between the hemostatic connection assembly and the wall of the hollow organ and a second fluid seal exists between the hemostatic connection assembly and the applicator, thereby minimizing fluid loss from the hollow organ. The invention further provides a hemostatic connection assembly for connecting an inlet conduit to a hollow organ, the hemostatic connection assembly comprising a organ wall connection portion, a cuff portion, an extension portion, and a seal ring portion, wherein, during the process of connecting the inlet conduit to the hollow organ, a first fluid seal exists between the organ wall connection portion and the wall of the hollow organ, and a second fluid seal exists between the hemostatic connection assembly and the inlet conduit, thereby minimizing fluid loss from the hollow organ. A method is also disclosed in which the applicator and hemostatic connection assemblies of the invention are used to connect an inlet conduit to a hollow organ. | 04-10-2014 |
20140155983 | METHOD AND APPARATUS FOR EFFECTING AN AORTIC VALVE BYPASS, INCLUDING THE PROVISION AND USE OF A T-STENT FOR EFFECTING A DISTAL ANASTOMOSIS FOR THE SAME - A connector for joining first and second hollow structures, comprising a fluid-constraining tube having a fluid-constraining neck extending therefrom, wherein the tube and the neck each comprise a lumen having first and second openings, the neck being joined to the tube such that fluid entering the first opening of the tube can exit the second opening of the tube, and fluid entering the first opening of the neck can exit the second opening of the tube; at least the portions of the tube adjacent to the first and second openings of the tube being biased radially outwardly so that they normally assume a radially-expanded configuration, but being capable of being restrained in a radially-contracted configuration, wherein the tube is sized so that, when it is in its radially-expanded configuration, it has an outer diameter which is larger than the inner diameter of the second hollow structure. | 06-05-2014 |
20140194909 | METHOD AND APPARATUS FOR EFFECTING A MINIMALLY INVASIVE DISTAL ANASTOMOSIS FOR AN AORTIC VALVE BYPASS - A connector for joining a first hollow structure to the side wall of a second hollow structure, the connector comprising a first component comprising an inner collar; a hollow body; and a graft mounted to the inner collar and forming a conduit through the hollow body and the inner collar; and a second component comprising an outer collar and a hollow body, the hollow body of the second component being sized for coaxial disposition over the hollow body of the first component so that the outer collar of the second component can be adjustably positioned relative to the inner collar of the first component and so that the conduit of the graft provides fluid communication between (i) the region beyond the inner collar, and (ii) the region beyond the hollow body of the first component. | 07-10-2014 |
20140200501 | METHOD AND APPARATUS FOR SUTURELESSLY CONNECTING A CONDUIT TO A HOLLOW ORGAN - An implantable connector for suturelessly connecting a conduit to a hollow organ, the implantable connector comprising: a hollow expandable stent, wherein the hollow expandable stent comprises an internal skeleton and a blood-retaining membrane covering the internal skeleton, and wherein the hollow expandable stent is constructed so that it is capable of assuming (i) a diametrically-reduced state for insertion into an opening formed in the side wall of the hollow organ in order to create a first interference fit therewith, and (ii) a diametrically-expanded state for expanding against the side wall of the hollow organ in order to create a second, enhanced interference fit therewith. | 07-17-2014 |
20150031959 | APPARATUS AND METHOD FOR FORMING A HOLE IN A HOLLOW ORGAN - The invention relates to an apparatus and method for forming a hole in a wall of a hollow organ. The applicator includes a hole forming element for forming a hole in the wall of the organ, a positioning means for positioning the hole forming element, and a retractor element. In addition, the applicator includes a sequencing means for coordinating the relative movement of the retractor element and the hole forming element in a sequential manner to thereby carry out a procedure for forming a hole in the wall of the hollow organ. The sequencing means may further include a safety latch element operatively coupled to the retracting means and the hole forming element. The safety latch of the invention keeps prevents damage to the internal surface of the organ during the formation of the hole. | 01-29-2015 |
Patent application number | Description | Published |
20090186966 | THERMOPLASTIC POLYESTERCARBONATE COMPOSITION - A thermoplastic composition is disclosed, comprising a polymer comprising: a polymer component comprising a polyestercarbonate copolymer comprising carbonate units and ester units having an aliphatic group, wherein the molar ratio of carbonate units to ester units in the polyestercarbonate copolymer is from 99:1 to 60:40; and 0.01 to 10 weight percent, based on the total weight of the polymer component, of a polymeric stabilizing compound comprising at least two epoxy groups, wherein the polymeric stabilizing compound has a weight average molecular weight of 1,000 to 18,000 Daltons; and wherein the thermoplastic composition has greater than 70% molecular weight retention after exposure to steam at 115° C. for 7 days. Also disclosed are articles comprising the composition. | 07-23-2009 |
20090259014 | PROCESS FOR PREPARING POLYESTERCARBONATES - Processes for preparing polyestercarbonates are disclosed. The processes allow for the consistent incorporation of adipic acid into a polymer generated from a dihydroxy compound, such as bisphenol-A, at levels greater than 99%. The polyestercarbonates so produced, as well as articles formed from the polyestercarbonates, are also disclosed herein. | 10-15-2009 |
20120287556 | AMORPHOUS POLYCARBONATE FILMS FOR CAPACITORS, METHODS OF MANUFACTURE, AND ARTICLES MANUFACTURED THEREFROM - A uniaxially-stretched, extruded film comprising a polycarbonate, wherein the extruded film has at least one wrinkle-free region having a first surface and a second surface, the at least one extruded wrinkle-free region comprising: an extruded thickness of more than 0 and less than 7 micrometer, and a variation of the thickness of the film of +/−10% of the thickness of the film, and a surface roughness average that is less than +/−3% of the average thickness of the film as measured by optional profilometery; and further wherein the film has a dielectric constant at 1 kHz and room temperature of at least 2.7; a dissipation factor at 1 kHz and room temperature of 1% or less; and a breakdown strength of at least 300 Volt/micrometer. | 11-15-2012 |
Patent application number | Description | Published |
20140060812 | Standoff Device For Downhole Tools Using Slip Elements - A device and method for use is provided for grippingly engaging a tubular, in particular for gripping a wellbore casing. Drillable bridge plugs may use hardened buttons or other slip arrangements and materials that may be susceptible to damage when the bridge is being run into the wellbore. It may be desirable to protect the slip ring or the hardened buttons by shielding the buttons during run-in or by providing a standoff device so that the buttons may be prevented from contacting the casing until desired. | 03-06-2014 |
20140090831 | Non-metallic Slips having Inserts Oriented Normal to Cone Face - A slip assembly for a downhole tool, such as a composite plug, has a slip body and at least one insert. The slip body has an incline at one end that interfaces with an inclined surface of a cone. As this occurs, the slip body is pushed away from the tool's mandrel against a surrounding casing wall. The insert is disposed in the slip body with the axis of the insert angled away from the cone. In particular, the insert's axis is preferably angled normal to the slip body's incline and the inclined surface of the cone. | 04-03-2014 |
20150027737 | Insert Units for Non-metallic Slips Oriented Normal to Cone Face - A slip assembly for a downhole tool, such as a bridge plug, has a slip body and at least one insert unit with a base and one or more inserts. The slip body has an incline at one end that interfaces with an inclined surface of a cone. As this occurs, the slip body is pushed away from the tool's mandrel against a surrounding casing wall. The insert unit is disposed in the slip body with the base oriented at an angle relative to the incline, and with the one or more inerts extending from the base. In particular, the base can be disposed at or parallel to the incline, and the one or more inserts with less surface area than the base can extend perpendicular to the inline for the insert's distal ends to engage a surrounding wall of casing or the like. | 01-29-2015 |