Patent application number | Description | Published |
20080208274 | Method for treating myocardial infarction - A method for treating patients after a myocardial infarction which includes pacing therapy is disclosed. A cardiac rhythm management device is configured to deliver pre-excitation pacing to one or more sites in proximity to an infarcted region of the ventricular myocardium. Such pacing acts to minimize the remodeling process to which the heart is especially vulnerable immediately after a myocardial infarction. | 08-28-2008 |
20080215105 | CONTROLLED DELIVERY OF INTERMITTENT STRESS AUGMENTATION PACING FOR CARDIOPROTECTIVE EFFECT - A device and method for delivering electrical stimulation to the heart in a manner which provides a protective effect against subsequent ischemia is disclosed. The protective effect is produced by configuring a cardiac pacing device to intermittently switch from a normal operating mode to a stress augmentation mode in which the spatial pattern of depolarization is varied to thereby subject a particular region or regions of the ventricular myocardium to increased mechanical stress. | 09-04-2008 |
20080221636 | METHOD AND APPARATUS FOR CLOSED-LOOP INTERMITTENT CARDIAC STRESS AUGMENTATION PACING - A cardiac pacing system controls the progression of a cardiac disorder such as heart failure by delivering cardiac pacing to create or augment regional stress in the heart. The cardiac pacing is delivered intermittently, such as on a periodic basis, according to a cardiac stress augmentation pacing sequence that includes alternating pacing and non-pacing periods. One or more physiological signals are monitored for closed-loop control of the cardiac pacing using baseline characteristics of the cardiac disorder, acute cardiac stress created by the cardiac pacing, and/or risk associated with the cardiac pacing. | 09-11-2008 |
20080249583 | THERAPY CONTROL BASED ON THE RATE OF CHANGE OF INTRACARDIAC IMPEDANCE - A system comprising a medical device that includes an impedance measurement circuit adapted to be coupled to implantable electrodes to obtain an intracardiac impedance signal between electrodes, a therapy circuit operable to deliver a therapy to a subject, and a controller circuit coupled to the impedance measurement circuit and the therapy circuit. The controller circuit determines a time rate of change of the intracardiac impedance signal and adjusts at least one parameter related to therapy in a manner that alters the rate of change. | 10-09-2008 |
20080319513 | NEURAL STIMULATION WITH RESPIRATORY RHYTHM MANAGEMENT - A system embodiment comprises at least one respiration sensor, a neural stimulation therapy delivery module, and a controller. The respiration sensor is adapted for use in monitoring respiration of the patient. The neural stimulation therapy delivery module is adapted to generate a neural stimulation signal for use in stimulating the autonomic neural target of the patient for the chronic neural stimulation therapy. The controller is adapted to receive a respiration signal from the at least one respiration sensor indicative of the patient's respiration, and adapted to control the neural stimulation therapy delivery module using a respiratory variability measurement derived using the respiration signal. | 12-25-2008 |
20090036938 | METHOD AND SYSTEM FOR EXTERNAL COUNTERPULSATION THERAPY - An improved system for delivering external counterpulsation therapy is described. The system employs muscle stimulation transducers such as cutaneous electrodes in order to stimulate skeletal muscle and/or vascular smooth muscle in synchronization with the cardiac cycle in a manner that increases the fluid pressure within veins and/or arteries during cardiac diastole. | 02-05-2009 |
20090054828 | Systems for transient conduction control - The invention provides a system coupled to a heart having a right atrium (RA) and an atrioventricular (AV) node, which includes an implantable gene regulatory signal delivery device configured to deliver a light to a target site in the heart to transiently control an aberrant cardiac electrical conduction, the light having characteristics suitable for regulating a transcription control element; and an implantable medical device communicatively coupled to the implantable gene regulatory signal delivery device, the implantable medical device including: an atrial fibrillation (AF) detector configured to detect AF; and a control circuit configured to initiate an emission of the light from the implantable gene regulatory signal delivery device in response to the detection of AF. Also provided are methods to transiently control aberrant AV conduction or transiently control cardiac arrhythmias, which employ expression cassettes. | 02-26-2009 |
20090054883 | Systems and devices for photoablation - The invention provides a catheter for optical ablation of tissue in a living body, the catheter including: a distal end; a proximal end; an elongate catheter body coupled between the distal end and the proximal end; a light emission device at the distal end and configured to emit an ablation light having characteristics selected to regulate an optically regulatable transcription control element operably linked to a nucleic acid sequence for a gene product, the expression of which gene product in cells directly or indirectly kills cells; and a projection control mechanism coupled to the light emission device and configured to control an effectively illuminated area where the optically regulatable transcription control element is effectively regulatable by the ablation light projected from the light emission device. Also provided is a system which includes the catheter, and methods to prevent, inhibit or treat AF which employ an expression cassette and/or one or more selected wavelengths of light. | 02-26-2009 |