Class / Patent application number | Description | Number of patent applications / Date published |
607044000 | Hypertension treating | 88 |
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 |
20080228238 | AUTOMATIC BAROREFLEX MODULATION BASED ON CARDIAC ACTIVITY - An aspect relates to a system for providing baroreflex stimulation. An embodiment of the system comprises a cardiac activity monitor to sense cardiac activity and provide a signal indicative of the cardiac activity, and a baroreflex stimulator. The stimulator includes a pulse generator and a modulator. The pulse generator provides a baroreflex stimulation signal adapted to provide a baroreflex therapy. The modulator receives the signal indicative of the cardiac activity and modulates the baroreflex stimulation signal based on the signal indicative of the cardiac activity to change the baroreflex therapy from a first baroreflex therapy to a second baroreflex therapy. | 09-18-2008 |
20080234779 | MINIMALLY INVASIVE INTRAOPERATIVE MODULATION OF PATIENT PARAMETERS USING BAROREFLEX ACTIVATION - A baroreflex therapy system for providing intraoperative patient treatment. The system comprises an internal activation device adapted to be inserted into the throat area of a patient, an external activation device adapted to be located on the outside of a body of a patient such that an anatomical structure within the patient capable of creating a baroreflex response is located between the internal activation device and the external activation device, and an external controller, including a pulse generator operably connected to the internal activation device and the external activation device to deliver baroreflex therapy between the internal activation device and the external activation device. | 09-25-2008 |
20080269833 | Trans-esophageal vagus nerve stimulation - Devices and methods of non-surgically providing vagus nerve therapy trans-esophageally to treat a variety of medical conditions are disclosed herein. In an embodiment, an implantable medical device comprises a support member having an outer surface. The support member is adapted to engage the inner wall of an esophagus. The IMD also comprises at least one electrode disposed on the outer surface of the support member. The at least one electrode is capable of applying a trans-esophageal electrical signal to the vagus nerve through the wall of the esophagus from the inner lumen thereof. The implantable medical device further comprises a signal generator coupled to the support member and to the at least one electrode. The signal generator causes the at least one electrode to apply an electrical signal to the vagus nerve to treat a medical condition. | 10-30-2008 |
20080269834 | Non-Surgical Device and Methods for Trans-Esophageal Vagus Nerve Stimulation - The present invention provides for a method and apparatus for providing trans-esophageal electrical signal therapy to a portion of a vagus nerve of a patient to treat a medical condition. An implantable medical device comprising at least one electrode is implanted in an inner lumen of the esophagus of the patient. At least one electrode is electrically coupled to the inner lumen of the esophagus. An electrical signal from the IMD is provided to a target portion of the vagus nerve through at least a portion of the wall of the esophagus for treating the medical condition. | 10-30-2008 |
20080288016 | SYSTEMS AND METHODS FOR STIMULATING NEURAL TARGETS - Disclosed herein, among other things, is a method for stimulating neural targets in the vicinity of a human ear. According to an embodiment, a device is clipped on a patient ear lobe, the device including a neural stimulation electrode. A neural stimulation signal is applied to the electrode to transcutaneously stimulate neural targets in the vicinity of the ear lobe, according to an embodiment. A physiological parameter is sensed using a sensor connected to the device. According to an embodiment, the neural stimulation signal is adjusted in response to the sensed parameter. The method is used is a variety of treatment regimens, including anti-hypertensive and cardiac improvement therapy. | 11-20-2008 |
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 |
20090018607 | METHODS AND DEVICES FOR CONTROLLING BATTERY LIFE IN AN IMPLANTABLE PULSE GENERATOR - Methods, devices, and systems for controlling an implantable pulse generator for activation of a nerve or receptor are provided. In particular, the method, devices, and systems embodying features of the present invention control the energy output of a battery in an implantable pulse generator for stimulation of the baroreflex system of the patient. | 01-15-2009 |
20090018608 | CARDIAC STIMULATION APPARATUS AND METHOD FOR THE CONTROL OF HYPERTENSION - The method calls for the periodic electrical stimulation of the heart muscle to alter the ejection profile of the heart thus reducing the observed blood pressure of the patient. The therapy may be invoked by an implantable blood pressure sensor associated with a pacemaker like device. | 01-15-2009 |
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 |
20090036948 | RENAL NERVE STIMULATION METHODS FOR TREATMENT OF PATIENTS - A method and apparatus for treatment of heart failure, hypertension and renal failure by stimulating the renal nerve. The goal of therapy is to reduce sympathetic activity of the renal nerve. Therapy is accomplished by at least partially blocking the nerve with drug infusion or electrostimulation. Apparatus can be permanently implanted or catheter based. | 02-05-2009 |
20090048641 | BAROREFLEX STIMULATION TO TREAT ACUTE MYOCARDIAL INFARCTION - An aspect of the present subject relates to an implantable medical system. An embodiment of the system includes a baroreflex stimulator, a myocardial infarction detector, and a controller. The baroreflex stimulator applies a baroreflex stimulation signal through an electrode. The myocardial infarction detector detects an event indicative of myocardial infarction. The controller is connected to the baroreflex stimulator and to the myocardial infarction detector, and is adapted to apply a baroreflex therapy in response to a detected event indicative of myocardial infarction. Other aspects are provided herein. | 02-19-2009 |
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 |
20090143837 | METHOD AND SYSTEM FOR IMPLANTABLE PRESSURE TRANSDUCER FOR REGULATING BLOOD PRESSURE - An apparatus and a system can chronically and automatically measure a physiologic parameter associated with the high pressure side of the vasculature and/or regulate blood pressure based upon the measured parameter. The apparatus may be made up of a transducer, a baroreflex activation device having one or more electrodes, and a lead having two or more conductors. The system can measure a physiologic parameter and selectively administer a therapy, such as, for example, electro-stimulation of baroreceptors, based upon the measurement. The transducer for measuring the physiologic parameter can be chronically implanted in the high-pressure side of the vasculature. The implantation method may include intravascularly positioning the transducer in the external carotid artery in such a way that the transducer is first introduced into the arterial vasculature through the superior thyroid artery. | 06-04-2009 |
20090143838 | Baroreflex modulation to gradually decrease blood pressure - An aspect of the present subject matter relates to a baroreflex stimulator. An embodiment of the stimulator includes a pulse generator to provide a baroreflex stimulation signal through an electrode, and a modulator. The modulator modulates the baroreflex stimulation signal to increase the baroreflex stimulation therapy by a predetermined rate of change to lower systemic blood pressure to a target pressure. Other aspects are provided herein. | 06-04-2009 |
20090192566 | Device for and Method of Generating a Baroreflex Response - This patent relates to a device for and method of stimulating the carotid sinus baroreceptors to achieve a restoration or resetting of baroreflex response and natural blood pressure modulation. The stimulation may consist of low amplitude, wide bandwidth signals that produce a stochastic resonance effect. The ultimate affect is blood pressure modulation within a reduced range including establishment of thresholds at which baroreceptors trigger normal central nervous system functions. | 07-30-2009 |
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 |
20100004714 | DEVICES AND METHODS FOR TREATMENT OF HEART FAILURE AND ASSOCIATED CONDITIONS - Devices and methods of use identification, treatment, and/or management of heart failure and/or associated conditions. Methods may include providing a baroreflex therapy system, providing an implantable measurement device proximate a blood vessel of a patient, the implantable measurement device including a plurality of electrodes, determining an impedance of the blood vessel with the implantable measurement device over a time period of at least one cardiac cycle, generating at least one signal representative of a pressure waveform based on the impedance, activating, deactivating or otherwise modulating the baroreflex therapy system to deliver a therapy to treat heart failure based at least in part on the at least one signal representative of the pressure waveform. | 01-07-2010 |
20100023088 | SYSTEM AND METHOD FOR TRANSVASCULARLY STIMULATING CONTENTS OF THE CAROTID SHEATH - Methods and systems are disclosed for stimulating contents of the carotid sheath using an intravascular pulse generator and lead. The lead carries an energy delivery device such as an electrode, which is anchor within the portion of the internal jugular vein that is disposed within the carotid sheath. The energy delivery device is energized to transvenously direct energy to target contents of the carotid sheath external to the internal jugular vein. Such target contents may include nervous system elements associated with the carotid sinus baroreceptors, the carotid sinus nerve and associated nerve branches, and or the vagus nerve and associated nerve branches. The system may be used to control blood pressure and/or to lower heart rate and may be suitable for treatment of hypertension, heart failure, or other conditions. | 01-28-2010 |
20100049275 | IMPLANTABLE AND RECHARGEABLE NEURAL STIMULATOR - One aspect of the present subject matter relates to an implantable medical device. An embodiment of the device comprises a rechargeable power supply adapted to be recharged through an ultrasound signal, a neural stimulator connected to the rechargeable power supply, and a controller connected to the rechargeable power supply. The neural stimulator is adapted to generate a neural stimulation signal for delivery to a neural stimulation target through an electrode. The controller is further connected to the neural stimulator to control the neural stimulator according to a neural stimulation protocol. Other aspects are provided herein. | 02-25-2010 |
20100076519 | SYSTEM AND METHOD FOR REGULATING BLOOD PRESSURE AND ELECTROLYTE BALANCE - The present invention is an apparatus and method for controlling blood pressure by stimulating the cardiac afferent sympathetic nerves. The invention may be implemented in a medical device having a pressure sensor for sensing blood pressure, an electrode for providing electrical signals to the cardiac afferent sympathetic nerves, and a controller for providing signals to the electrode as a function of blood pressure signals received from the pressure sensor. | 03-25-2010 |
20100160996 | METHODS AND APPARATUS FOR ELECTRICAL STIMULATION TREATMENT USING ESOPHAGEAL BALLOON AND ELECTRODE - Methods and apparatus for treating ailments provide for: inserting a balloon-electrode device into an esophagus of a mammal, the balloon-electrode device including: (i) a nasogastral (NG) having an internal passageway and an external surface, (ii) at least one electrode coupled to the external surface of the NG tube, (iii) a conductor extending through the internal passageway of the NG tube and electrically connecting to the electrode, and (iv) a balloon surrounding the electrode and a portion of the NG tube; inflating the balloon with fluid such that the electrode is substantially centrally located within an interior volume of the balloon; and applying at least one electrical signal to the electrode via the conductor such that an electromagnetic field emanates from the electrode to at least one of nerves and muscles of the mammal. | 06-24-2010 |
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 |
20100185255 | BAROREFLEX STIMULATION SYNCHRONIZED TO CIRCADIAN RHYTHM - An aspect relates to a baroreflex stimulator. An embodiment of the stimulator comprises a pulse generator to provide a baroreflex stimulation signal through an electrode, and a modulator to modulate the baroreflex stimulation signal based on a circadian rhythm template. | 07-22-2010 |
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 |
20100211131 | INTRAVASCULAR SYSTEM AND METHOD FOR BLOOD PRESSURE CONTROL - An intravascular lead is used to deliver energy for stimulating nervous system targets using energy delivery elements (e.g. electrodes) that are in direct contact with the nervous system targets. The lead may be positioned within the internal jugular vein and the nervous system targets may include the carotid artery/carotid sinus bulb and/or associated baroreceptor afferents, and/or surrounding nervous system targets in the region of the internal jugular vein, such as the carotid sinus nerve and/or associated nerve branches and/or the vagus nerve and/or associated nerve branches. Stimulation energy travels along a conductive bridge that extends from the intravascular lead to the nervous system target, or is relayed from the intravascular lead to another device disposed within or surrounding the target structure. | 08-19-2010 |
20100241189 | Nerve Stimulation For Treatment of Obesity, Metabolic Syndrome, and Type 2 Diabetes - A tissue modulation device, for treating at least one of obesity, metabolic syndrome, and Type 2 diabetes in a patient, is described. In some embodiments, the device includes a storage module having computer-readable instructions for delivering an electrical stimulation pattern to a splanchnic nerve of the patient. The stimulation pattern includes at least one on-time. The on-time includes at least one of a suprathreshold period and a subthreshold period. The splanchnic nerve is selected from the group consisting of the greater splanchnic nerve, the lesser splanchnic nerve, and the least splanchnic nerve. The pattern is effective to ameliorate at least one attendant condition of obesity, metabolic syndrome, and Type 2 diabetes in the patient. The attendant condition includes dyslipidemia, hypertension, hyperinsulinemia, hyperglycemia, and/or insulin resistance. | 09-23-2010 |
20110082514 | HYPERTENSION THERAPY BASED ON ACTIVITY AND CIRCADIAN RHYTHM - According to an embodiment of a method for providing neural stimulation, activity is sensed, and neural stimulation is automatically controlled based on the sensed activity. An embodiment determines periods of rest and periods of exercise using the sensed activity, and applies neural stimulation during rest and withdrawing neural stimulation during exercise. | 04-07-2011 |
20110082515 | TRANSCUTANEOUS NEUROSTIMULATOR FOR TREATING HYPERTENSION - A neurostimulation device includes an external neurostimulator worn by a patient using a bracing element that braces a portion of the patient's body. The external neurostimulator delivers neurostimulation to modulate a cardiovascular function of the patient. In one embodiment, the external stimulator delivers the neurostimulation transcutaneously to a stimulation target in the patient's body using surface stimulation electrodes placed on the body approximately over the stimulation target. | 04-07-2011 |
20110137370 | THORACIC AORTA AND VAGUS NERVE STIMULATION - Apparatus and methods are provided, including an electrode that is placed in contact with an artery of a subject. A control unit drives the electrode to perform a function with respect to the artery, the function selected from the group consisting of: driving a current into the artery, and sensing an electrical parameter of the artery. A transmitter is placed in a vein of the subject that is in a vicinity of the artery, the transmitter being wiredly connected to the control unit. The control unit is configured to drive the electrode by wirelessly transmitting a signal via the transmitter. Other embodiments are also described. | 06-09-2011 |
20110144714 | BLOOD PRESSURE REGULATING SYSTEM BY SUBSTITUTING NATIVE BIOLOGICAL REGULATORY FUNCTION - A blood pressure regulating system uses a native regulation rule to estimate at least one nerve activity in response to blood pressure changes, comprising at least one blood pressure sensing means which senses blood pressure and outputs a input blood pressure signal, a calculating means which receives the input blood pressure signal, calculates a transfer function by computing a Fourier transform of a normal blood pressure signal and a normal sympathetic nerve activity from normal cardiovascular system, calculates an impulse response by computing an inverse Fourier transform of the transfer function, calculates a sympathetic nerve stimulation signal using a convolution integral between the input blood pressure signal and the impulse response, and outputs the sympathetic nerve stimulation signal, and a stimulating means which receives the sympathetic nerve stimulation signal, and stimulates the sympathetic nerve innervating vascular beds based on the sympathetic nerve stimulation signal such that blood pressure is regulated. | 06-16-2011 |
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 |
20110178570 | METHODS AND APPARATUS FOR MULTI-VESSEL RENAL NEUROMODULATION - Methods and apparatus are provided for multi-vessel neuromodulation, e.g., via a pulsed electric field. Such multi-vessel neuromodulation may effectuate irreversible electroporation or electrofusion, necrosis and/or inducement of apoptosis, alteration of gene expression, action potential attenuation or blockade, changes in cytokine up-regulation and other conditions in target neural fibers. In some embodiments, the multi-vessel neuromodulation is applied to neural fibers that contribute to renal function. Such multi-vessel neuromodulation optionally may be performed bilaterally. | 07-21-2011 |
20110202107 | BLOOD PRESSURE STABILIZATION SYSTEM USING TRANSDERMAL STIMULATION - The present invention relates to an electric stimulation apparatus for treating hypotension of patients with spinal cord injury and a method for treating hypotension. An electric stimulation apparatus of the present invention comprises: a blood pressure measuring means for continuously measuring a blood pressure of a subject; an electric current application means for intermittently applying an electric current to skin of the subject; and a control means for controlling the electric current application means so as to maintain the blood pressure at a predetermined target blood pressure value by activating the electric current application means when the subject blood pressure is equal to or less than the target blood pressure value. | 08-18-2011 |
20110238128 | NEURAL STIMULATION FOR TREATMENT OF METABOLIC SYNDROME AND TYPE 2 DIABETES - Systems and methods are described for treating metabolic syndrome and/or Type 2 diabetes, and/or one or more of their attendant conditions, by neural stimulation. In one embodiment, an implantable pulse generator is electrically coupled to a peripheral nerve, such as the splanchnic nerve. Neural stimulation configured to either block transmission or stimulate transmission of the peripheral nerve may be used to treat metabolic syndrome and Type 2 diabetes. | 09-29-2011 |
20110251656 | ACTIVE IMPLANTABLE MEDICAL DEVICE FOR VAGAL STIMULATION WITH OPTIMIZATION OF VENTRICULAR FILLING - An active implantable medical device for vagal stimulation with optimization of ventricular filling is disclosed. The device delivers stimulation pulses to the vagal nerve of the patient with an adjustable energy level. The device includes a hemodynamic sensor for measuring hemodynamic parameters of the patient's cardiac cycles and delivering a timing parameter representative of the ventricular filling time. The energy level of the vagal stimulation pulses is adjusted dynamically and repeatedly over several cardiac cycles. The energy level is varied during successive cardiac correlative changes in the filling time (FT | 10-13-2011 |
20110319960 | LEAD FOR STIMULATING THE BARORECEPTORS IN THE PULMONARY ARTERY - An apparatus includes a flexible lead body extending from a proximal end to a distal end, an expandable electrode coupled proximate the distal end, the expandable electrode having an expanded diameter dimensioned to abut a wall of a pulmonary artery, and an implantable pulse generator electrically coupled to the expandable electrode. The expandable electrode includes a plurality of electrode zones. The implantable pulse generator is adapted to deliver a baroreflex stimulation signal to a baroreceptor in the pulmonary artery via the electrode. | 12-29-2011 |
20120095523 | DEVICES AND METHODS FOR TREATMENT OF HEART FAILURE AND ASSOCIATED CONDITIONS - Devices and methods of use identification, treatment, and/or management of heart failure and/or associated conditions. Methods may include providing a baroreflex therapy system including a blood pressure sensor and a heart rate sensor, providing an implantable measurement device proximate a blood vessel of a patient, the implantable measurement device including an electrode, providing a control system coupled to the baroreflex therapy system and the implantable measurement device, the control system programmed to automatically determine an impedance of the blood vessel with the implantable measurement device over a time period of at least one cardiac cycle, determine arterial stiffness of the blood vessel based on the impedance, determine blood pressure and heart rate, and activate, deactivate or otherwise modulate the baroreflex therapy system to deliver a baroreflex therapy based on the blood pressure, heart rate and arterial stiffness. | 04-19-2012 |
20120109250 | IMPLANT TOOL AND IMPROVED ELECTRODE DESIGN FOR MINIMALLY INVASIVE PROCEDURE - Devices and methods of use for introduction and implantation of an electrode as part of a minimally invasive technique. An implantable baroreflex activation system includes a control system having an implantable housing, an electrical lead, attachable to the control system, and an electrode structure. The electrode structure is near one end of the electrical lead, and includes a monopolar electrode, a backing material having an effective surface area larger than the electrode, and a releasable pivotable interface to mate with an implant tool. The electrode is configured for implantation on an outer surface of a blood vessel and the control system is programmed to deliver a baroreflex therapy via the monopolar electrode to a baroreceptor within a wall of the blood vessel. | 05-03-2012 |
20120130447 | 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. | 05-24-2012 |
20120215279 | SYSTEM AND METHOD FOR SUSTAINED BAROREFLEX STIMULATION - Various aspects of the present subject matter provide an implantable medical device. In various embodiments, the device comprises a baroreflex stimulator and a controller. The baroreflex stimulator is adapted to generate a stimulation signal to stimulate a baroreflex. The controller is adapted to communicate with the baroreflex stimulator and implement a baroreflex stimulation protocol to vary an intensity of the baroreflex stimulation provided by the stimulation signal to abate baroreflex adaptation. According to various embodiments, the controller is adapted to implement the baroreflex stimulation protocol to periodically modulate the baroreflex stimulation to produce an effect that mimics an effect of pulsatile pressure. Other aspects are provided herein. | 08-23-2012 |
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 |
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 |
20130013024 | Renal Nerve Stimulation Method for Treatment of Patients - A method and apparatus for treatment of heart failure, hypertension and renal failure by stimulating the renal nerve. The goal of therapy is to reduce sympathetic activity of the renal nerve. Therapy is accomplished by at least partially blocking the nerve with drug infusion or electrostimulation. Apparatus can be permanently implanted or catheter based. | 01-10-2013 |
20130073000 | IMPLANTABLE AND RECHARGEABLE NEURAL STIMULATOR - One aspect of the present subject matter relates to an implantable medical device. An embodiment of the device comprises a rechargeable power supply adapted to be recharged through an ultrasound signal, a neural stimulator connected to the rechargeable power supply, and a controller connected to the rechargeable power supply. The neural stimulator is adapted to generate a neural stimulation signal for delivery to a neural stimulation target through an electrode. The controller is further connected to the neural stimulator to control the neural stimulator according to a neural stimulation protocol. Other aspects are provided herein. | 03-21-2013 |
20130085547 | Apparatus and Methods for Modulating Nerves Using Parallel Electric Fields - A device may include at least one pair of modulation electrodes configured for implantation in the vicinity of a nerve to be modulated such that the electrodes are spaced apart from one another along a longitudinal direction of the nerve to be modulated. The electrodes may be further configured to facilitate an electric field in response to an applied electric signal, the electric field including field lines extending in the longitudinal direction of the nerve to be modulated. The device may further include at least one circuit in electrical communication with the at least one pair of modulation electrodes and being configured to cause application of the electric signal applied at the at least one pair of modulation electrodes. | 04-04-2013 |
20130090703 | DEVICES AND METHODS FOR TREATMENT OF HEART FAILURE AND ASSOCIATED CONDITIONS - Devices and methods for use of identification, treatment and/or management of heart failure and/or associated conditions. Methods may include providing a baroreflex therapy system, providing an implantable measurement device proximate a blood vessel of a patient, the implantable measurement device including a plurality of electrodes, determining an impedance of the blood vessel with the implantable measurement device over a time period of at least one cardiac cycle, generating at least one signal representative of a pressure waveform based on the impedance, activating, deactivating or otherwise modulating the baroreflex therapy system to deliver a therapy to treat heart failure based at least in part on the at least one signal representative of the pressure waveform. | 04-11-2013 |
20130165990 | METHODS AND APPARATUSES FOR REMODELING TISSUE OF OR ADJACENT TO A BODY PASSAGE - Medical devices and methods for making and using the same are disclosed. An example method may include a method for treating a patient having congestive heart failure. The method may include positioning an expandable balloon in a renal artery of the patient. The expandable balloon may include a plurality of electrode assemblies. At least some of the electrode assemblies each may include at least two bipolar electrode pairs. The two bipolar electrode pairs may be longitudinally and circumferentially offset from one another. The method may also include expanding the balloon in the renal artery such that at least some of the bipolar electrode pairs are electrically coupled to a wall of the renal artery and energizing at least some of the bipolar electrode pairs so as to therapeutically alter at least one nerve proximate the renal artery to treat the patient's congestive heart failure. | 06-27-2013 |
20130190837 | SYSTEM AND METHOD FOR CLOSED-LOOP NEURAL STIMULATION - Various aspects of the present subject matter provide a device. In various embodiments, the device comprises a port adapted to connect a lead, a pulse generator connected to the port and adapted to provide a neural stimulation signal to the lead, and a signal processing module connected to the port and adapted to receive and process a nerve traffic signal from the lead into a signal indicative of the nerve traffic. The device includes a controller connected to the pulse generator and the signal processing module. The controller is adapted to implement a stimulation protocol to provide the neural stimulation signal with desired neural stimulation parameters based on the signal indicative of the nerve traffic. Other aspects are provided herein. | 07-25-2013 |
20130253603 | Renal Nerve Stimulation Method for Treatment of Patients - A method and apparatus for treatment of heart failure, hypertension and renal failure by stimulating the renal nerve. The goal of therapy is to reduce sympathetic activity of the renal nerve. Therapy is accomplished by at least partially blocking the nerve with drug infusion or electrostimulation. Apparatus can be permanently implanted or catheter based. | 09-26-2013 |
20130289650 | Neuromodulation for Hypertension Control - Neuromodulation for controlling hypertension and other cardio-renal disorders of a patient is disclosed. A neuromodulation device is configured to be delivered to a patient's body and to apply an electric activation to decrease renal sympathetic hyperactivity of the patient based on monitored blood pressure of the patient, substantially without thermal energization of the patient's body by applying the electric activation. The electric activation may also depend on monitored blood volume of the patient. A feedback control module may be used to provide feedback control information for adjusting the electric activation based on the monitored blood pressure and volume of the patient. | 10-31-2013 |
20130296965 | METHOD FOR BLOOD PRESSURE MODULATION USING ELECTRICAL STIMULATION OF THE CORONARY BARORECEPTORS - An apparatus comprises a first stimulation circuit and a control circuit. The stimulation circuit is configured to be electrically coupled to a first electrode assembly that is configured to deliver electrical sub-myocardial activation stimulation to a coronary baroreceptor from a location within a left atrial appendage of a heart. The stimulation circuit is further configured to generate the electrical stimulation for delivery to the coronary baroreceptor via the first electrode assembly. The control circuit is wirelessly or conductively coupled to the first stimulation circuit and is configured to control delivery of the electrical stimulation. | 11-07-2013 |
20140018879 | Apparatuses for Renal Neuromodulation - Methods and apparatus are provided for renal neuromodulation using a pulsed electric field to effectuate electroporation or electrofusion. It is expected that renal neuromodulation (e.g., denervation) may, among other things, reduce expansion of an acute myocardial infarction, reduce or prevent the onset of morphological changes that are affiliated with congestive heart failure, and/or be efficacious in the treatment of end stage renal disease. Embodiments of the present invention are configured for extravascular delivery of pulsed electric fields to achieve such neuromodulation. | 01-16-2014 |
20140018880 | METHODS FOR MONOPOLAR RENAL NEUROMODULATION - Methods and apparatus are provided for monopolar neuromodulation, e.g., via a pulsed electric field. Such monopolar neuromodulation may effectuate irreversible electroporation or electrofusion, necrosis and/or inducement of apoptosis, alteration of gene expression, action potential attenuation or blockade, changes in cytokine up-regulation and other conditions in target neural fibers. In some embodiments, monopolar neuromodulation is applied to neural fibers that contribute to renal function. In some embodiments, such monopolar neuromodulation is performed bilaterally. | 01-16-2014 |
20140031892 | FLEXIBLE ANTENNA ON FLEXIBLE SUBSTRATE WITH ADHESIVE BACK - A medical device may be configured to transmit energy from a position outside of a subject's body to a position inside the subject's body. The device may include a flexible substrate having a thickness of between 5 and 100 micrometers and a flexible antenna comprising between 10 and 15 windings on a first surface of the flexible substrate, the antenna having a transmission frequency of between 6.4 to 8.3 MHz, and wherein the antenna is configured to transmit energy to a penetration depth of at least 1 cm into the subject's body. The device may also include an adhesive disposed on at least one surface of the flexible substrate for adhering to skin of the subject. | 01-30-2014 |
20140052211 | Methods and Compositions for Treating a Renal Associated Condition in a Subject - Methods for treating a renal associated condition in a subject are provided. Aspects of the subject methods include paradoxically enhancing renal sympathetic bias in the subject in a manner effective to treat the renal associated condition. Also provided are compositions, kits and systems for practicing the subject methods. | 02-20-2014 |
20140052212 | Self Resonant Transmitting Device - A device for powering an implant within a body of a subject from a location external to the subject, wherein the implant requires a threshold rate of power increase in order to operate in at least one mode, may include an antenna configured to wirelessly transmit energy to the implant. The device may also include a power storage unit configured to store energy from a power source incapable of delivering the threshold rate of power increase to enable the implant unit to operate in the at least one mode and a power release unit configured to release a pulse of energy from the power storage unit to the antenna after the power storage unit collects an amount of energy sufficient to enable the implant unit to operate in the at least one mode. | 02-20-2014 |
20140067003 | SYSTEM AND METHOD FOR AUTONOMIC BLOOD PRESSURE REGULATION - A system for regulating blood pressure by stimulating an afferent pathway to the brain which produces an efferent output in kidneys includes a electrode device adapted for implantation in the cervical region, a stimulator generator, a cable connecting the electrode device and the stimulator generator, wherein the cervical region is generally located between a pair of common carotid arteries, above an aortic arch and in front of cervical vertebrae C2 and C3. A method of implantation includes placing the electrode device in the cervical region, selectively energizing the device in accordance with a stimulation scheme, assessing any changes in the patient's blood pressure, selectively energizing the device in accordance with another stimulation scheme, and assessing any changes in the patient's blood, for determining an optical stimulation scheme, wherein stimulation scheme involves parameters including, for example, position, placement and configuration of the electrode device in relation to surrounding tissue and/or organs, selection of electrodes energized, width, frequency and amplitude of stimulation current. | 03-06-2014 |
20140081345 | METHOD FOR TREATING HYPERTENSION VIA ELECTRICAL STIMULATION OF NEURAL STRUCTURES - A neuromodulation system comprises a sensor configured for sensing a blood pressure of a patient, modulation output circuitry configured for conveying electrical modulation energy to at least one electrode, and a controller/processor coupled to the sensor and the modulation output circuitry. The controller/processor is configured for comparing the blood pressure sensed by the sensor to a first threshold blood pressure, and instructing the modulation output circuitry to convey the electrical modulation energy to the at least one electrode if the sensed blood pressure is greater than the first threshold blood pressure. A method for treating chronic hypertension comprises applying electrical modulation energy to a neural target site, thereby modulating an afferent nerve innervating a patient's kidney, thereby treating the chronic hypertension. | 03-20-2014 |
20140100628 | 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. | 04-10-2014 |
20140180356 | STIMULATION PATCH WITH PASSIVE ADHESION - System and methods for adhering a patch of stimulation electrode(s) to blood vessels to stimulate a target site on the blood vessel are described. In various embodiments, the system includes an adhesion patch and at least one electrode. The adhesion patch includes a passive adhesion mechanism that may produce an adhesive force sufficiently strong to adhere the adhesion patch to the exterior of the blood vessel and to operationally position the at least one electrode for use in electrically stimulating a target site of the blood vessel. The adhesion patch may also include a release mechanism that is configured for a user to disengage the patch from the exterior of the blood vessel without significant trauma to the blood vessel. After being released, the adhesion patch may be re-adhered to a different target site of the blood vessel and stimulate the different target site. | 06-26-2014 |
20140180357 | STIMULATION PATCH WITH ACTIVE ADHESION - System and methods for adhering a patch of stimulation electrode(s) to blood vessels to stimulate a target site on the blood vessel are described. In one embodiment, the system includes an adhesion patch and at least one electrode. The adhesion patch includes an active adhesion mechanism that may produce an adhesive force sufficiently strong to adhere the adhesion patch to the exterior of the blood vessel and to operationally position the at least one electrode for use in electrically stimulating a target site of the blood vessel. The adhesion patch may also include a release mechanism that is configured for a user to disengage the patch from the exterior of the blood vessel without significant trauma to the blood vessel. After being released, the adhesion patch may be re-adhered to a different target site of the blood vessel and stimulate the different target site. | 06-26-2014 |
20140214114 | IMPLANTABLE ELECTROACUPUNCTURE DEVICE AND METHOD FOR REDUCING HYPERTENSION - An implantable electroacupuncture device (IEAD) treats hypertension through application of stimulation pulses applied at at least one of acupoints PC5, PC6, ST36, or ST37. The IEAD comprises an implantable, coin-sized, self-contained, leadless electroacupuncture device having at least two electrodes attached to an outside surface of its housing. The device generates stimulation pulses in accordance with a specified stimulation regimen. Power management circuitry within the device allows a primary battery, having a high internal impedance, to be used to power the device. The stimulation regimen generates stimulation pulses during a stimulation session of duration T3 minutes applied every T4 minutes. The duty cycle, or ratio T3/T4, is very low, no greater than 0.05. The low duty cycle and careful power management allow the IEAD to perform its intended function for several years. | 07-31-2014 |
20140214115 | Implantable Electroacupuncture System and Method for Reducing Hypertension - An implantable electroacupuncture device (IEAD) treats hypertension through application of stimulation pulses applied at at least one of acupoints PC5, PC6, LI4, ST36, ST37, LI11, LR3, and GB34. The IEAD comprises an implantable, coin-sized, self-contained, leadless electroacupuncture device having at least two electrodes attached to an outside surface of its housing. The device generates stimulation pulses in accordance with a specified stimulation regimen. Power management circuitry within the device allows a primary battery, having a high internal impedance, to be used to power the device. The stimulation regimen generates stimulation pulses during a stimulation session of duration T3 minutes applied every T4 minutes. The duty cycle, or ratio T3/T4, is very low, no greater than 0.05. The low duty cycle and careful power management allow the IEAD to perform its intended function for several years. | 07-31-2014 |
20140214116 | Stimulation Paradigm To Improve Blood Pressure Dipping In An Implantable Electroacupuncture Device - A coin-sized implantable electroacupuncture (EA) device defines a stimulation paradigm, or stimulation regimen, that controls when EA stimulation pulses are applied to a selected acupoint, or other specified tissue location, to treat hypertension or nondipping. The stimulation regimen is applied when the patient is sleeping in order to minimize or mitigate the occurrence of nondipping or reverse dipping of the patient's blood pressure. In one embodiment, medical personnel, set a timing reference marker at the time of implant that defines how much time should elapse before a nighttime stimulation window opens that allows an EA stimulation session to be applied to the patient. In another embodiment, the patient sets the time when the nighttime stimulation window opens or when the EA stimulation session begins. Typically, an EA stimulation session is applied to the patient at a low duty cycle, e.g., only once a week during the nighttime. | 07-31-2014 |
20140222100 | SYSTEMS AND METHODS FOR AVOIDING NEURAL STIMULATION HABITUATION - An embodiment relates to a method for delivering a vagal stimulation therapy to a vagus nerve, including delivering a neural stimulation signal to non-selectively stimulate both afferent axons and efferent axons in the vagus nerve according to a predetermined schedule for the vagal stimulation therapy, and selecting a value for at least one parameter for the predetermined schedule for the vagal stimulation therapy to control the neural stimulation therapy to avoid physiological habituation to the vagal stimulation therapy. The parameter(s) include at least one parameter selected from the group of parameters consisting of a predetermined therapy duration parameter for a predetermined therapy period, and a predetermined intermittent neural stimulation parameter associated with on/off timing for the intermittent neural stimulation parameter. | 08-07-2014 |
20140236256 | SYSTEM FOR SETTING PROGRAMMABLE PARAMETERS FOR AN IMPLANTABLE HYPERTENSION TREATMENT DEVICE - A real time, heart rate monitor and a hemodynamic monitoring system are operably integrated with the programmer system for an implantable hypertension treatment device. A series of tests are automatically performed to set programmable parameters for the implantable hypertension treatment device without clinician intervention. In one embodiment, a predetermined level of a dose-response evaluation is initiated for each test in the series. Preferably, the programmer system monitors the heart rate to determine whether a hemodynamic measurement should be initiated at all for a given test, as well as whether the hemodynamic measurement should be initiated earlier or later than a predetermined settling period for assessing the sympathetic nervous response to the test dose. In one embodiment, this determination is based on heart rate stability/instability. Alternatively, other indicators of sympathetic/parasympathetic tone, such as heart rate variability, may be used to trigger/delay the timing of the hemodynamic measurement. | 08-21-2014 |
20140257425 | HYPERTENSION THERAPY DEVICE WITH LONGEVITY MANAGEMENT - System and methods for programming and delivering electrical stimulation to treat hypertension are discussed. In various embodiments, an ambulatory stimulator system, such as an implantable medical device, can receive a power-saving command and deliver the electrical stimulation to a target site in a patient according to one or more simulation parameters including a therapy on-off pattern. In some embodiments, stimulation with therapy on-off pattern can reduce the power consumption while maintaining the anti-hypertension therapy efficacy. In some embodiments, the ambulatory stimulator system can include one or more of a physiologic response detector, a patient status detector, or a battery longevity detector. The power-saving command can be generated using one or more of the detected physiologic signal, the patient status, or the information about the battery longevity. | 09-11-2014 |
20140257426 | METHOD AND APPARATUS FOR CONTROLLING BLOOD PRESSURE USING RESPIRATION-MEDIATED HEART RATE VARIATION - System and methods for programming and delivering electrical stimulation to treat hypertension are described. In various embodiments, an ambulatory stimulator system, such as an implantable medical device, can detect a respiration-mediated heart rate variation (RM-HRV), monitor the efficacy of hypertension therapy and adjust the stimulation parameters using the detected RM-HRV to achieve desired therapy outcome. In some embodiments, the system can be configured to synchronize the detected heart rates to one or more respiration cycles or respiration phases within the respiration cycles, and determine the RM-HRV using the heart rates synchronized with the respiration cycles or the respiration phases. The RM-HRV may be presented to the system operator to monitor the efficacy of the AHT therapy. The ambulatory stimulator system can adjust the stimulation parameters using at least the RM-HRV. | 09-11-2014 |
20140277253 | NEUROMODULATION OF RENAL NERVE FOR TREATMENT OF HYPERTENSION - A system and method for treating a patient suffering from chronic hypertension. Electrical therapeutic energy is delivered to a nerve branch of a renal artery of the patient, thereby treating the chronic hypertension. Another system and method for treating a medical condition of a patient. Electrical stimulation energy is delivered to a stimulation site on the wall of a blood vessel, thereby evoking a compound action potential in a nerve branch associated with the blood vessel, sensing the evoked compound action potential at a sensing site on the wall of the blood vessel, identifying a circumferential location of the nerve branch as being adjacent the stimulation site or sensing site based on the sensed compound action potential(s), and delivering therapeutic energy to a therapeutic site on the wall of the blood vessel adjacent the circumferential location of the nerve branch, thereby modulating the nerve branch and treating the medical condition. | 09-18-2014 |
20140277254 | Electrode Configuration for Implantable Modulator - A device according to some embodiments may include an implantable flexible carrier and a pair of electrodes located on the carrier. The electrodes may be spaced from each other by a distance greater than 3 mm, and may be configured to cause, when supplied with an electrical signal, a unidirectional electric field sufficient to modulate at least one nerve. | 09-18-2014 |
20140330333 | METHODS AND DEVICES FOR MODIFYING VASCULAR PARAMETERS - A method of promoting the healing of a lesion in a smooth muscle ( | 11-06-2014 |
20140371810 | SYSTEM AND METHOD FOR MAPPING BARORECEPTORS - An example of a method embodiment may place a set of stimulation electrodes on tissue containing the baroreceptor region, and may test bipolar configurations of the electrodes. Each of the bipolar configurations of the electrodes includes at least one of the electrodes configured to function as an anode and at least one other of the electrodes configured to function as a cathode. Testing the bipolar configurations may include stimulating the tissue using each of the bipolar configurations. For each of the tested bipolar configurations at least one physiological parameter may be monitored for a baroreflex response to stimulation of the tissue, and the baroreflex response may be recorded for each of the tested bipolar configurations. | 12-18-2014 |
20150012055 | Method For Reducing Hypertension Using An Implantable Electroacupuncture Device - Disclosed is an implantable, coin-sized, self-contained, leadless electroacupuncture (EA) device having at least two electrode contacts attached to the surface of its housing. The electrodes include a central cathode electrode on a bottom side of the housing, and a circumferential anode electrode that surrounds the cathode electrode. In one embodiment, the anode annular electrode is a ring electrode placed around the perimeter edge of the coin-shaped housing. The EA device is adapted to be implanted through a very small incision, e.g., less than about 2-3 cm in length, directly adjacent to a selected acupuncture site known to moderate or affect a hypertension condition of a patient. Appropriate power management circuitry within the device allows a primary battery having a relatively high internal impedance to be used without causing unacceptable dips in battery voltage when the instantaneous battery current surges. Stimulation pulses are generated during a stimulation session that has a duration of T3 minutes and which is applied every T4 minutes. The duty cycle, or ratio of T3 to T4, is very low, not greater than 0.05. This low duty cycle, along with careful power management, allows the EA device to perform its intended function for several years. | 01-08-2015 |
20150012056 | Implantable Electroacupuncture Device For Reducing Hypertension - Disclosed is an implantable, coin-sized, self-contained, leadless electroacupuncture (EA) device having at least two electrode contacts attached to the surface of its housing. The electrodes include a central cathode electrode on a bottom side of the housing, and a circumferential anode electrode that surrounds the cathode electrode. In one embodiment, the anode annular electrode is a ring electrode placed around the perimeter edge of the coin-shaped housing. The EA device is adapted to be implanted through a very small incision, e.g., less than about 2-3 cm in length, directly adjacent to a selected acupuncture site known to moderate or affect a hypertension condition of a patient. Appropriate power management circuitry within the device allows a primary battery having a relatively high internal impedance to be used without causing unacceptable dips in battery voltage when the instantaneous battery current surges. Stimulation pulses are generated during a stimulation session that has a duration of T3 minutes and which is applied every T4 minutes. The duty cycle, or ratio of T3 to T4, is very low, not greater than 0.05. This low duty cycle, along with careful power management, allows the EA device to perform its intended function for several years. | 01-08-2015 |
20150032179 | Apparatus and Methods for Feedback-Based Nerve Modulation - A device according to some embodiments may include a housing configured for location external to a body of a subject. The device may also include at least one processor associated with the housing and configured to communicate with a circuit implanted in the subject within proximity to a tongue of the subject, wherein the circuit is in electrical communication with at least one electrode, receive a physiological signal from the subject via the circuit, and send a control signal to the implanted circuit in response to the physiological signal, wherein the control signal is predetermined to activate neuromuscular tissue within the tongue. | 01-29-2015 |
20150112402 | Modulator Apparatus Confirgured for Implantation - An implant unit according to some embodiments may include a flexible carrier, at least one pair of modulation electrodes on the flexible carrier, and at least one implantable circuit in electrical communication with the at least one pair of modulation electrodes. The at least one pair of modulation electrodes and the at least one circuit may be configured for implantation through derma on an underside of a subject's chin and for location proximate to terminal fibers of the medial branch of the subject's hypoglossal nerve, such that an electric field extending from the at least one pair of modulation electrodes can modulate one or more of the terminal fibers of the medial branch of the hypoglossal nerve. | 04-23-2015 |
20150148862 | ELECTRICAL STIMULATION TREATMENT OF HYPOTENSION - The present invention includes methods and devices for treating hypotension, such as in cases of shock, including septic shock, anaphylactic shock and hypovolemia. The method includes the step of applying at least one electrical impulse to at least one selected region of a parasympathetic nervous system of the patient. The electrical impulse is sufficient to modulate one or more nerves of the parasympathetic nervous system to increase the ratio of blood pressure to heart rate and relieve the condition and/or extend the patient's life. | 05-28-2015 |
20150321007 | Methods and Systems for Treating Hypertension Using An Implantable Electroacupuncture Device - A method of treating hypertension in a patient includes 1) generating, by an electroacupuncture device implanted beneath a skin surface of the patient at an acupoint corresponding to a target tissue location within the patient, stimulation sessions at a duty cycle that is less than 0.05, wherein the duty cycle is a ratio of T | 11-12-2015 |
20150335895 | Methods And Systems For Lowering Blood Pressure Through Reduction Of Ventricle Filling - Systems and methods for reducing ventricle filling volume are disclosed. In some embodiments, a stimulation circuit may be used to stimulate a patient's heart to reduce ventricle filling volume or even blood pressure. When the heart is stimulated at a consistent rate to reduce blood pressure, the cardiovascular system may over time adapt to the stimulation and revert back to the higher blood pressure. In some embodiments, the stimulation pattern may be configured to be inconsistent such that the adaptation response of the heart is reduced or even prevented. In some embodiments, a stimulation circuit may be used to stimulate a patient's heart to cause at least a portion of an atrial contraction to occur while the atrioventricular valve is closed. Such an atrial contraction may deposit less blood into the corresponding ventricle than when the atrioventricular valve is opened throughout an atrial contraction. | 11-26-2015 |
20150374996 | Implantable neural stimulation devices for reducing hypertension and associated methods - A method and apparatus for treatment of heart failure, hypertension and renal failure by stimulating the renal nerve. The goal of therapy is to reduce sympathetic activity of the renal nerve. Therapy is accomplished by at least partially blocking the nerve with drug infusion or electrostimulation. Apparatus can be permanently implanted or catheter based. | 12-31-2015 |
20160045741 | VAGUS NERVE AND CAROTID BARORECEPTOR STIMULATION SYSTEM - Systems and methods are provided for delivering vagus nerve stimulation and carotid baroreceptor stimulation to patients for treating chronic heart failure and hypertension. The vagus nerve stimulation and carotid baroreceptor stimulation therapies may be provided using a single implantable pulse generator, which can coordinate delivery of the therapies. | 02-18-2016 |
20160121121 | HYPERTENSION THERAPY IMPLANT APPARATUS - An implant unit according to some embodiments may include a flexible carrier, at least one pair of modulation electrodes on the flexible carrier, and at least one implantable circuit in electrical communication with the at least one pair of modulation electrodes. The at least one pair of modulation electrodes and the at least one circuit may be configured for implantation through derma on an underside of a subject's chin and for location proximate to terminal fibers of the medial branch of the subject's hypoglossal nerve, such that an electric field extending from the at least one pair of modulation electrodes can modulate one or more of the terminal fibers of the medial branch of the hypoglossal nerve. | 05-05-2016 |
20160121122 | APPARATUS AND METHODS FOR FEEDBACK-BASED NERVE MODULATION - A device according to some embodiments may include a housing configured for location external to a body of a subject. The device may also include at least one processor associated with the housing and configured to communicate with a circuit implanted in the subject within proximity to a tongue of the subject, wherein the circuit is in electrical communication with at least one electrode, receive a physiological signal from the subject via the circuit, and send a control signal to the implanted circuit in response to the physiological signal, wherein the control signal is predetermined to activate neuromuscular tissue within the tongue. | 05-05-2016 |
20160136432 | SYSTEM AND METHOD FOR MAPPING BARORECEPTORS - An example of a method embodiment may place a set of stimulation electrodes on tissue containing the baroreceptor region, and may test bipolar configurations of the electrodes. Each of the bipolar configurations of the electrodes includes at least one of the electrodes configured to function as an anode and at least one other of the electrodes configured to function as a cathode. Testing the bipolar configurations may include stimulating the tissue using each of the bipolar configurations. For each of the tested bipolar configurations at least one physiological parameter may be monitored for a baroreflex response to stimulation of the tissue, and the baroreflex response may be recorded for each of the tested bipolar configurations. | 05-19-2016 |
20160250474 | Intravascular Electrode System and Method | 09-01-2016 |
20180021566 | Methods and Systems for Treating Hypertension Using An Implantable Electroacupuncture Device | 01-25-2018 |