Patent application number | Description | Published |
20120220528 | SYSTEMS AND METHODS FOR THERAPY OF KIDNEY DISEASE AND/OR HEART FAILURE USING CHIMERIC NATRIURETIC PEPTIDES - Medical systems and methods for treating kidney disease alone, heart failure alone, kidney disease with concomitant heart failure, or cardiorenal syndrome are described. The systems and methods are based on delivery of a chimeric natriuretic peptide to a patient. Methods for increasing peptide levels include direct peptide delivery via either an external or implantable programmable pump. | 08-30-2012 |
20120277155 | THERAPY FOR KIDNEY DISEASE AND/OR HEART FAILURE - Medical systems and methods for treating kidney disease alone, heart failure alone, chronic kidney disease with concomitant heart failure, or cardiorenal syndrome are described. The systems and methods are based on delivery of a natriuretic peptide such as Vessel Dilator to a subject. Methods for increasing and maintaining peptide levels at a certain concentration include direct peptide delivery via either an external or implantable programmable pump. | 11-01-2012 |
20130197562 | Gastric Stretch Devices, and Methods for Treatment of Obesity - Medical devices, systems and methods are provided and are designed to stretch the stomach wall of a patient to treat obesity. Stretch devices attached to the stomach wall may trigger stretch receptors to expand the stomach into a state of apparent stretching, causing early onset of satiety thereby causing the patient to consume less food. Stretching of the stomach can be achieved by the attachment of stretch devices to the wall of the stomach. The devices may be expandable and contractible and, in some embodiments, may take the form of a device that expands following attachment to a wall of the stomach. | 08-01-2013 |
20130274705 | FEEDBACK-BASED DIURETIC OR NATRIURETIC MOLECULE ADMINISTRATION - Devices, systems and methods using feedback from sensors for the treatment of pathological conditions such as Kidney Disease (KD) alone, Heart Failure (HF) alone, KD with concomitant HF or cardiorenal diseases syndrome (CRS) are described. The devices, systems and methods monitor and gather patient information and administer one or more diuretic or natriuretic molecules. | 10-17-2013 |
20140031787 | FEEDBACK-BASED DIURETIC OR NATRIURETIC MOLECULE ADMINISTRATION - Devices, systems and methods using feedback from sensors for the treatment of pathological conditions such as Kidney Disease (KD) alone, Heart Failure (HF) alone, KD with concomitant HF or cardiorenal diseases syndrome (CRS) are described. The devices, systems and methods monitor and gather patient information and administer one or more diuretic or natriuretic molecules. | 01-30-2014 |
20150080682 | Monitoring Fluid Volume for Patients with Renal Disease - A method includes monitoring an indicator of fluid volume of a patient via a sensor device, and setting an initial fluid volume removal prescription for a blood fluid removal session based on the monitored indicator of fluid volume. The method may further include transmitting data regarding the indicator of fluid volume from the implantable sensor device to fluid removal device. The system includes a blood fluid removal device and control electronics configured to set the initial fluid removal volume and rate prescription. In some embodiments, the fluid removal device sets or calculated the initial fluid volume removal prescription based on the data received from the implantable sensor. The indicator of fluid volume may be an indicator of tissue fluid volume or an indicator of blood fluid volume. | 03-19-2015 |
20150088047 | Monitoring Fluid Volume for Patients with Renal Disease - A method includes monitoring an indicator of fluid volume of a patient via a sensor device, and setting an initial fluid volume removal prescription for a blood fluid removal session based on the monitored indicator of fluid volume. The method may further include transmitting data regarding the indicator of fluid volume from the implantable sensor device to fluid removal device. The system includes a blood fluid removal device configured to set the initial fluid removal volume and rate prescription. In some embodiments, the fluid removal device sets or calculated the initial fluid volume removal prescription based on the data received from the implantable sensor. The indicator of fluid volume may be an indicator of tissue fluid volume or an indicator of blood fluid volume. | 03-26-2015 |
Patent application number | Description | Published |
20120273420 | ELECTROLYTE AND pH MONITORING FOR FLUID REMOVAL PROCESSES - Methods include monitoring indicators of blood pH or blood electrolyte levels during a blood fluid removal session and adjusting concentrations of pH buffers or electrolytes in dialysate or replacement fluid used during the session based on the monitored indicators. Blood fluid removal systems may employ sensors that monitor blood pH or electrolyte levels to adjust the fluid parameters during a blood fluid removal session. | 11-01-2012 |
20120277604 | MONITORING FLUID VOLUME FOR PATIENTS WITH RENAL DISEASE - A method includes monitoring an indicator of fluid volume of a patient via a sensor device, and setting an initial fluid volume removal prescription for a blood fluid removal session based on the monitored indicator of fluid volume. The method may further include transmitting data regarding the indicator of fluid volume from the implantable sensor device to fluid removal device. In some embodiments, the fluid removal device sets or calculated the initial fluid volume removal prescription based on the data received from the implantable sensor. The indicator of fluid volume may be an indicator of tissue fluid volume or an indicator of blood fluid volume. | 11-01-2012 |
20120277650 | CARDIOVASCULAR MONITORING FOR FLUID REMOVAL PROCESSES - A method includes initiating a blood fluid removal session for a patient in need thereof; monitoring a cardiovascular parameter of the patient; determining whether the indicator of the cardiovascular state crosses a predetermined threshold; and altering a parameter of the blood fluid removal session if the indicator is determined have crossed the threshold. | 11-01-2012 |
20120277655 | FLUID VOLUME MONITORING FOR PATIENTS WITH RENAL DISEASE - A method includes initiating a blood fluid removal session of a patient; monitoring an indicator of tissue fluid volume of the patient, or a portion thereof, during the blood fluid removal session; monitoring an indicator of blood fluid volume of the patient during the blood fluid removal session; determining whether a ratio of the indicator of tissue fluid volume to indicator of blood fluid volume is outside of a predetermined range; and altering the rate of fluid removal during the blood fluid removal session if the ratio is determined to be outside of the predetermined range. A blood fluid removal system may be configured to carry out the method. | 11-01-2012 |
20120277722 | ADAPTIVE SYSTEM FOR BLOOD FLUID REMOVAL - Methods for monitoring patient parameters and blood fluid removal system parameters include identifying those system parameters that result in improved patient parameters or in worsened patient parameters. By comparing the patient's past responses to system parameters or changes in system parameters, a blood fluid removal system may be able to avoid future use of parameters that may harm the patient and may be able to learn which parameters are likely to be most effective in treating the patient in a blood fluid removal session. | 11-01-2012 |
Patent application number | Description | Published |
20080269823 | Apparatus and Methods for Automatic Determination of a Fusion Pacing Pre-Excitation Interval - Automated adjustment of a pre-excitation interval (PEI) used to deliver hemodynamically efficient fusion pacing therapy. | 10-30-2008 |
20100016914 | APPARATUS AND METHODS FOR AUTOMATIC ADJUSTMENT OF AV INTERVAL TO ENSURE DELIVERY OF CARDIAC RESYNCHRONIZATION THERAPY - The disclosure provides methods and apparatus of left ventricular pacing including automated adjustment of a atrio-ventricular (AV) pacing delay interval and intrinsic AV nodal conduction testing. It includes—upon expiration or reset of a programmable AV Evaluation Interval (AVEI)—performing the following: temporarily increasing a paced AV interval and a sensed AV interval and testing for adequate AV conduction and measuring an intrinsic atrio-ventricular (PR) interval for a right ventricular (RV) chamber. Thus, in the event that the AV conduction test reveals a physiologically acceptable intrinsic PR interval then storing the physiologically acceptable PR interval in a memory structure (e.g., a median P-R from one or more cardiac cycles). In the event that the AV conduction test reveals an AV conduction block condition or if unacceptably long PR intervals are revealed then a pacing mode-switch to a bi-ventricular (Bi-V) pacing mode occurs and the magnitude of the AVEI is increased. | 01-21-2010 |
20100152804 | SECURE AND EFFICACIOUS THERAPY DELIVERY FOR A PACING ENGINE - The above-described methods and apparatus are believed to be of particular benefit for patients suffering heart failure including cardiac dysfunction, chronic HF, and the like and all variants as described herein and including those known to those of skill in the art to which the invention is directed. It will understood that the present invention offers the possibility of monitoring and therapy of a wide variety of acute and chronic cardiac dysfunctions. The current invention provides systems and methods for delivering therapy for cardiac hemodynamic dysfunction via the innervated myocardial substrate receives one or more discrete pulses of electrical stimulation during the refractory period of said innervated myocardial substrate. | 06-17-2010 |
20120150253 | ALGORITHM FOR THE AUTOMATIC DETERMINATION OF OPTIMAL AV AND VV INTERVALS - Methods and devices for determining optimal Atrial to Ventricular (AV) pacing intervals and Ventricular to Ventricular (VV) delay intervals in order to optimize cardiac output. Impedance, preferably sub-threshold impedance, is measured across the heart at selected cardiac cycle times as a measure of chamber expansion or contraction. One embodiment measures impedance over a long AV interval to obtain the minimum impedance, indicative of maximum ventricular expansion, in order to set the AV interval. Another embodiment measures impedance change over a cycle and varies the AV pace interval in a binary search to converge on the AV interval causing maximum impedance change indicative of maximum ventricular output. Another method varies the right ventricle to left ventricle (VV) interval to converge on an impedance maximum indicative of minimum cardiac volume at end systole. Another embodiment varies the VV interval to maximize impedance change. | 06-14-2012 |
20120303084 | SECURE AND EFFICACIOUS THERAPY DELIVERY FOR A PACING ENGINE - The above-described methods and apparatus are believed to be of particular benefit for patients suffering heart failure including cardiac dysfunction, chronic HF, and the like and all variants as described herein and including those known to those of skill in the art to which the invention is directed. It will understood that the present invention offers the possibility of monitoring and therapy of a wide variety of acute and chronic cardiac dysfunctions. The current invention provides systems and methods for delivering therapy for cardiac hemodynamic dysfunction via the innervated myocardial substrate receives one or more discrete pulses of electrical stimulation during the refractory period of said innervated myocardial substrate. | 11-29-2012 |
20130013017 | APPARATUS AND METHODS FOR AUTOMATIC ADJUSTMENT OF AV INTERVAL TO ENSURE DELIVERY OF CARDIAC RESYNCHRONIZATION THERAPY - Methods and apparatus of left ventricular pacing including automated adjustment of a atrio-ventricular (AV) pacing delay interval and intrinsic AV nodal conduction testing. Thus, in the event that the AV conduction test reveals a physiologically acceptable intrinsic PR interval then storing the physiologically acceptable PR interval in a memory structure (e.g., a median P-R from one or more cardiac cycles) and delivering fusion pacing using a decremented value of the intrinsic PR interval. | 01-10-2013 |
Patent application number | Description | Published |
20110270332 | THERAPY USING PERTURBATION AND EFFECT OF PHYSIOLOGICAL SYSTEMS - Methods for treating a patient and further to devices for performing such treatment, e.g., methods and devices to perturb at least one physiological system and deliver therapy to the patient based on the effects of such perturbation. For example, a method for using an implantable medical device is disclosed that involves delivering electrical stimuli to an efferent nerve associated with the selected organ. Afferent electrical activity is monitored during delivery of electrical stimuli to the efferent nerve, the monitored afferent electrical activity includes an indirect component of a compound action potential (CAP). A status of the selected organ is assessed based upon the indirect component. A determination is made as to whether to deliver therapy to the selected organ in response to assessing the status of the selected organ. | 11-03-2011 |
20110270342 | THERAPY USING PERTURBATION AND EFFECT OF PHYSIOLOGICAL SYSTEMS - Methods for treating a patient and further to devices for performing such treatment, e.g., methods and devices to perturb at least one physiological system and deliver therapy to the patient based on the effects of such perturbation. For example, a method for using an implantable medical device is disclosed that involves delivering electrical stimuli to an efferent nerve associated with the selected organ. Afferent electrical activity is monitored during delivery of electrical stimuli to the efferent nerve, the monitored afferent electrical activity includes an indirect component of a compound action potential (CAP). A status of the selected organ is assessed based upon the indirect component. A determination is made as to whether to deliver therapy to the selected organ in response to assessing the status of the selected organ. | 11-03-2011 |
20120029587 | NERVE SIGNAL DIFFERENTIATION IN CARDIAC THERAPY - Methods of nerve signal differentiation, methods of delivering therapy using such nerve signal differentiation, and to systems and devices for performing such methods. Nerve signal differentiation may include locating two electrodes proximate nerve tissue and differentiating between efferent and afferent components of nerve signals monitored using the two electrodes. | 02-02-2012 |
20120029600 | NERVE SIGNAL DIFFERENTIATION IN CARDIAC THERAPY - Methods of nerve signal differentiation, methods of delivering therapy using such nerve signal differentiation, and to systems and devices for performing such methods. Nerve signal differentiation may include locating two electrodes proximate nerve tissue and differentiating between efferent and afferent components of nerve signals monitored using the two electrodes. | 02-02-2012 |
20140114163 | NERVE SIGNAL DIFFERENTIATION IN CARDIAC THERAPY - Methods of nerve signal differentiation, methods of delivering therapy using such nerve signal differentiation, and to systems and devices for performing such methods. Nerve signal differentiation may include locating two electrodes proximate nerve tissue and differentiating between efferent and afferent components of nerve signals monitored using the two electrodes. | 04-24-2014 |
20140142650 | NERVE SIGNAL DIFFERENTIATION IN CARDIAC THERAPY - Methods of nerve signal differentiation, methods of delivering therapy using such nerve signal differentiation, and to systems and devices for performing such methods. Nerve signal differentiation may include locating two electrodes proximate nerve tissue and differentiating between efferent and afferent components of nerve signals monitored using the two electrodes. | 05-22-2014 |