Patent application number | Description | Published |
20080280341 | System And Method For Local Field Stimulation - A system is provided for stimulating one or more cells, wherein the stimulation is sub-threshold and may alter a transmembrane potential of the one or more cells. For some populations of cells it may be possible to affect the transmembrane potential to gain a therapeutic benefit. Cells of the sino-atrial node spontaneously depolarize predominantly due to the slow depolarization of transmembrane potential. The present system may provide sino-atrial cells with a local field stimulation that while not eliciting an action potential may nonetheless alter local transmembrane potential. Such alteration of transmembrane potential may permit an increase or decrease in a rate of depolarization, and hence modify heart rate. | 11-13-2008 |
20080281369 | System And Method For Determining The Origin Of A Sensed Beat - A method for monitoring a biological cardiac pacemaker is provided. The method may include stimulating a heart at a region selected for implantation of a biological pacemaker and sensing at least one electrical signal indicative of a cardiac depolarization originating in the region selected for implantation of the biological pacemaker. The method may further include sensing at least one subsequent electrical signal produced by the heart and determining if the subsequent electrical signal originated in the region selected for the biological pacemaker or another region of the heart. In an alternative embodiment, the method may include determining a template time difference between two points on cardiac complexes sensed in two or more different cardiac locations during normal sinus rhythm. The method may further include determining a time difference between two points on a subsequent cardiac complex sensed in two or more different cardiac locations. The time differences may be compared to determine if the subsequently-sensed cardiac complex originates in a left ventricular biological pacemaker site or in another cardiac site. | 11-13-2008 |
20080281371 | Method For Controlling Pacemaker Therapy - The present invention includes a method for controlling pacemaker therapy in a patient with an implanted biological pacemaker. The method may include pacing a heart at a predetermined rate using an electronic pacemaker and configuring the pacemaker to periodically enter a biological pacemaker weaning mode. The weaning mode may include ceasing pacing for at least a predetermined length of time and monitoring the heart to detect electrical depolarizations of a ventricle of the heart during the predetermined length of time. The weaning mode may further include determining the length of time between the cessation of pacing and the detected electrical depolarization and determining if the length of time between the cessation of pacing and the detected electrical depolarization is less than a maximum predetermined interval. The pacemaker therapy may be withheld as long as the length of time is less than the maximum predetermined interval. Further, if the length of time exceeds a maximum interval, the pacemaker will exit the weaning mode. | 11-13-2008 |
20080286324 | MEDIA AND DEVICES FOR COLD STORAGE OF THERAPEUTIC CELLS - The invention provides a composition for cold storage of cells which includes a population of isolated stem cells, a cell medium, and isolated trophic factors, as well as devices having a plurality of the trophic factors. | 11-20-2008 |
20100081948 | METHOD AND APPARATUS FOR LOCALIZING MYOCARDIAL INFARCTION DURING CATHETERIZATION - A catheter with a tissue property sensor provides for localization of myocardial infarction (MI) by utilizing one or more differences between properties of infarcted myocardial tissue and properties of normal myocardial tissue. The tissue property sensor is to be placed on endocardial wall or epicardial wall during catheterization to sense at least one tissue property allowing for detection of MI. Examples of the tissue property sensor include, but are not limited to, an optical sensor, an acoustic sensor, a contractility sensor, a temperature sensor, and a drug response sensor. In one embodiment, the tissue property sensor senses a tissue property in various locations on endocardial wall or epicardial wall and detects substantial changes in the tissue property that indicate a boundary between infarcted tissue and normal tissue. | 04-01-2010 |
20100130913 | INTEGRATED CATHETER AND PULSE GENERATOR SYSTEMS AND METHODS - Disclosed herein, among other things, is a system for providing pacing during revascularization. An embodiment of the system includes an angioplasty or stent delivery catheter system having a catheter, a balloon and an inflation device adapted to inflate and deflate the balloon for delivery of a stent. The embodiment also includes a programmable pulse generator and at least one electrode integrated with the angioplasty catheter system, where the pulse generator is connected to the electrode. In various embodiments, at least one integrated sensor is connected to the angioplasty catheter system. The sensor is adapted to sense a parameter indicative of flow restoration and trigger the pulse generator to begin pacing based on the parameter. | 05-27-2010 |
20100179609 | METHOD FOR PREPARING AN IMPLANTABLE CONTROLLED GENE OR PROTEIN DELIVERY DEVICE - An implantable system which includes a gene/protein delivery device and a pulse generator, as well as method of preparing the gene/protein delivery device and using the system, are provided. In one embodiment, the implantable system detects a predetermined condition or event and, in response, delivers gene(s) and/or protein(s) in conjunction with delivering pacing and/or defibrillation pulses. | 07-15-2010 |
20100286592 | METHOD TO MODULATE CELLULAR REGENERATION POST MYOCARDIAL INFARCT - A system delivers cardiac pacing therapy and chemical and/or biological therapy to modulate myocardial tissue growth in a heart after myocardial infarction (MI). The system includes an agent delivery device to release one or more agents to an MI region to modulate myocardial tissue growth in that region, and a cardiac rhythm management (CRM) device to deliver pacing pulses to enhance the effects of the one or more agents by altering myocardial wall stress and cardiac workload. In one embodiment, the system is an implantable system including an implantable agent delivery device and an implantable CRM device. | 11-11-2010 |
20130238046 | SYSTEM AND METHOD FOR DETERMINING THE ORIGIN OF A SENSED BEAT - A method for monitoring a biological cardiac pacemaker is provided. The method may include stimulating a heart at a region selected for implantation of a biological pacemaker and sensing at least one electrical signal indicative of a cardiac depolarization originating in the region selected for implantation of the biological pacemaker. The method may further include sensing at least one subsequent electrical signal produced by the heart and determining if the subsequent electrical signal originated in the region selected for the biological pacemaker or another region of the heart. In an alternative embodiment, the method may include determining a template time difference between two points on cardiac complexes sensed in two or more different cardiac locations during normal sinus rhythm. The method may further include determining a time difference between two points on a subsequent cardiac complex sensed in two or more different cardiac locations. The time differences may be compared to determine if the subsequently-sensed cardiac complex originates in a left ventricular biological pacemaker site or in another cardiac site. | 09-12-2013 |