Patent application number | Description | Published |
20080208286 | BAROREFLEX ACTIVATION FOR PAIN CONTROL, SEDATION AND SLEEP - Systems and methods provide baroreflex activation to treat or reduce pain and/or to cause or enhance sedation or sleep. Methods involve activating the baroreflex system to provide pain reduction, sedation, improved sleep or some combination thereof. Systems include at least one baroreflex activation device, at least one sensor for sensing physiological activity of the patient, and a processor coupled with the baroreflex activation device(s) and the sensor(s) for processing sensed data received from the sensor and for activating the baroreflex activation device. In some embodiments, the system is fully implantable within a patient, such as in an intravascular, extravascular or intramural location. | 08-28-2008 |
20080215111 | Devices and Methods for Cardiovascular Reflex Control - Devices, systems and methods are described which control blood pressure, nervous system activity, and neurohormonal activity by activating baroreceptors. By selectively and controllably activating baroreceptors, the present invention reduces excessive blood pressure, sympathetic nervous system activity and neurohormonal activity, thereby minimizing their deleterious effects on the heart, vasculature and other organs and tissues. A baroreceptor activation device is positioned near a low-pressure baroreceptor, preferably in the venous system, heart, or pulmonary vasculature. | 09-04-2008 |
20080288017 | External Baroreflex Activation - Methods and systems for external baroreflex activation of a baroreceptor system of a patient from a stimulator external to the patient. The method and devices, enable baroflex therapy on a temporary basis and/or assess the response of a patient to such baroreflex therapy. | 11-20-2008 |
20090018596 | BAROREFLEX ACTIVATION THERAPY DEVICE WITH PACING CARDIAC ELECTRICAL SIGNAL DETECTION CAPABILITY - An exemplary embodiment of the present invention provides systems, devices, and methods for using the same for activating (stimulating) the baroreflex system of a patient using a baroreflex activation system with pacing cardiac electrical signal detection capability. | 01-15-2009 |
20090030262 | BAROREFLEX ACTIVATION FOR SEDATION AND SLEEP - Systems and methods provide baroreflex activation to treat or reduce pain and/or to cause or enhance sedation or sleep. Methods involve activating the baroreflex system to provide pain reduction, sedation, improved sleep or some combination thereof. Systems include at least one baroreflex activation device, at least one sensor for sensing physiological activity of the patient, and a processor coupled with the baroreflex activation device(s) and the sensor(s) for processing sensed data received from the sensor and for activating the baroreflex activation device. In some embodiments, the system is fully implantable within a patient, such as in an intravascular, extravascular or intramural location. | 01-29-2009 |
20090030478 | Baroreflex Activation Therapy With Incrementally Changing Intensity - The present invention provides systems, devices, and methods for using the same for activating (stimulating) the baroreflex system of a patient using a baroreflex activation system with incrementally changing therapy intensity by sensing/monitoring/interpreting sensed data. | 01-29-2009 |
20090069738 | Electrode Structures Having Anti-Inflammatory Properties And Methods Of Use - Electrode structures for implantation include an electrode, an elastic backing attached to the electrode, and a sequestered drug on the backing or the electrode which is released to control and/or limit the growth of scar tissue. The elastic backing includes a tissue contacting side which contacts a tissue structure, and an exposed side away from the tissue contacting side. The electrode structure can be used to activate baroreceptors, and the backing is elastic and can stretch and retract with the tissue structure, for example the carotid sinus. The electrode and the sequestered drug can be positioned on the tissue contacting side so the drug is released near the electrode. The backing can be made from an insulating material and limit diffusion of the drug toward the exposed side, permitting scar tissue to grow near the exposed side to maintain positioning of the electrode. | 03-12-2009 |
20090132002 | BAROREFLEX ACTIVATION THERAPY WITH CONDITIONAL SHUT OFF - An exemplary embodiment of the present invention provides systems, devices, and methods for using the same for activating (stimulating) the baroreflex system of a patient using a baroreflex activation system which may be automatically shut off or discontinue therapy by sensing/monitoring/interpreting sensed data which is indicative of a physiological condition of a patient. | 05-21-2009 |
20090198294 | BAROREFLEX ACTIVATION FOR ARRHYTHMIA TREATMENT - Devices, systems and methods provide baroreflex activation to prevent, or at least reduce the likelihood of occurrence of, cardiac arrhythmias. Various embodiments may additionally or alternatively promote recovery from arrhythmias. In one embodiment, a device for preventing or reducing the likelihood of occurrence of arrhythmias includes one or more baroreflex activation devices, one or more sensors coupled to the baroreflex activation device(s), and a processor for processing information from the sensor and activating and/or modulation the baroreflex activation device. Sensors, such as electrocardiogram devices, generally sense factors indicative of a potential, ensuing arrhythmia. | 08-06-2009 |
20090198302 | MEASUREMENT OF PATIENT PHYSIOLOGICAL PARAMETERS - A method of determining one or more physiological parameter of a patient by providing a plurality of implantable electrodes proximate a blood vessel of the patient, applying a measurement signal through the plurality of electrodes, the measurement signal having a known parameter, obtaining a resultant signal through the plurality of electrodes, the resultant signal having a resultant parameter, calculating vascular impedance based on the measurement signal and the resultant signal, and calculating a physiological parameter based on the vascular impedance. In some embodiments, the physiological parameter is utilized to modify a therapy signal controlling therapy delivered to the patient. | 08-06-2009 |
20090198303 | METHOD FOR MONITORING PHYSIOLOGICAL CYCLES OF A PATIENT TO OPTIMIZE PATIENT THERAPY - Improved methods for obtaining physiological parameters of a patient in accordance with various embodiments of the present invention can be used to monitor patient status and/or in conjunction with patient therapy. Physiological parameters can be monitored with an implantable device including a first lead and a second lead. Physiological parameters can be measured along at least three distinct vectors defined by the first lead and second lead, the first lead and an electrode located on the device body, and the second lead an the electrode. An output indicative of the physiological parameter can then be provided. Therapy, such as baroreflex therapy, can optionally be optimized based on the physiological measurements. | 08-06-2009 |
20100174347 | DEVICES AND METHODS FOR CARDIOVASCULAR REFLEX CONTROL VIA COUPLED ELECTRODES - Devices, systems and methods are disclosed by which the blood pressure, nervous system activity, and neurohormonal activity may be selectively and controllably reduced by activating baroreceptors. A baroreceptor activation device is positioned near a baroreceptor, preferably a baroreceptor located in the carotid sinus. A control system may be used to modulate the baroreceptor activation device. The control system may utilize an algorithm defining a stimulus regimen which promotes long term efficacy and reduces power requirements/consumption. The baroreceptor activation device may utilize RF-coupled or other electrodes to activate the baroreceptors. The electrodes may be adapted for connection to the carotid arteries at or near the carotid sinus, and may be designed to minimize extraneous tissue stimulation. | 07-08-2010 |
20100179614 | DEVICES AND METHODS FOR CARDIOVASCULAR REFLEX CONTROL - Devices, systems and methods are disclosed by which the blood pressure, nervous system activity, and neurohormonal activity may be selectively and controllably reduced by activating baroreceptors. An intravascularly implantable medical device may include a sleeve formed at least in part of an expandable member configured to be movably attachable about at least a portion of an outer surface of an expandable intravascular stent, and one or more electrodes disposed on the sleeve and coupled to a control system and configured to selectively activate baroreceptors within a wall of a vessel when the expandable intravascular stent is implanted within the vessel. | 07-15-2010 |
20100191303 | AUTOMATIC BAROREFLEX MODULATION RESPONSIVE TO ADVERSE EVENT - A system for providing baroreflex stimulation comprises a sensor to detect a parameter and provide a signal indicative of the parameter, and a baroreflex stimulator. The baroreflex stimulator includes a driver to provide a control signal adapted to deliver a baroreflex therapy, and a controller to receive the signal indicative of the parameter and modulate the control signal based on the signal indicative of the parameter to change the baroreflex therapy from a first baroreflex therapy to a second baroreflex therapy. | 07-29-2010 |
20100222831 | ELECTRODE STRUCTURES AND METHODS FOR THEIR USE IN CARDIOVASCULAR REFLEX CONTROL - Devices, systems and methods are described by which the blood pressure, nervous system activity, and neurohormonal activity may be selectively and controllably reduced by activating baroreceptors. A baroreceptor activation device is positioned near a baroreceptor, preferably a baroreceptor located in the carotid sinus. A control system may be used to modulate the baroreceptor activation device. The control system may utilize an algorithm defining a stimulus regimen which promotes long term efficacy and reduces power requirements/consumption. The baroreceptor activation device may utilize electrodes to activate the baroreceptors. The electrodes may be adapted for connection to the carotid arteries at or near the carotid sinus, and may be designed to minimize extraneous tissue stimulation. | 09-02-2010 |
20100249874 | BAROREFLEX THERAPY FOR DISORDERED BREATHING - Devices, systems and methods are described by which the blood pressure, nervous system activity, and neurohormonal activity may be selectively and controllably reduced by activating baroreceptors. A baroreceptor activation device is positioned near a baroreceptor, preferably a baroreceptor located in the carotid sinus. A control system may be used to modulate the baroreceptor activation device. The control system may utilize an algorithm defining a stimulus regimen which promotes long term efficacy and reduces power requirements/consumption. The baroreceptor activation device may utilize electrodes to activate the baroreceptors. The electrodes may be adapted for connection to the carotid arteries at or near the carotid sinus, and may be designed to minimize extraneous tissue stimulation. | 09-30-2010 |
20110137374 | DEVICES AND METHODS FOR ELECTRODE IMPLANTATION - Systems and methods provide baroreflex activation to treat or reduce pain and/or to cause or enhance sedation or sleep. Methods involve activating the baroreflex system to provide pain reduction, sedation, improved sleep or some combination thereof. Systems include at least one baroreflex activation device, at least one sensor for sensing physiological activity of the patient, and a processor coupled with the baroreflex activation device(s) and the sensor(s) for processing sensed data received from the sensor and for activating the baroreflex activation device. In some embodiments, the system is fully implantable within a patient, such as in an intravascular, extravascular or intramural location. | 06-09-2011 |
20110172734 | BAROREFLEX MODULATION BASED ON MONITORED CARDIOVASCULAR PARAMETER - The present invention is a system for providing baroreceptor stimulation comprising, a sensor to sense a physiologic parameter and provide a signal indicative of the physiologic parameter, a baroreceptor activation device, which includes, a pulse generator to intermittently generate a stimulation signal to provide baroreceptor stimulation for a baroreflex therapy, and a control system to adjust the stimulation signal based on the signal indicative of the physiologic parameter such that the stimulation signal provides a desired baroreceptor stimulation corresponding to a desired physiologic parameter. | 07-14-2011 |
20120149998 | MEASUREMENT OF PATIENT PHYSIOLOGICAL PARAMETERS - A method of determining one or more physiological parameter of a patient by providing a plurality of implantable electrodes proximate a blood vessel of the patient, applying a measurement signal through the plurality of electrodes, the measurement signal having a known parameter, obtaining a resultant signal through the plurality of electrodes, the resultant signal having a resultant parameter, calculating vascular impedance based on the measurement signal and the resultant signal, and calculating a physiological parameter based on the vascular impedance. In some embodiments, the physiological parameter is utilized to modify a therapy signal controlling therapy delivered to the patient. | 06-14-2012 |
20120232613 | AUTOMATIC BAROREFLEX MODULATION RESPONSIVE TO ADVERSE EVENT - A system for providing baroreflex stimulation comprises a sensor to detect a parameter and provide a signal indicative of the parameter and a baroreflex stimulator. The baroreflex stimulator includes a driver to provide a control signal adapted to deliver a baroreflex therapy and a controller to receive the signal indicative of the parameter and modulate the control signal based on the signal indicative of the parameter to change the baroreflex therapy from a first baroreflex therapy to a second baroreflex therapy. | 09-13-2012 |
20120271137 | METHOD FOR MONITORING PHYSIOLOGICAL CYCLES OF A PATIENT TO OPTIMIZE PATIENT THERAPY - Improved methods for obtaining physiological parameters of a patient in accordance with various embodiments of the present invention can be used to monitor patient status and/or in conjunction with patient therapy. Physiological parameters can be monitored with an implantable device including a first lead and a second lead. Physiological parameters can be measured along at least three distinct vectors defined by the first lead and second lead, the first lead and an electrode located on the device body, and the second lead an the electrode. An output indicative of the physiological parameter can then be provided. Therapy, such as baroreflex therapy, can optionally be optimized based on the physiological measurements. | 10-25-2012 |
20120289844 | DEVICES, SYSTEMS, AND METHODS FOR IMPROVING LEFT VENTRICULAR STRUCTURE AND FUNCTION USING BAROREFLEX ACTIVATION THERAPY - Described here are devices, systems, and methods for improving left ventricular function in a patient with systolic heart failure with left ventricular dysfunction using baroreflex activation therapy. In general the systems have at least one electrode and a control system in communication with the electrode, the control system including a processor and memory, wherein the memory includes software defining a stimulus regime configured to effect improvement in left ventricular function. The methods for improving left ventricular function in a subject typically include identifying a patient in need of left ventricular function improvement and stimulating a baroreceptor with a baroreceptor activation device to improve left ventricular function. | 11-15-2012 |
20120290037 | STIMULUS REGIMENS FOR CARDIOVASCULAR REFLEX CONTROL - Baroreflex activation is achieved by providing suitable control signals to a baroreflex activation device. A method comprises establishing a therapy interval within the therapy interval, establishing a plurality of dose intervals, and generating an electrical output signal. The electrical output signal has a time dependence such that the average electrical power applied to the baroreflex activation device differs between first and second portions of at least some dose intervals. Another method comprises establishing a series of therapy interval portions, during at least some therapy intervals, establishing a plurality of burst intervals, and generating an electrical output signal. The electrical output signal has a time dependence such that the average electrical power applied to the baroreflex activation device differs between first and second portions of the therapy intervals and also differs between first and second portions of at least some burst intervals. | 11-15-2012 |
20130079617 | MEASUREMENT OF PATIENT PHYSIOLOGICAL PARAMETERS - A method of determining one or more physiological parameter of a patient by providing a plurality of implantable electrodes proximate a blood vessel of the patient, applying a measurement signal through the plurality of electrodes, the measurement signal having a known parameter, obtaining a resultant signal through the plurality of electrodes, the resultant signal having a resultant parameter, calculating vascular impedance based on the measurement signal and the resultant signal, and calculating a physiological parameter based on the vascular impedance. In some embodiments, the physiological parameter is utilized to modify a therapy signal controlling therapy delivered to the patient. | 03-28-2013 |
20130090700 | ELECTRODE STRUCTURES AND METHODS FOR THEIR USE IN CARDIOVASCULAR REFLEX CONTROL - Devices, systems and methods are described by which the blood pressure, nervous system activity, and neurohormonal activity may be selectively and controllably reduced by activating baroreceptors. A baroreceptor activation device is positioned near a baroreceptor, preferably a baroreceptor located in the carotid sinus. A control system may be used to modulate the baroreceptor activation device. The control system may utilize an algorithm defining a stimulus regimen which promotes long term efficacy and reduces power requirements/consumption. The baroreceptor activation device may utilize electrodes to activate the baroreceptors. The electrodes may be adapted for connection to the carotid arteries at or near the carotid sinus, and may be designed to minimize extraneous tissue stimulation. | 04-11-2013 |
20130253626 | DEVICES AND METHODS FOR ELECTRODE IMPLANTATION - Systems and methods provide baroreflex activation to treat or reduce pain and/or to cause or enhance sedation or sleep. Methods involve activating the baroreflex system to provide pain reduction, sedation, improved sleep or some combination thereof. Systems include at least one baroreflex activation device, at least one sensor for sensing physiological activity of the patient, and a processor coupled with the baroreflex activation device(s) and the sensor(s) for processing sensed data received from the sensor and for activating the baroreflex activation device. In some embodiments, the system is fully implantable within a patient, such as in an intravascular, extravascular or intramural location. | 09-26-2013 |
20140121556 | MEASUREMENT OF PATIENT PHYSIOLOGICAL PARAMETERS - A method of determining one or more physiological parameter of a patient by providing a plurality of implantable electrodes proximate a blood vessel of the patient, applying a measurement signal through the plurality of electrodes, the measurement signal having a known parameter, obtaining a resultant signal through the plurality of electrodes, the resultant signal having a resultant parameter, calculating vascular impedance based on the measurement signal and the resultant signal, and calculating a physiological parameter based on the vascular impedance. In some embodiments, the physiological parameter is utilized to modify a therapy signal controlling therapy delivered to the patient. | 05-01-2014 |
20140128708 | METHOD FOR MONITORING PHYSIOLOGICAL CYCLES OF A PATIENT TO OPTIMIZE PATIENT THERAPY - Physiological parameters of a patient can be used to monitor patient status and/or in conjunction with patient therapy. Physiological cycles may be monitored by implanting a monitoring system into the patient, the system including an implantable pulse generator operably connected to a lead implanted on a carotid sinus of the patient, measuring at least one signal indicative of a physiological parameter of the patient along at least two vectors selected from: a first vector defined between a first electrode of the lead and a second electrode of the lead, a second vector defined between the first electrode of the lead and an electrode integrated into an implantable pulse generator, and a third vector defined between the second electrode of the lead and the electrode integrated into the implantable pulse generator, and providing an output indicative of the at least one signal indicative of the physiological parameter. | 05-08-2014 |