Patent application number | Description | Published |
20090012444 | Osmotic Devices and Methods for Diuretic Therapy - Embodiments of the invention are related to devices and methods for modulating renal function, amongst other things. In an embodiment, the invention includes an implantable occlusive device including a wall member defining an enclosed volume, the wall member can include a semi-permeable membrane. The device can also include a solution comprising a solvent and a solute disposed within the enclosed volume of the wall member. The semi-permeable membrane can be permeable to the solvent and impermeable to the solute. The enclosed volume can be configured to expand and contract in response to changes in the osmolality of a bodily fluid. The device can include a positioning member configured to maintain the position of the implantable occlusive device relative to a lengthwise axis of a lymphatic vessel. In an embodiment, the invention includes a method of modulating renal function in a patient including implanting an occlusive device in the patient, the occlusive device comprising a semi-permeable membrane and configured to expand or contract based on the passage of a fluid across the semi-permeable membrane. Other aspects and embodiments are provided herein. | 01-08-2009 |
20090024177 | Osmometric Heart Monitoring Device and Methods - Embodiments of the invention are related to monitoring devices and methods with osmometric sensors, amongst other things. In an embodiment, the invention includes an implantable heart failure monitoring system including an osmometric sensor, the osmometric sensor configured to generate a signal corresponding to the osmotic strength of a bodily fluid, and a controller in communication with the osmometric sensor, the controller configured to receive and process the signal corresponding to the osmotic strength of a bodily fluid. Other aspects and embodiments are provided herein. | 01-22-2009 |
20090270941 | HEMOSTASIS VALVE AND GUIDEWIRE PACING SYSTEM - Systems and methods for temporarily pacing a patient's heart are provided. One system includes a hemostasis valve with an adjustable electrical connection, the adjustable electrical connection having one or more adjustable contacts. The adjustable contacts have a first, radially expanded configuration and a second, radially constricted configuration. In the radially constricted configuration, the adjustable contacts are configured to pierce through a layer of an elongate medical device that is disposed in the hemostasis valve. The elongate medical device has a distal electrode and a conductor extending along a portion of the elongate medical device. The adjustable contacts pierce through a make contact with the conductor, providing an electrical pathway to the distal electrode. Also provided are vascular access systems including a hemostasis valve and a guide catheter, guide wire torquers with adjustable contacts and methods of temporarily pacing a patient's heart. | 10-29-2009 |
20090299420 | METHOD AND APPARATUS FOR CRYOTHERAPY AND PACING PRECONDITIONING - A method and apparatus are described for delivering myocardial pacing and cryotherapy in conjunction with a coronary revascularization procedure using one catheter/stent system. In one embodiment, a balloon-stent delivery platform incorporates pacing electrode(s) on or near the distal tip for myocardial pacing. | 12-03-2009 |
20090299443 | GUIDE CATHETER HAVING VASOMODULATING ELECTRODES - A guide catheter system includes a guide catheter having a proximal end, a distal end, an outer wall and a first, second and third electrode wherein the first, second and third electrodes are spaced longitudinally apart from each other on the outer wall of the catheter, and an electrical impulse generator connected to the guide catheter wherein the electrical impulse generator includes a circuit for selecting an adjacent pair of electrodes to use as a bipolar electrode system to send an electrical impulse and a method of use thereof to treat vasospasm. | 12-03-2009 |
20090318749 | METHOD AND APPARATUS FOR PACING AND INTERMITTENT ISCHEMIA - A system delivers multiple enhanced therapies to limit myocardial damage post-revascularization. The system includes a catheter that incorporates features for delivering cardiac protection pacing therapy (CPPT) and intermittent ischemia therapy. In one embodiment, a method for delivering cardiac protection therapies to a heart is provided. One or more catheters are provided having a balloon, at least one pacing electrode and at least one hemodynamic sensor. Cardiac protection pacing therapy (CPPT) and intermittent ischemia therapy are concurrently delivered using the one or more catheters. The pacing and ischemia are adapted to protect the heart from ischemic and reperfusion injuries. The delivery of the CPPT and the intermittent ischemia are controlled using a closed-loop system monitoring a signal sensed by the at least one hemodynamic sensor. | 12-24-2009 |
20090318984 | EXTERNAL PACEMAKER WITH AUTOMATIC CARDIOPROTECTIVE PACING PROTOCOL - A pacing system includes a pacemaker and a pacing protocol module externally attached to the pacemaker. The pacing protocol module stores the pacing protocol. The pacemaker controls delivery of pacing pulses by automatically executing the pacing protocol. In one embodiment, the pacing protocol is a cardioprotective pacing protocol for preventing and/or reducing cardiac injury associated with myocardial infarction (MI) and revascularization procedure. The pacing pulses are generated from the pacemaker and delivered through one or more pacing electrodes incorporated onto one or more percutaneous transluminal vascular intervention (PTVI) devices during the revascularization procedure. | 12-24-2009 |
20100004706 | PACING SYSTEM CONTROLLER INTEGRATED INTO INDEFLATOR - Systems and methods for temporarily pacing a patient's heart are provided. One system includes a vascular treatment system having a vascular access system and a therapy system. The therapy system includes an indeflator and an elongate medical device and the elongate medical device has an inflatable member and an electrode. The indeflator is adapted to provide pressurized fluid to the inflatable member and electrical signals to the electrode, with its operation manually or automatically controlled. Devices for electrically and fluidly coupling the indeflator and the elongate medical device are also provided. | 01-07-2010 |
20100010551 | METHOD AND APPARATUS FOR TRANSCUTANEOUS CARDIOPROTECTIVE PACING - A transcutaneous cardiac stimulation system delivers pacing pulses according to a cardioprotective pacing protocol. The pacing pulses are delivered through body-surface electrodes attached onto a patient. The cardioprotective pacing protocol specifies pacing parameters selected to augment cardiac stress on the patient's myocardium to a level effecting cardioprotection against ischemic and reperfusion injuries. | 01-14-2010 |
20100056858 | PACING SYSTEM FOR USE DURING CARDIAC CATHETERIZATION OR SURGERY - Cardioprotective pacing is applied to prevent and/or reduce cardiac injury associated with cardiac catheterization or surgery. Pacing pulses are generated from a pacemaker and delivered through one or more pacing electrodes incorporated onto one or more devices used in the cardiac catheterization or surgery. The pacemaker controls the delivery of the pacing pulses by executing a cardioprotective pacing protocol. In one embodiment, the one or more pacing electrodes are incorporated onto an intravascular ultrasound (IVUS) catheter. In another embodiment, the one or more pacing electrodes are incorporated onto one or more cardiac surgical instruments such as a heart stabilizer and a sternal retractor. | 03-04-2010 |
20100204744 | Osmometric Heart Monitoring Device and Methods - Embodiments of the invention are related to monitoring devices and methods with osmometric sensors, amongst other things. In an embodiment, the invention includes an implantable heart failure monitoring system including an implantable osmometric sensor configured to generate a signal corresponding to osmotic strength of a bodily fluid, the osmometric sensor comprising a rigid wall member defining an enclosed volume resisting deformation, the rigid wall member comprising a semi-permeable membrane; a signaling element comprising a first pressure sensor; and a second pressure sensor. Other aspects and embodiments are provided herein. | 08-12-2010 |
20100249860 | EXTERNAL CARDIAC STIMULATION PATCH - An external cardiac stimulation patch integrates a transcutaneous cardiac stimulation device and body-surface electrodes with a skin patch. The skin patch is to be attached onto a patient to provide for electrical contacts between the body-surface electrodes and a patient. The transcutaneous cardiac stimulation device delivers pacing pulses to the heart of the patient through pacing electrodes selected from the body-surface electrodes. | 09-30-2010 |
20100292745 | METHOD AND APPARATUS FOR SAFETY CONTROL DURING CARDIAC PACING MODE TRANSITION - A cardiac pacing system introduces a transitional period when pacing mode changes, such as when pacing starts and stops, or when one or more pacing parameter values change substantially. For each pacing parameter that changes substantially when the pacing mode changes, its value is adjusted incrementally over the transitional period to protect the heart from potentially harmful conditions associated with an abrupt change in the value of that pacing parameter. | 11-18-2010 |
20110040344 | MYOCARDIAL INFARCTION TREATMENT SYSTEM WITH ELECTRONIC REPOSITIONING - Methods and devices for treating a blockage in the coronary arterial system are provided. Some blockages in the coronary arterial system restrict the blood flow to a portion of the heart, causing ischemia or infarction. Such blockages may be treated by displacing, removing and/or breaking up the blockage, which allows blood to reperfuse into the infarcted portion of the heart. Before, during, and/or after the reperfusion, cardioprotective pacing is provided to the heart. The devices have multiple electrodes in order to provide multiple locations at which the cardioprotective pacing may be delivered. The devices are adapted to deliver cardioprotective pacing to the heart via the electrode that results in a relatively high level of dyssynchrony of the heart. | 02-17-2011 |
20110071584 | METHOD AND APPARATUS FOR AUTOMATED CONTROL OF PACING POST-CONDITIONING - Pacing post-conditioning (PPC) therapy is applied to a patient to minimize ischemic injury associated with MI and/or reperfusion injury associated with a post-MI revascularization procedure. In various embodiments, a PPC therapy is delivered by executing a pacing protocol with pacing parameters determined and dynamically adjusted based on patient-specific factors to ensure efficacy and safety of the patient. | 03-24-2011 |
20110106197 | PACEMAKER WITH VAGAL SURGE MONITORING AND RESPONSE - A pacemaker initiates and times a monitoring interval in response to an event such as a therapy delivery to a patient. The monitoring interval is specified to include a duration of an anticipated acute response to the event, such as vagal surge. One or more physiological parameters indicative of the acute response are detected during the monitoring interval for analyzing therapeutic effect of the event. In various embodiments, one or more pacing parameters are adjusted for a response interval specified to include the duration of the anticipated acute response to allow for the analysis and maximization of the therapeutic effect. In various embodiments, the event includes a session of pacing therapy delivered according to an intermittent cardiac stress augmentation pacing protocol, and the therapeutic effect is analyzed to adjust that protocol. | 05-05-2011 |
20110190727 | INTERVASCULAR CATHETER, SYSTEM AND METHOD - The present disclosure relates to medical devices and methods, for use in a vascular system. The apparatus includes a balloon catheter having an elongate body, balloon, and fluid control valve for ischemic post-conditioning therapy and/or reperfusion. | 08-04-2011 |
20110224606 | METHOD AND APPARATUS FOR REMOTE ISCHEMIC CONDITIONING DURING REVASCULARIZATION - Remote ischemic conditioning is applied during a revascularization procedure to prevent and/or reduce myocardial injury associated with myocardial infarction (MI) and the revascularization procedure such as percutaneous transluminal coronary angioplasty (PTCA). A percutaneous transluminal vascular intervention (PTVI) device used for the revascularization procedure, such as an introducer sheath or a guide catheter, includes an adjustable balloon to be positioned at a vascular site remote from the heart. The remote ischemic conditioning is applied by inflating and deflating the adjustable balloon, thereby causing temporary ischemia in the vascular site to activate the patient's intrinsic cardioprotective mechanism. | 09-15-2011 |
20110313488 | AUTOMATIC NEURAL STIMULATION TITRATION SWEEP - Various neural stimulator embodiments comprise controller circuitry, neural stimulation output circuitry, sensor circuitry and a memory. The neural stimulation output circuitry is configured to deliver the neural stimulation. The controller circuitry is configured to control stimulation parameters of the neural stimulation delivered by the neural stimulation output circuitry. The sensor circuitry, including at least one sensor, is configured to sense a response to the neural stimulation. The controller is configured to communicate with the sensor circuitry. The memory has instructions stored therein, operable on by the controller circuitry. The instructions include instructions for delivering neural stimulation using the neural stimulation output circuitry, instructions for controlling a titration sweep wherein the titration sweep varies stimulation parameter values, and instructions for monitoring a response to the titration sweep and automatically selecting stimulation parameters that provide an efficacious neural stimulation and provide a desirable safety margin to prevent injury to neural tissue. | 12-22-2011 |
20120109038 | OSMOTIC DEVICES AND METHODS FOR DIURETIC THERAPY - Embodiments of the invention are related to devices and methods for modulating renal function, amongst other things. In an embodiment, the invention includes a method of modulating renal function in a patient including implanting an occlusive device in the patient, the occlusive device comprising a semi-permeable membrane and configured to expand or contract based on the passage of a fluid across the semi-permeable membrane. Other aspects and embodiments are provided herein. | 05-03-2012 |
20130079842 | NEURAL CONTROL OF CENTRAL SLEEP APNEA - An apparatus comprises a physiologic sensing circuit and a control circuit. The physiologic sensing circuit is configured to sense an electrical respiration signal representative of respiration of a subject. The control circuit includes a respiration monitor circuit and a therapy circuit. The respiration monitor circuit is configured to extract a respiration parameter from the respiration signal and detect that a value of the respiration parameter is outside of a target value range for the respiration parameter. The therapy circuit is configured to deliver neural stimulation to the carotid sinus of the subject to stimulate respiration and to adjust respiration to maintain the value of the respiration parameter within the target value range. | 03-28-2013 |
20130172924 | HEMOSTASIS VALVE AND GUIDEWIRE PACING SYSTEM - Systems and methods for temporarily pacing a patient's heart are provided. One system includes a hemostasis valve with an adjustable electrical connection, the adjustable electrical connection having one or more adjustable contacts. The adjustable contacts have a first, radially expanded configuration and a second, radially constricted configuration. In the radially constricted configuration, the adjustable contacts are configured to pierce through a layer of an elongate medical device that is disposed in the hemostasis valve. The elongate medical device has a distal electrode and a conductor extending along a portion of the elongate medical device. The adjustable contacts pierce through a make contact with the conductor, providing an electrical pathway to the distal electrode. Also provided are vascular access systems including a hemostasis valve and a guide catheter, guide wire torquers with adjustable contacts and methods of temporarily pacing a patient's heart. | 07-04-2013 |
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 |
20130338727 | SYSTEMS AND METHODS TO REDUCE SYNCOPE RISK DURING NEURAL STIMULATION THERAPY - Some embodiments, by way of example, provide a system, comprising a posture change detector configured to detect a posture transition indicative of an increased risk of syncope, and a neural stimulator configured to deliver a neural stimulation therapy. The neural stimulator may include a syncope avoidance module configured to respond to a detected posture transition by temporarily overriding the neural stimulation therapy to ameliorate the risk of increased syncope. | 12-19-2013 |
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 |
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 |
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 |
20150018918 | MULTI-ELECTRODE LEAD WITH BACKING FOR MECHO/BARORECEPTOR STIMULATION - An electrode structure for an implantable stimulation lead for use in stimulating a target nerve structure within a patient includes a flexible backing defined by a major dimension extending in a direction of a first axis, and a minor dimension extending generally orthogonal to the first axis. The electrode structure also includes a plurality of electrodes coupled to the backing. | 01-15-2015 |
20150039059 | GUIDE CATHETER HAVING VASOMODULATING ELECTRODES - A guide catheter system includes a guide catheter having a proximal end, a distal end, an outer wall and a first, second and third electrode wherein the first, second and third electrodes are spaced longitudinally apart from each other on the outer wall of the catheter, and an electrical impulse generator connected to the guide catheter wherein the electrical impulse generator includes a circuit for selecting an adjacent pair of electrodes to use as a bipolar electrode system to send an electrical impulse and a method of use thereof to treat vasospasm. | 02-05-2015 |