Abstract: Methods are provided for forming a coating of an immobilized biomolecule on a surface of a medical device to impart improved biocompatibility for contacting tissue and bodily fluids. A biomolecule such as a glycoprotein having an unsubstituted amide moiety is combined with an amine forming agent to form an amine-functional biomolecule. The amine-functional biomolecule is combined with a medical device surface having a chemical moiety such as aldehyde, epoxide, isocyanate, 1,2-dicarbonyl, phosphate, sulphate or carboxylate to form a chemical bond immobilizing the biomolecule on the surface. The chemical bond may be combined with a reducing agent or a stabilizing agent. The aldehyde moiety may be formed by combining a periodate with a 2-aminoalcohol moiety or a 1,2-dihydroxy moiety. Alternatively, an amine-functional medical device surface is combined with a biomolecule having a chemical moiety that reacts with an amine moiety.
Abstract: Delivery systems for and methods of delivering ion channel protein genetic material to cardiac cells in areas adjacent to where an electrode is to be positioned in a patient's heart to improve or correct the signal to noise ratio of cardiac signals, such as the P-wave, is described herein. More specifically, there is provided a system and method for delivering sodium ion channel proteins or nucleic acid molecules encoding sodium ion channel proteins to a site in the heart adjacent to an electrode to increase the expression of the same, thereby enhancing the cardiac signal amplitude and enabling improved sensing of cardiac signals by an implanted pacemaker.
Abstract: A medical device comprising a biomaterial formed from a polymer comprising urethane groups, urea groups, or combinations thereof, and sacrificial moieties that preferentially oxidize relative to other moieties in the polymer.
Type:
Grant
Filed:
June 13, 2000
Date of Patent:
August 20, 2002
Assignee:
Medtronic, Inc.
Inventors:
Edward DiDomenico, David L. Miller, Michael Eric Benz
Abstract: A calibrated medical sensing catheter system in which a catheter-mounted sensor may be calibrated in a simple and reliable manner. In one embodiment the calibration may be performed using a disposable vessel containing two volumes of calibrating fluid, each volume separately accessible by the sensor to be calibrated. Preferably, such a vessel takes the form of an elongated tube having a first volume at one end and a second volume at the other end, each volume containing distinct calibrating fluids. Each volume may be accessed through the respective ends of the tube by introducing a sensor through a pierceable membrane, such as a foil-plastic membrane or seal. In an alternative embodiment the calibrated vessel takes the form of an elongated cylinder having two separate volumes of calibrating fluid separated by a common pierceable membrane or seal.