Patent application number | Description | Published |
20080234777 | MULTI-CHAMBER VENTRICULAR AUTOMATIC CAPTURE METHOD AND APPARATUS FOR MINIMIZING TRUE AND BLANKING PERIOD INDUCED VENTRICULAR UNDERSENSING - An implantable cardiac stimulation device and associated method perform a true or blanking period ventricular undersensing detection algorithm in response to ventricular loss of capture not associated with fusion or a change in capture threshold. The test identifies an originating cause of loss of capture, which may be ventricular undersensing of intrinsic R-waves or premature ventricular contractions occurring during a ventricular blanking period or atrial undersensing of P-waves resulting in blanking period ventricular undersensing. A corrective action is taken to reduce the likelihood of blanking period ventricular undersensing by automatically adjusting device operating parameters. The corrective action may include automatic adjustment of atrial sensitivity, shortening of the ventricular blanking period, or adjustment of the base stimulation rate. Minimizing the blanking period ventricular undersensing improves device performance by avoiding back-up stimulation and minimizing the risk of pacemaker competition-induced arrhythmias. | 09-25-2008 |
20080312710 | IMPLANTABLE CARDIAC DEVICE PROVIDING INTRINSIC CONDUCTION SEARCH WITH PREMATURE ATRIAL CONTRACTION PROTECTION AND METHOD - The extended AV interval of an auto intrinsic conduction search of an implantable cardiac stimulation device has premature atrial contraction protection. A timer times a base AV interval and the extended AV interval. If the heart is paced with the extended AV interval and a premature atrial contraction is detected, the extended AV interval is maintained. Once a predetermined number of consecutive premature atrial contractions are detected, the extended AV interval is reset to the base AV interval. | 12-18-2008 |
20090005828 | IMPLANTABLE MEDICAL DEVICE FOR IDENTIFYING AND MANAGING INTRINSIC REENTRANT TACHYCARDIA - An implantable medical device is provided that comprises a pulse generator that provides atrial and ventricular pacing pulses on demand. The pulse generator times delivery of the ventricular pacing pulses based on an AV pacing interval. The device also includes an AV hysteresis module that extends the AV interval from a base AV interval to an extended AV interval to promote intrinsic heart activity. A refractory module establishes a PVARP interval equal to base PVARP interval following at least one of the ventricular pacing pulses. The refractory module lengthens the PVARP interval by adding a PVARP extension to a base PVARP interval to provide an extended PVARP interval. The device further includes a reentrant conduction detector that identifies an intrinsic reentrant tachycardia having a retrograde P wave occurring during the PVARP extension, based on one or more of i) a retrograde P wave, ii) intrinsic R waves sensed over N cardiac cycles at an R to R interval above a rate threshold and iii) one or more of PR and RP intervals that exceed PR and RP thresholds. | 01-01-2009 |
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 |
20090082826 | AUTOMATIC SIGNAL AMPLITUDE MEASUREMENT SYSTEM IN THE SETTING OF ABNORMAL RHYTHMS - A system for automatically evaluating the sensing and detection of physiological processes by an implantable medical device, such as an implantable cardiac stimulation device. The system includes an automatic testing algorithm which iteratively adjusts at least one of the threshold and gain settings of the device and evaluates the accuracy of the detection for refining the programming of the device. The algorithm can include sampling the physiological process beginning at a relatively low rate to avoid excessive burden on the processing and battery capacity available and progressively increasing the rate to obtain higher resolution data. The algorithm can also evaluate the observed physiological process for periodicity and can determine repetition of an irregular pattern, such as bigeminy, and use the determined pattern for predictive purposes to refine the programming of the device. The algorithm employs observation of a change in observed pattern as indicia for loss of proper detection. | 03-26-2009 |
20090270938 | CAPTURE THRESHOLD AND LEAD CONDITION ANALYSIS - An exemplary method includes performing a capture threshold assessment using a bipolar electrode configuration, deciding if capture occurred for a maximum energy value of the capture threshold assessment and, if capture did not occur, then performing a lead impedance test for the lead associated with the bipolar electrode configuration. Such a test may aim to detect an insulation defect and/or a conductor defect. Other exemplary methods, devices, systems, etc., are also disclosed. | 10-29-2009 |
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 |
20100087891 | SYSTEMS AND METHODS FOR DIAGNOSING AN IMPLANTABLE DEVICE - A method for diagnosing an implantable cardiac device including a plurality of implanted leads may include: monitoring a plurality of parameters associated with the plurality of implanted leads; detecting a change in one of the parameters; evaluating at least one of the other parameters upon detection of the change; and diagnosing a problem with the implantable cardiac device based on the detected change and the evaluation. A system for diagnosing an implantable cardiac device including a plurality of implanted leads may include an implantable pacing device and a processor. The processor may be configured to: monitor a plurality of parameters associated with the plurality of implanted leads; detect a change in one of the parameters; evaluating at least one of the other parameters upon detection of the change; and diagnose a problem with the implantable cardiac device based on the detected change and the evaluation. | 04-08-2010 |
20100152806 | SYSTEMS AND METHODS FOR OPERATING AN IMPLANTABLE DEVICE FOR MEDICAL PROCEDURES - When a medical procedure is performed on a patient in whom an implantable medical device is implanted, the medical procedure may have undesired effects on the medical device, such as triggering a response that initiates therapy by the device that is unnecessary and potentially dangerous to the patient. Systems and methods may facilitate performing of such medical procedures on such patients by temporarily reprogramming the medical device, monitoring for one or more detectable characteristics associated with the medical procedure to be performed, and restoring normal programming of the device based on detection and/or lack of detection of the detectable characteristic(s). | 06-17-2010 |
20110178567 | TECHNIQUES FOR PROMOTING BIVENTRICULAR SYNCHRONY AND STIMULATION DEVICE EFFICIENCY USING INTENTIONAL FUSION - A method includes providing an optimal interventricular interval, determining an atrio-ventricular conduction delay for the ventricle having faster atrio-ventricular conduction, determining an interventricular conduction delay and determining an advance atrio-ventricular pacing interval, for use in pacing the ventricle having slower atrio-ventricular conduction, based at least in part on the optimal interventricular interval and the interventricular conduction delay. | 07-21-2011 |
20110208261 | SYSTEMS AND METHODS FOR ASSESSING AND REPROGRAMMING SENSING VECTORS FOR USE WITH AN IMPLANTABLE CARDIAC RHYTHM MANAGEMENT DEVICE - Techniques are provided for use with a pacemaker or other implantable medical device capable of sensing electrical signals along a set of programmable sensing vectors. In one example, electrical cardiac signals are sensed within a patient using a primary sensing vector connected to a primary sensing channel for use in controlling the delivery of therapy. If the device detects a significant drop in key signal parameters such as peak signal amplitude or slew rate, an assessment is made whether an alternate sensing vector provides improved cardiac signal sensing. During the assessment, the device can continue to sense signals along the primary channel for the purposes of controlling therapy while alternate vectors are assessed in the background. If it is determined that an alternate sensing vector provides improved cardiac signal sensing, the primary sensing channel can be switched to the alternate sensing vector for use in controlling further therapy. | 08-25-2011 |
20110230927 | METHOD AND SYSTEM FOR DETECTING AND TREATING JUNCTIONAL RHYTHMS - An implantable medical device is provided for detecting transportless ventricular rhythm of a heart lacking atrial transport and comprises a housing, sensors configured to be located proximate to a heart, a sensing module to sense cardiac signals representative of a rhythm originating from the heart and a rhythm detection module. The rhythm detection module determines a change in AV association and identifies a potential ventricular complex with loss of atrial transport (VCLAT) based on the change in AV association. | 09-22-2011 |
20110257700 | REMOTE FOLLOW-UP AUTOMATICITY WITH INTELLIGENT DATA DOWNLOAD RESTRICTIONS - An implanted device is equipped with a flag that indicates to a remote monitoring unit that an event such as a patient medical emergency or device failure has occurred. The remote monitoring unit is configured in some embodiments to maintain a low power communication link with the implanted device when they are within range. When the flag indicates an event has occurred, the remote monitoring unit quickly downloads sensed data collected by the implanted device and transfers it over a network so that it can be utilized by a medical practitioner. The remote monitoring unit is further configured in some embodiments to query the implanted device at regular intervals. The remote monitoring unit may read a subset of the data stored by the implanted device and, based on that data, determine whether to complete a full or partial download. | 10-20-2011 |
20110319951 | Systems and Methods for Use by an Implantable Medical Device for Controlling Multi-Site CRT Pacing in the Presence of Atrial Tachycardia - Systems and methods are provided for use by implantable medical devices equipped to deliver multi-site left ventricular (MSLV) pacing. MSLV is associated with a relatively long post-ventricular atrial blanking (PVAB) period that might limit the detection of pathologic rapid organized atrial tachycardias (OAT). In one example, MSLV cardiac resynchronization therapy (CRT) pacing is delivered within a tracking mode. A possible atrial tachycardia is detected based on the atrial rate exceeding an atrial tachycardia assessment rate (ATAR) threshold. The device then switches to single-site LV pacing, thereby effectively shortening the PVAB to detect additional atrial events that might otherwise be obscured, and thereby permitting the device to more reliably distinguish organized atrial tachycardias (such as atrial flutter) from sinus tachycardia. The device may also employ an automatic mode switch (AMS) threshold that is set higher than the ATAR threshold for use in switching from tracking modes to nontracking modes. | 12-29-2011 |
20110319953 | SYSTEMS AND METHODS FOR USE BY AN IMPLANTABLE MEDICAL DEVICE FOR CONTROLLING MULTI-SITE CRT PACING IN THE PRESENCE OF ATRIAL TACHYCARDIA - Systems and methods are provided for use by implantable medical devices equipped to deliver multi-site left ventricular (MSLV) pacing. Sequential MSLV is associated with a relatively long post-ventricular atrial blanking (PVAB) period that might limit the detection of pathologic rapid organized atrial tachycardias (OAT). In one example, sequential MSLV cardiac resynchronization therapy (CRT) pacing is delivered within a tracking mode. A possible atrial tachycardia is detected based on the atrial rate exceeding an atrial tachycardia assessment rate (ATAR) threshold. The device then switches to either single-site LV pacing or simultaneous MSLV pacing, thereby effectively shortening the PVAB to detect additional atrial events that might otherwise be obscured, and thereby permitting the device to more reliably distinguish OATs (such as atrial flutter) from sinus tachycardia. The device may also employ an automatic mode switch (AMS) threshold set higher than the ATAR threshold for use in switching from tracking modes to nontracking modes. | 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 |
20130289645 | CAPTURE THRESHOLD AND LEAD CONDITION ANALYSIS - An exemplary method includes performing a capture threshold assessment using a bipolar electrode configuration, deciding if capture occurred for a maximum energy value of the capture threshold assessment and, if capture did not occur, then performing a lead impedance test for the lead associated with the bipolar electrode configuration. Such a test may aim to detect an insulation defect and/or a conductor defect. Other exemplary methods, devices, systems, etc., are also disclosed. | 10-31-2013 |
20130304150 | REMOTE FOLLOW-UP AUTOMATICITY WITH INTELLIGENT DATA DOWNLOAD RESTRICTIONS - An implanted device is equipped with a flag that indicates to a remote monitoring unit that an event such as a patient medical emergency or device failure has occurred. The remote monitoring unit is configured in some embodiments to maintain a low power communication link with the implanted device when they are within range. When the flag indicates an event has occurred, the remote monitoring unit quickly downloads sensed data collected by the implanted device and transfers it over a network so that it can be utilized by a medical practitioner. The remote monitoring unit is further configured in some embodiments to query the implanted device at regular intervals. The remote monitoring unit may read a subset of the data stored by the implanted device and, based on that data, determine whether to complete a full or partial download. | 11-14-2013 |
20130331900 | TRIGGERED MODE PACING FOR CARDIAC RESYNCHRONIZATION THERAPY - A triggered mode pacing system enables dual chamber sensing. The system also determines whether a cardiac event is initially sensed in a first cardiac chamber or a second cardiac chamber. The system then triggers an output to the second cardiac chamber in response to sensing the cardiac event in the first cardiac chamber when the cardiac event was determined to have been initially sensed in the first cardiac chamber. | 12-12-2013 |
20140172033 | METHOD AND SYSTEM FOR DETECTING AND TREATING JUNCTIONAL RHYTHMS - An implantable medical device is provided for detecting transportless ventricular rhythm of a heart lacking atrial transport and comprises a housing, sensors configured to be located proximate to a heart, a sensing module to sense cardiac signals representative of a rhythm originating from the heart and a rhythm detection module. The rhythm detection module determines a change in AV association and identifies a potential ventricular complex with loss of atrial transport (VCLAT) based on the change in AV association. | 06-19-2014 |