Patents Assigned to Cardiopulmonics, Inc.
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Patent number: 5342693Abstract: The present invention is directed to multifunctional thrombo-resistant coatings for use with biomedical devices and implants, such as a coating which includes a siloxane surface onto which a plurality of amine functional groups have been bonded. Covalently bonded to the amine functional groups are a plurality of poly(ethylene oxide) chains, such that a single poly(ethylene oxide) chain is bonded to a single amine functional group. A plurality of different bioactive molecules, designed to counteract specific blood-material incompatibility reactions, are covalently bonded to poly(ethylene oxide) chains, such that a single bioactive molecule is coupled to a single polyethylene oxide chain.The methods of manufacturing the present invention include preparing a material having a siloxane surface onto which a plurality of amine functional groups have been bonded. This is achieved by plasma etching with ammonia gas or by plasma polymerization of a siloxane monomer in the presence of ammonia gas.Type: GrantFiled: March 22, 1993Date of Patent: August 30, 1994Assignee: Cardiopulmonics, Inc.Inventors: Suzanne Winters, Kenneth A. Solen, Clifton G. Sanders, J. D. Mortensen, Gaylord Berry
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Patent number: 5338770Abstract: The present invention is directed to thrombo-resistant coatings for use with gas permeable biomedical devices and implants. The coatings include a siloxane surface onto which a plurality of amine functional groups have been bonded. Covalently bonded to the amine functional groups are a plurality of poly(ethylene oxide) chains, such that a single poly(ethylene oxide) chain is bonded to a single amine functional group. A quantity of at least one bioactive molecule designed to counteract a specific blood-material incompatibility reaction is covalently bonded to the poly(ethylene oxide) chains, such that a single bioactive molecule is coupled to a single polyethylene oxide chain.The methods of manufacturing the present invention include preparing a material having a siloxane surface onto which a plurality of amine functional groups have been bonded. This is preferably achieved by plasma etching with ammonia gas.Type: GrantFiled: April 12, 1990Date of Patent: August 16, 1994Assignee: Cardiopulmonics, Inc.Inventors: Suzanne Winters, Kenneth A. Solen, Clifton G. Sanders, JD Mortensen, Gaylord Berry
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Patent number: 5262451Abstract: The present invention is directed to multifunctional thrombo-resistant coatings for use with biomedical devices and implants, such as a coating which includes a siloxane surface onto which a plurality of amine functional groups have been bonded. Covalently bonded to the amine functional groups are a plurality of poly(ethylene oxide) chains, such that a single poly(ethylene oxide) chain is bonded to a single amine functional group. A plurality of different bioactive molecules, designed to counteract specific blood-material incompatibility reactions, are covalently bonded to poly(ethylene oxide) chains, such that a single bioactive molecule is coupled to a single polyethylene oxide chain.The methods of manufacturing the present invention include preparing a material having a siloxane surface onto which a plurality of amine functional groups have been bonded. This is achieved by plasma etching with ammonia gas or by plasma polymerization of a siloxane monomer in the presence of ammonia gas.Type: GrantFiled: July 5, 1988Date of Patent: November 16, 1993Assignee: Cardiopulmonics, Inc.Inventors: Suzanne Winters, Kenneth A. Solen, Clifton G. Sanders, J. D. Mortensen, Gaylord Berry
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Patent number: 5230862Abstract: An extracorporeal blood oxygenation device having a sealed casing containing a bundle comprised of a plurality of gas permeable tubes for efficient gas transfer. The bundle is woven from tubes having at least two different sizes, at least the smaller diameter tubes being gas permeable. The tubes are relatively non-thrombogenic and are open at each end to an enclosed annular chamber having attached input and output fittings. Oxygen-rich gas flows into one annular chamber through an input fitting before flowing through the gas permeable tubes. Venous blood to be oxygenated is introduced into the sealed casing directly into the center of the bundle for dispersement radially outward through the bundle and across the gas permeable tubes wherein the blood comes in contact with the membrane surface of the gas permeable tubes and exchanges carbon dioxide for oxygen across that surface before being collected from around the perimeter of the bundle for return to the patient.Type: GrantFiled: August 16, 1991Date of Patent: July 27, 1993Assignee: Cardiopulmonics, Inc.Inventors: Gaylord Berry, Shigemasa Osaki, J. D. Mortensen
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Patent number: 5182317Abstract: The present invention is directed to multifunctional thrombo-resistant coatings for use with biomedical devices and implants, such as a coating which includes a siloxane surface onto which a plurality of amine functional groups have been bonded. Covalently bonded to the amine functional groups are a plurality of poly(ethylene oxide) chains, such that a single poly(ethylene oxide) chain is bonded to a single amine functional group. A plurality of different bioactive molecules, designed to counteract specific blood-material incompatibility reactions, are covalently bonded to poly(ethylene oxide) chains, such that a single bioactive molecule is coupled to a single polyethylene oxide chain. The method of manufacturing the present invention include preparing a material having a siloxane surface onto which a plurality of amine functional groups have been bonded. This is achieved by plasma etching with ammonia gas or by plasma polymerization of a siloxane monomer in the presence of ammonia gas.Type: GrantFiled: June 17, 1991Date of Patent: January 26, 1993Assignee: Cardiopulmonics, Inc.Inventors: Suzanne Winters, Kenneth A. Solen, Clifton G. Sanders, J. D. Mortensen, Gaylord Berry
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Patent number: 5158534Abstract: A system for delivering oxygen to a gas permeable membrane oxygenator is disclosed. The system may include an integral source of gas under pressure and a source of vacuum. A first mass flow controller is connected to the source of gas upstream in the gas flow from the gas exchange device. A pressure valve is positioned in the gas flow between the first mass flow controller and the membrane oxygenator. An atmospheric vent is positioned between the pressure valve and the first mass flow controller. A second mass flow controller is positioned downstream from the gas exchange device and is connected to the source of vacuum. A central controller commands the pressure valve to maintain the pressure at the inlet of the gas exchange device at a subatmospheric pressure. The second mass flow controller is commanded to maintain a rate of flow which is desired through the gas exchange device.Type: GrantFiled: July 3, 1990Date of Patent: October 27, 1992Assignee: CardioPulmonics, Inc.Inventors: Gaylord L. Berry, Yansong Shan
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Patent number: 5125902Abstract: A sheath and obturator is provided for facilitating the insertion of certain medical devices into a patient's vascular system, a vein, or venous system and in particular an in vivo extrapulmonary blood gas exchange device having a bundle comprised of a plurality of elongated gas permeable tubes being potted at each end and enclosed within a respective air tight proximal and distal chamber. The sheath is hollow and substantially tubular with a tapered receiving portion and a nontapered, curved entry portion. The obturator has a tip at the distal end of the obturator and a trip at the proximal end with an elongate member therebetween. The sheath is configured to receive the obturator in sliding engagement such that when the obturator is fully inserted within the sheath, the tip closes the opening at the entry end of the sheath and protrudes slightly therefrom. The obturator has a vent which provides a passage from space exterior to the sheath into the hollow interior of the sheath.Type: GrantFiled: March 2, 1990Date of Patent: June 30, 1992Assignee: CardioPulmonics, Inc.Inventors: Gaylord L. Berry, J. D. Mortensen, Mitchell D. Baldwin, Larry D. Rigby
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Patent number: 5125915Abstract: A connector for applying to the exterior of an elongated member of circular cross-section circumferentially uniform radially directed compressive forces by which to effect attachment and fluid-tight sealing thereagainst. The connector comprises an attachment fitting having formed therethrough a bore for slidably receiving the elongated member and a coaxially disposed, radially enlarged compression recess communicating therewith. A flexible annular gripping member resides in the compression recess slidably circling the elongated member. A locking hub disposed at the end of the compression recess remote from the bore has a compression face which extends into compression recess.Type: GrantFiled: March 2, 1990Date of Patent: June 30, 1992Assignee: Cardiopulmonics, Inc.Inventors: Gaylord L. Berry, W. Lynn Kerby
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Patent number: 5098376Abstract: An in vivo extrapulmonary blood gas exchange device is disclosed having a hollow fiber bundle in gaseous communication with a coaxial dual lumen tube and having a furling apparatus for twisting one coaxial lumen relative to the other. The furling apparatus enables the outside diameter of the bundle of gas permeable tubes to be selectively adjusted to provide either a furled, small insertion diameter when inserting the apparatus into the venae cavae of a patient or an unfurled, expanded oxygenation diameter after the apparatus is in place within the venae cavae and the bundle of gas permeable tubes is deployed therein. The oxygenator is inserted into the patient through a single incision at one of the right external iliac, common femoral, or internal jugular veins. A novel distal tip configuration permits the oxygenator to be inserted into the patient utilizing an over-the-guidewire intravascular insertion technique.Type: GrantFiled: December 22, 1989Date of Patent: March 24, 1992Assignee: Cardiopulmonics, Inc.Inventors: Gaylord L. Berry, J. D. Mortensen, Mitchell D. Baldwin
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Patent number: 4850958Abstract: An in vivo extrapulmonary blood gas exchange device having a bundle comprised of a plurality of elongated gas permeable tubes being bound at each end and enclosed within a respective air tight proximal and distal chamber. A dual lumen tube having an outer lumen and an inner lumen is situated relative to the gas permeable tubes such that the outer lumen terminates within the proximal chamber and such that the inner lumen terminates within the distal chamber. The apparatus includes means for selectively adjusting the overall, outside diameter of the bundle of gas permeable tubes to provide either a furled, small insertion diameter when inserting the apparatus into the venae cavae of a patient or an unfurled, expanded oxygenation diameter after the apparatus is in place within the venae cavae and the bundle of gas permeable tubes is deployed therein. The apparatus is inserted into the patient through a single incision at one of the right external iliac, common femoral or internal jugular veins.Type: GrantFiled: June 8, 1988Date of Patent: July 25, 1989Assignee: Cardiopulmonics, Inc.Inventors: Gaylord Berry, J. D. Mortensen, Larry D. Rigby