Patent application number | Description | Published |
20090062667 | Implantable Systemic Blood Pressure Measurement Systems and Methods - Implantable systems, and methods for use therewith, for monitoring arterial blood pressure on a chronic basis are provided herein. A first signal indicative of electrical activity of a patient's heart, and a second signal indicative of mechanical activity of the patient's heart, are obtained using implanted electrodes and an implanted sensor. By measuring the times between various features of the first signal relative to features of the second signal, values indicative of systolic pressure and diastolic pressure can be determined. In specific embodiments, such features are used to determine a peak pulse arrival time (PPAT), which is used to determine the value indicative of systolic pressure. Additionally, a peak-to-peak amplitude at the maximum peak of the second signal, and the value indicative of systolic pressure, can be used to determine the value indicative of diastolic pressure. | 03-05-2009 |
20090281399 | STANDALONE SYSTEMIC ARTERIAL BLOOD PRESSURE MONITORING DEVICE - Certain embodiments of the present invention are related to an implantable monitoring device to monitor a patient's arterial blood pressure, where the device is configured to be implanted subcutaneously. The device includes subcutaneous (SubQ) electrodes and a plethysmography sensor. Additionally, the device includes an arterial blood pressure monitor configured to determine at least one value indicative of the patient's arterial blood pressure based on at least one detected predetermined feature of a SubQ ECG and at least one detected predetermined feature of a plethysmography signal. Alternative embodiments of the present invention are directed to a non-implantable monitoring device to monitor a patient's arterial blood pressure based on features of a surface ECG and a plethysmography signal obtained from a non-implanted sensor. | 11-12-2009 |
20110009712 | METHODS AND SYSTEMS THAT MONITOR FOR AN IMPENDING MYOCARDIAL INFARCTION - Implantable systems, and methods for use therewith, are provided for monitoring for an impending myocardial infarction. A signal indicative of changes in arterial blood volume is obtained. Such a signal can be a photoplethysmography signal or an impedance plethysmography signal. For each of a plurality of periods of time, a metric indicative of the areas under the curve of the signal or number of inflections in the signal is determined. An impending myocardial infarction is monitored for based on changes in the metric indicative of the area under the curve of the signal or number of inflections in the signal, and an alert and/or therapy is triggered in response to an impending myocardial infarction being predicted. | 01-13-2011 |
20110009755 | ARTERIAL BLOOD PRESSURE MONITORING DEVICES, SYSTEMS AND METHODS FOR USE WHILE PACING - Provided herein are implantable systems, and methods for use therewith, for monitoring a patient's arterial blood pressure while a patient's heart is being paced. A signal (e.g., PPG or IPG signal) indicative of changes in arterial blood volume remote from the patient's heart is obtained using a sensor or electrodes that are implanted remote from the patient's heart. One or more metrics indicative of pulse arrival time (PAT) are determined, where each metric can be determined by determining a time from a paced cardiac event to one or more predetermined features of the signal indicative of changes in arterial blood volume. Based on at the metric(s) indicative of PAT, arterial blood pressure is estimated, which can include determining values indicative of systolic blood pressure, diastolic blood pressure, pulse pressure and/or mean arterial blood pressure, and/or changes in such values. | 01-13-2011 |
20110040345 | ELECTROMECHANICAL DELAY (EMD) MONITORING DEVICES, SYSTEMS AND METHODS - Provided herein are implantable systems, and methods for use therewith, for monitoring a patient's electromechanical delay (EMD). Paced cardiac events are caused by delivering sufficient pacing stimulation to cause capture to the patient's heart. A cardiogenic impedance (CI) signal, indicative of cardiac contractile activity in response to the pacing stimulation being delivered, is obtained. One or more predetermined features of the CI signal are detected, and a value indicative of the patient's EMD is determined by determining a time between a delivered pacing stimulation and at least one of the detected one or more features of the CI signal. | 02-17-2011 |
20110144711 | Method and System for Hemodynamic Optimization Using Plethysmography - Time delays between a feature of a signal indicative of electrical activity of a patient's heart and a feature of a plethysmograph signal indicative of changes in arterial blood volume are used to arrange the operation of an implantable device, such as a pacemaker. Shorter time delays between the feature of the signal indicative of electrical activity of a patient's heart and the feature of the plethysmograph signal indicative of changes in arterial blood volume are indicative of larger cardiac stroke volumes. The time delay can be used to select a pacing site or combination of pacing sites and/or to select a pacing interval set. | 06-16-2011 |
20110319954 | METRICS AND TECHNIQUES FOR OPTIMIZATION OF CARDIAC THERAPIES - An exemplary method includes, based on metrics available as input to a chronic phase optimization algorithm for selecting an optimal electrode configuration for delivery of a cardiac pacing therapy, executing the chronic phase optimization algorithm during an acute phase to select an optimal electrode configuration for delivery of a cardiac pacing therapy; during the acute phase, acquiring position information with respect to time for electrodes implanted in a body; determining one or more acute phase metrics based on the acquired position information; and validating the chronic phase optimization algorithm based at least in part on the one or more acute phase metrics. | 12-29-2011 |
20120108987 | IMPLANTABLE SYSTEMIC BLOOD PRESSURE MEASUREMENT SYSTEMS AND METHODS - Implantable systems, and methods for use therewith, for monitoring arterial blood pressure on a chronic basis are provided herein. A first signal indicative of electrical activity of a patient's heart, and a second signal indicative of mechanical activity of the patient's heart, are obtained using implanted electrodes and an implanted sensor. By measuring the times between various features of the first signal relative to features of the second signal, values indicative of systolic pressure and diastolic pressure can be determined. In specific embodiments, such features are used to determine a peak pulse arrival time (PPAT), which is used to determine the value indicative of systolic pressure. Additionally, a peak-to-peak amplitude at the maximum peak of the second signal, and the value indicative of systolic pressure, can be used to determine the value indicative of diastolic pressure. | 05-03-2012 |
20120215117 | SYSTEMS AND METHODS FOR ESTIMATING CENTRAL ARTERIAL BLOOD PRESSURE OF A PATIENT - In specific embodiments, a method for estimating a patient's central arterial blood pressure (CBP) for use with an implantable system, comprises (a) using an implanted sensor at a first site to obtain a first signal indicative of changes in arterial blood volume at the first site, the first site being along one or more peripheral arterial structures of the patient, (b) using an implanted sensor at a second site to obtain a second signal indicative of changes in arterial blood volume at the second site, the second site being a distance from the first site downstream along an arterial path of the peripheral arterial structure of the patient, and (c) using implanted electrodes to obtain a signal indicative of electrical activity of the patient's heart. The method further comprises (d) determining a time t | 08-23-2012 |
20120215275 | IMPLANTABLE SYSTEMS AND METHODS FOR USE THEREWITH FOR MONITORING AND MODIFYING ARTERIAL BLOOD PRESSURE WITHOUT REQUIRING AN INTRAVASCULAR PRESSURE TRANSDUCER - Embodiments of the present invention are directed to implantable systems, and methods for use therewith, that monitor and modify a patient's arterial blood pressure without requiring an intravascular pressure transducer. In accordance with an embodiment, for each of a plurality of periods of time, there is a determination one or more metrics indicative of pulse arrival time (PAT), each of which are indicative of how long it takes for the left ventricle to generate a pressure pulsation that travels from the patient's aorta to a location remote from the patient's aorta. Based on the one or more metrics indicative of PAT, the patient's arterial blood pressure is estimated. Changes in the arterial blood pressure are monitored over time. Additionally, the patient's arterial blood pressure can be modified by initiating and/or adjusting pacing and/or other therapy based on the estimates of the patient's arterial blood pressure and/or monitored changes therein. | 08-23-2012 |
20120271367 | DEVICES, SYSTEMS, AND METHODS FOR CHARACTERIZING A TACHYCARDIA AND/OR SELECTING TREATMENT FOR A TACHYCARDIA USING RESULTS OF A DOMINANT FREQUENCY ANALYSIS - Provided herein are implantable systems, and methods for use therewith, for characterizing a tachycardia and/or selecting treatment for a tachycardia using results of a dominant frequency analysis. One or more electrogram (EGM) signal(s) indicative of cardiac electrical activity are obtained. For at least one of the EGM signal(s) a dominant frequency (DF) analysis is performed, and the results of the DF analysis are used to characterize a tachycardia and/or to select treatment for a tachycardia. | 10-25-2012 |
20120271368 | DEVICES, SYSTEMS AND METHODS FOR CHARACTERIZING A TACHYCARDIA AND/OR SELECTING TREATMENT FOR A TACHYCARDIA USING RESULTS OF A FRACTIONATION ANALYSIS - Provided herein are implantable systems, and methods for use therewith, for characterizing a tachycardia and/or selecting treatment for a tachycardia using results of a fractionation analysis. One or more electrogram (EGM) signal(s) indicative of cardiac electrical activity are obtained. At least one of the EGM signal(s) is analyzed to determine whether the EGM signal is fractionated, and the results of the analyzing are used to characterize a tachycardia and/or to select treatment for a tachycardia. | 10-25-2012 |
20130165965 | PRESSURE TRANSDUCER EQUIPPED CARDIAC PLUG - Disclosed herein is a pressure sensing left atrial occluding implantable medical device. The implantable medical device includes a cardiac plug and a micro electro-mechanical system (“MEMS”). The cardiac plug includes an expandable lobe and an expandable disc proximal the lobe. The expandable lobe is configured to expand into an anchoring arrangement within the left atrial appendage. The expandable lobe is configured to expand into an occluding arrangement with the left atrial appendage. The MEMS is coupled to the cardiac plug proximal of the disc. The MEMS is configured to sense surrounding fluid pressure. | 06-27-2013 |
20130296960 | ELECTROMECHANICAL DELAY (EMD) MONITORING DEVICES, SYSTEMS AND METHODS - Implantable systems, and methods for use therewith, enable the monitoring of a patient's electromechanical delay (EMD) and arterial blood pressure. Paced cardiac events are caused by delivering sufficient pacing stimulation to cause capture. A cardiogenic impedance (CI) signal, indicative of cardiac contractile activity in response to the pacing stimulation being delivered, is obtained. One or more predetermined features of the CI signal are detected, and a value indicative of the patient's EMD is determined by determining a time between a delivered pacing stimulation and at least one of the detected one or more features of the CI signal. The value indicative of EMD can be used to more accurately determine metrics indicative of pulse arrival time (PAT), which can be used to estimate arterial blood pressure. | 11-07-2013 |
20140039238 | SYSTEMS AND METHODS FOR CONTROLLING NEUROSTIMULATION OF ACUPUNCTURE SITES USING AN IMPLANTABLE CARDIAC RHYTHM MANAGEMENT DEVICE - Techniques are provided for use with an implantable cardiac rhythm management (CRMD) system equipped to deliver neurostimulation to acupuncture sites within anterior regions of the neck, thorax or abdomen of the patient. Parameters associated with the health of the patient are detected, such as parameters indicative of arrhythmia, heart failure and hypertension. | 02-06-2014 |
20140155707 | METHODS AND SYSTEMS THAT MONITOR FOR AN IMPENDING MYOCARDIAL INFARCTION - Implantable systems, and methods for use therewith, are provided for monitoring for an impending myocardial infarction. A signal indicative of changes in arterial blood volume is obtained. Such a signal can be a photoplethysmography signal or an impedance plethysmography signal. For each of a plurality of periods of time, a metric indicative of the areas under the curve of the signal or number of inflections in the signal is determined. An impending myocardial infarction is monitored for based on changes in the metric indicative of the area under the curve of the signal or number of inflections in the signal, and an alert and/or therapy is triggered in response to an impending myocardial infarction being predicted. | 06-05-2014 |
20140213890 | METHOD AND APPARATUS FOR GATHERING BODILY FLUID DYNAMIC PRESSURE MEASUREMENTS - An apparatus and method for gathering bodily fluid dynamic pressure measurements including placing a delivery tool in a region of interest (ROI), wherein the delivery tool includes a sensor, wherein the sensor is positioned in a substantially perpendicular direction to a flow direction of the ROI; measuring a sensor displacement for a time period; and determining a pressure measurement in the ROI using the sensor displacement. | 07-31-2014 |
20140336719 | METHOD FOR HEMODYNAMIC OPTIMIZATION USING PLETHYSMOGRAPHY - Time delays between a feature of a signal indicative of electrical activity of a patient's heart and a feature of a plethysmograph signal indicative of changes in arterial blood volume are used to arrange the operation of an implantable device, such as a pacemaker. Shorter time delays between the feature of the signal indicative of electrical activity of a patient's heart and the feature of the plethysmograph signal indicative of changes in arterial blood volume are indicative of larger cardiac stroke volumes. The time delay can be used to select a pacing site or combination of pacing sites and/or to select a pacing interval set. | 11-13-2014 |