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 |
20080234772 | METHOD AND DEVICE FOR MYOCARDIAL STRESS REDISTRIBUTION - Methods and devices are described for delivering electrical stimulation to the heart in a manner that advantageously redistributes myocardial stress during systole for therapeutic purposes in the treatment of, for example, post-MI and HF patients. Pre-excitation pacing may be applied to deliberately de-stress a particular myocardial region that may be expected to undergo deleterious remodeling, such an the area around a myocardial infarct or a hypertrophying region or to deliberately stress a region remote from the pre-excitation pacing site in order to exert a cardioprotective conditioning effect, similar to the beneficial effects of exercise. Pre-excitation pacing may be advantageously combined with inotropic electrical stimulation applied to the stressed region. | 09-25-2008 |
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 |
20080275350 | SYSTEM FOR ANCHORING AN IMPLANTABLE SENSOR IN A VESSEL - A system and a method of disposing a second sensor module overlying a first sensor module system is described. A first assembly including an expandable anchor and a sensor module is at least partially overlapped by a second assembly including an expandable anchor and a sensor module. If necessary or desired, the functions of the second sensor module can replace the functions of the first sensor module. The sensor module may include a blood pressure sensor. | 11-06-2008 |
20090024047 | DEVICES AND METHODS FOR RESPIRATION THERAPY - Embodiments of the invention are related to devices and methods for respiration therapy, amongst other things. In an embodiment, the invention includes a system for providing respiration therapy to a patient, including an implantable device comprising a chronically implanted respiration sensor, the respiration sensor configured to generate a signal indicative of respiration rate of the patient; and an external interface device in communication with the implantable device, the external interface device comprising an output device and configured to deliver respiration therapy to the patient, the respiration therapy comprising one or more breathing prompts generated by the output device. In an embodiment, the invention includes a method for providing respiration therapy to a patient. In an embodiment, the invention includes a method of monitoring a heart failure patient for decompensation events. Other aspects and embodiments are provided herein. | 01-22-2009 |
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 |
20090062894 | MEDICAL DEVICE ELECTRODES HAVING CELLS DISPOSED ON NANOSTRUCTURES - Electrodes for tissue stimulation and sensing can comprise a support with nanostructures disposed on the support. Pairs of the electrodes can be placed in close proximity to one another. When electrical energy is supplied to the electrodes, an electrical field (and possibly an electrical current) can be established between the nanostructures on the electrodes. The nanostructures may have cells disposed thereon, for example myocardial cells, myocardial progenitor cells, neural cells and/or stem cells. In addition, the electrodes can be arranged in arrays. | 03-05-2009 |
20090062895 | MEDICAL DEVICE ELECTRODES INCLUDING NANOSTRUCTURES - Electrodes for tissue stimulation and sensing can comprise a support with nanostructures disposed on the support. Pairs of the electrodes can be placed in close proximity to one another. When electrical energy is supplied to the electrodes, an electrical field (and possibly an electrical current) can be established between the nanostructures on the electrodes. The nanostructures may have cells disposed thereon, for example myocardial cells, myocardial progenitor cells, neural cells and/or stem cells. In addition, the electrodes can be arranged in arrays. | 03-05-2009 |
20090069855 | METHOD AND APPARATUS FOR MINIMIZING POST-INFARCT VENTRICULAR REMODELING - 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. The pre-excitation pacing in conjunction with counterpulsation therapy serves to either prevent or minimize post-infarct remodeling. | 03-12-2009 |
20090082781 | Implantable ultrasound system for maintaining vessel patency and perfusion - An apparatus comprising an implantable acoustic transducer, an acoustic transducer interface circuit communicatively coupled to the acoustic transducer, and a controller circuit communicatively coupled to the acoustic transducer interface circuit. The controller is configured to, in response to receiving an indication of a patient condition associated with a development of a blood vessel obstruction, initiate delivery of acoustic energy that mitigates the blood vessel obstruction. Other systems and methods are described. | 03-26-2009 |
20090143835 | Method and apparatus for delivering pacing pulses using a coronary stent - An implantable cardiac protection pacing system delivers pacing pulses to protect the heart from injuries associated with ischemia and myocardial infarction. The system includes an implantable pulse generator (PG) that delivers the pacing pulses and a coronary stent electrically connected to the implantable PG to function as a pacing electrode through which the pacing pulses are delivered. In one embodiment, an intravascular lead provides the electrical connection between the coronary stent and the implantable PG to allow the implantable PG to be implanted in the femoral region. In another embodiment, the coronary stent and the implantable PG are integrated into an intravascular pulse generator-stent. | 06-04-2009 |
20090171407 | METHOD AND APPARATUS FOR MINIMIZING POST-INFARCT VENTRICULAR REMODELING - A cardiac rhythm management device for in which pre-excitation pacing is applied to one or more sites in proximity to an infarcted region of the ventricular myocardium. Such pacing servers to either prevent or minimize post-infarct remodeling. | 07-02-2009 |
20090254137 | Temperature Based Systems and Methods for Tachycardia Discrimination and Therapy - Embodiments of the invention are related to an implantable medical system, amongst other things. In an embodiment, the invention includes a processor, an electrical sensor, and a temperature sensor. The processor is configured to monitor myocardial electrical activity with input from the electrical sensor; identify myocardial electrical activity indicative of an arrhythmia, measure temperature of blood in the coronary venous system with input from the temperature sensor; determine if the arrhythmia is hemodynamically stable or hemodynamically unstable based on the temperature of blood in the coronary venous system, and initiate high-voltage shock therapy if the arrhythmia is hemodynamically unstable. Other embodiments are also included herein. | 10-08-2009 |
20090254141 | APPARATUS AND METHOD FOR REVERSAL OF MYOCARDIAL REMODELING WITH ELECTRICAL STIMULATION - An apparatus and method for reversing ventricular remodeling with electro-stimulatory therapy. A ventricle is paced by delivering one or more stimulatory pulses in a manner such that a stressed region of the myocardium is pre-excited relative to other regions in order to subject the stressed region to a lessened preload and afterload during systole. The unloading of the stressed myocardium over time effects reversal of undesirable ventricular remodeling. | 10-08-2009 |
20100041984 | Impedance sensing device and catheter system - A sensing system including a collection catheter and a sensing device. The sensing system can be used in determining an optimal location of a collection catheter for the removal of a medium from coronary circulation. The sensing system can also be used in determining the optimal time for the collection of blood containing a medium. The sensing system can further be used to maintain a baseline flow rate through at least a portion of the coronary circulation system during a medical procedure. | 02-18-2010 |
20100121391 | METHOD AND APPARATUS FOR DELIVERING CHRONIC AND POST-ISCHEMIA CARDIAC THERAPIES - An implantable cardiac rhythm management (CRM) device delivers a chronic therapy while detecting an ischemic state. When the ischemic state indicates the occurrence of an ischemic event, the implantable CRM device delivers a post-ischemia therapy. The post-ischemia therapy and the chronic therapy are adjusted using feedback control with the ischemic state and parameters indicative of the effectiveness of the post-ischemic therapy and the effectiveness of the chronic therapy as inputs. | 05-13-2010 |
20100131026 | METHOD AND APPARATUS FOR USING HEART RATE VARIABILITY AS A SAFETY CHECK IN ELECTRICAL THERAPIES - A cardiac rhythm management system modulates the delivery of pacing and/or autonomic neurostimulation pulses based on heart rate variability (HRV). An HRV parameter being a measure of the HRV is produced to indicate a patient's cardiac condition, based on which the delivery of pacing and/or autonomic neurostimulation pulses is started, stopped, adjusted, or optimized. In one embodiment, the HRV parameter is used as a safety check to stop an electrical therapy when it is believed to be potentially harmful to continue the therapy. | 05-27-2010 |
20100137932 | METHOD AND APPARATUS FOR OPTIMIZING ELECTRICAL STIMULATION PARAMETERS USING HEART RATE VARIABILITY - A cardiac rhythm management system modulates the delivery of pacing and/or autonomic neurostimulation pulses based on heart rate variability (HRV). An HRV parameter being a measure of the HRV is produced to indicate a patient's cardiac condition, based on which the delivery of pacing and/or autonomic neurostimulation pulses is started, stopped, adjusted, or optimized. In one embodiment, the HRV parameter is used to evaluate a plurality of parameter values for selecting an approximately optimal parameter value. | 06-03-2010 |
20100137933 | CARDIAC RHYTHM MANAGEMENT SYSTEM WITH OPTIMIZATION OF CARDIAC PERFORMANCE USING HEART RATE - A method of optimizing inter-site delay is disclosed for a cardiac rhythm management device that includes a dual chamber pacemaker, especially designed for treating congestive heart failure by pacing a plurality of sites. A microcontroller is operative to adjust the pacing mode and inter-site delay of the pacemaker so as to achieve optimum hemodynamic performance. Atrial cycle lengths measured during transient (immediate) time intervals following a change in the mode inter-site delay are signal processed and a determination can then be made as to which particular configuration yields the optimum performance. Performance is optimized when the patient is at rest and when the patient exercises so that a rate-adapted dynamic value of the optimum performance can be applied. | 06-03-2010 |
20100145401 | MYOCARDIUM CONDITIONING USING MYOCARDIAL AND PARASYMPATHETIC STIMULATION - Various system embodiments comprise a neural stimulator, a pulse generator, and a controller. The neural stimulator is adapted to generate a neural stimulation signal. The pulse generator is adapted to generate a pacing signal to provide myocardium pacing. The controller is adapted to control the neural stimulator and the pulse generator to provide a cardioprotective conditioning therapy. The conditioning therapy includes neural stimulation to elicit a parasympathetic response and myocardium pacing. Other aspects and embodiments are provided herein. | 06-10-2010 |
20100274306 | METHOD AND APPARATUS FOR DEVICE CONTROLLED GENE EXPRESSION FOR CARDIAC PROTECTION - A gene regulatory system detects ischemia events and is capable of delivering a biologic therapy in response to the detection of an ischemic event or the reception of a command. The biologic therapy protects the heart from ischemic damage by regulating the expression of an exogenously introduced gene product. In one embodiment, the gene regulatory system includes an implantable system that emits at least one gene regulatory signal in response to the detection of the ischemic event or the reception of the command. The gene regulatory signal directly or indirectly regulates gene expression of the gene product. | 10-28-2010 |
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 |
20110106216 | BAROREFLEX STIMULATOR WITH INTEGRATED PRESSURE SENSOR - An aspect relates to an implantable medical device. An embodiment of the device comprises a pulse generator, sensor circuitry, a lead, and a controller. The pulse generator generates baroreflex stimulation pulses. The lead is adapted to be electrically connected to the pulse generator and to the sensor circuitry. The lead includes an electrode to distribute the baroreflex stimulation pulses to a baroreflex site and a pressure sensor to provide a signal indicative of blood pressure to the sensor circuitry. The controller is connected to the pulse generator and the sensor circuitry. The controller adapted to adjust the baroreflex stimulation pulses based on the blood pressure. Other aspects are provided herein. | 05-05-2011 |
20110144575 | METHOD AND APPARATUS FOR MINIMIZING POST-INFARCT VENTRICULAR REMODELING - A cardiac rhythm management device for in which pre-excitation pacing is applied to one or more sites in proximity to an infarcted region of the ventricular myocardium. Such pacing servers to either prevent or minimize post-infarct remodeling. | 06-16-2011 |
20110213436 | METHOD AND DEVICE FOR TREATING MYOCARDIAL ISCHEMIA - A method and device for treating myocardial ischemia are described in which the stress experienced by a myocardial region identified as vulnerable to becoming ischemic is varied with pre-excitation pacing. In an unloading mode, pacing is applied in proximity to the vulnerable region to reduce stress and the metabolic demand of the region. In a loading mode, pacing is applied to a region remote from the vulnerable region in order to produce a conditioning effect. | 09-01-2011 |
20110319955 | REDUCTION OF AV DELAY FOR TREATMENT OF CARDIAC DISEASE - An implantable pacing device for delivering ventricular pacing may be configured to intermittently reduce the AVD interval for beneficial effect in patients with compromised ventricular function (e.g., HF patients and post-MI patients). The AVD interval may be reduced in an AVD reduction mode, by shortening the AVD in an atrial triggered ventricular pacing mode or by switching to a non-atrial triggered ventricular pacing mode (e.g., VVI) and delivering paces at a rate above the intrinsic rate. The physiological effects of AVD reduction may be either positive or negative on cardiac output, depending upon the individual patient. | 12-29-2011 |
20120029588 | METHOD AND APPARATUS FOR CONTROL OF CARDIAC THERAPY USING NON-INVASIVE HEMODYNAMIC SENSOR - A cardiac rhythm management (CRM) system includes a non-invasive hemodynamic sensing device and an implantable medical device to sense a hemodynamic signal and derive one or more cardiac performance parameters from the hemodynamic signal. The non-invasive hemodynamic sensing device includes at least a portion configured for external attachment to a body in which the implantable medical device is implanted. The one or more cardiac performance parameters are used for various diagnostic, monitoring, and therapy control purposes. | 02-02-2012 |
20120041504 | APPARATUS FOR REVERSAL OF MYOCARDIAL REMODELING WITH PRE-EXCITATION - An apparatus for reversing ventricular remodeling with electro-stimulatory therapy. A ventricle is paced by delivering one or more stimulatory pulses in a manner such that a stressed region of the myocardium is pre-excited relative to other regions in order to subject the stressed region to a lessened preload and afterload during systole. The unloading of the stressed myocardium over time effects reversal of undesirable ventricular remodeling. | 02-16-2012 |
20120041505 | PRE-EXCITATION PACING FOR TREATMENT OF HYPERTENSION - Described herein are methods and apparatus for treating hypertension with electrical pre-excitation pacing therapy. Electrical pre-excitation of a hypertrophic region advances the timing of the regional contraction and reduces its contribution to the overall contraction. Such pre-excitation pacing therapy may be beneficial to hypertensive patients with an abnormal distribution of ventricular wall stress/strain. | 02-16-2012 |
20120041506 | 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. | 02-16-2012 |
20130150910 | APPARATUS FOR REVERSAL OF MYOCARDIAL REMODELING WITH PRE-EXCITATION - An apparatus for reversing ventricular remodeling with electro-stimulatory therapy. A ventricle is paced by delivering one or more stimulatory pulses in a manner such that a stressed region of the myocardium is pre-excited relative to other regions in order to subject the stressed region to a lessened preload and afterload during systole. The unloading of the stressed myocardium over time effects reversal of undesirable ventricular remodeling. | 06-13-2013 |
20140039312 | PACING-SITE SELECTION FOR LEAD PLACEMENT - Techniques are disclosed for pacing site selection. In one example, a method includes using a sensing element such as an ultrasonic transducer, an optical pressure sensor, a MEMS pressure sensor, a SAW pressure sensor, an accelerometer, a gyroscope, or any other suitable sensing element to sense a measure related to a cardiac strain in a heart resulting from contraction and relaxation of myocardium during a cardiac cycle. Based on the sensed strain, an output may be provided for use by a user of the system to select a segment of the heart for lead placement. | 02-06-2014 |
20140107724 | METHOD AND APPARATUS FOR SELECTIVE HIS BUNDLE PACING - A cardiac rhythm management system provides for cardiac pacing that is delivered to a target portion of conductive tissue in a heart, such as the His bundle. In various embodiments, the system is configured to verify capture of the target portion and provide for selective pacing of the target portion. In various embodiments, the system is configured to detect responses of the target portion and adjacent myocardial tissue to delivery of pacing pulses and use an outcome of the detection to verify selective capture of the target portion (i.e., without directly exciting the adjacent myocardial tissue. | 04-17-2014 |