Patent application number | Description | Published |
20140107453 | REAL-TIME SIGNAL COMPARISON TO GUIDE ABLATION CATHETER TO THE TARGET LOCATION - A catheter system includes a plurality of mapping electrodes, an electrode movable relative to the plurality of mapping electrodes, and a guidance system coupled to the plurality of mapping electrodes and the ablation electrode. The guidance system is configured to receive signals associated with intrinsic cardiac activity sensed by the plurality of mapping electrodes and the movable electrode, and to correlate in real-time the intrinsic cardiac activity sensed by the movable electrode with the intrinsic cardiac activity sensed by the plurality of mapping electrodes based on the signals received by the plurality of mapping electrodes and movable electrode to determine a location of the movable electrode with respect to the plurality of mapping electrodes. | 04-17-2014 |
20140180051 | ROTOR IDENTIFICATION USING SEQUENTIAL PATTERN MATCHING - An anatomical mapping system includes a plurality of mapping electrodes each having an electrode location and configured to detect activation signals of intrinsic physiological activity within an anatomical structure. A mapping processor is associated with the plurality of mapping electrodes and is configured to record the detected activation signals and associate one of the plurality of mapping electrodes with each recorded activation signal. The mapping processor is further configured to analyze the recorded activation signals to identify at least one recurring pattern based on a relationship between a timing of the detected activation signals and the electrode locations of the mapping electrode associated with each detected activation signal. | 06-26-2014 |
20140180147 | ESTIMATING INTERSPLINE DISTANCES ON MAPPING CATHETERS - A catheter system includes a mapping catheter having a plurality of splines, each of the plurality of splines including a plurality of mapping electrodes. The system further includes a processor operatively coupled to the plurality of mapping electrodes and configured to receive signals sensed by the plurality of mapping electrodes. The processor is further configured to estimate an interspline distance between adjacent splines in the plurality of splines based on the signals sensed by the mapping electrodes on the adjacent splines. | 06-26-2014 |
20140180151 | SUPPRESSION OF GLOBAL ACTIVATION SIGNALS DURING ANATOMICAL MAPPING - A method for mapping an anatomical structure includes sensing activation signals of intrinsic physiological activity with a plurality of electrodes disposed in or near the anatomical structure, identifying at least one of the electrodes not in direct contact with the anatomical structure, and adjusting the activation signals sensed by each of the plurality of electrodes based on the activation signals sensed by the identified at least one of the electrodes not in direct contact with the anatomical structure. | 06-26-2014 |
20140180152 | REAL-TIME FEEDBACK FOR ELECTRODE CONTACT DURING MAPPING - A catheter system includes a mapping catheter including a plurality of mapping electrodes, each mapping electrode configured to sense signals associated with an anatomical structure. The catheter system further includes a processor operatively coupled to the plurality of mapping electrodes and configured to receive the signals sensed by the plurality of mapping electrodes, characterize the signals sensed by the plurality of mapping electrodes based on amplitudes of the sensed signals, and generate an output of a quality of contact of the plurality of mapping electrodes with the anatomical structure based on the signal characterization. | 06-26-2014 |
20140187989 | ESTIMATING RESTITUTION CURVES IN AN ANATOMICAL MAPPING SYSTEM - A method for mapping an anatomical structure includes sensing activation signals of physiological activity with a plurality of electrodes disposed in or near the anatomical structure, each activation signal having an associated cycle length, estimating an action potential duration and diastolic interval for each cycle length, generating a restitution curve based on the estimated action potential duration and diastolic interval from a preceding cycle length, iteratively optimizing each estimated action potential duration and corresponding diastolic interval to maximize a functional relationship between the estimated action potential duration and estimated diastolic interval from preceding cycle length, and generating an action potential duration restitution curve based on the optimized action potential durations and diastolic intervals. | 07-03-2014 |
20140187991 | ARTIFACT CANCELLATION TO SUPPRESS FAR-FIELD ACTIVATION DURING ELECTROPHYSIOLOGY MAPPING - A method for mapping a cardiac chamber includes sensing activation signals of intrinsic physiological activity with a plurality of electrodes disposed in or near the cardiac chamber, the activation signals including a near-field activation signal component and a far-field activation signal component, isolating R-wave events in the activation signals, generating a far-field activation template representative of the far-field activation signal component based on the R-wave events, and filtering the far-field activation template from the activation signals to identify the near-field activation signal components in the activation signals. | 07-03-2014 |
20140200457 | RECONSTRUCTION OF CARDIAC ACTIVATION INFORMATION BASED ON ELECTRICAL AND MECHANICAL MEANS - An anatomical mapping system includes a plurality of mapping electrodes, a plurality of mechanical sensors, and a mapping processor associated with the plurality of mapping electrodes and mechanical sensors. The mapping electrodes are configured to detect electrical activation signals of intrinsic physiological activity within an anatomical structure. The mechanical sensors are configured to detect mechanical activity associated with the intrinsic physiological activity. The mapping processor is configured to record the detected activation signals and associate one of the plurality of mapping electrodes and mechanical sensors with each recorded activation signal. The mapping processor is further configured to determine activation times of the intrinsic physiological activity based on a correlation of corresponding electrical activation signals and mechanical activity. | 07-17-2014 |
20140236254 | DEVICES AND METHODS FOR TREATMENT OF THE ALIMENTARY TRACT - An alimentary tract treatment system is disclosed. The system may include a plurality of sensor devices for engaging a wall of a portion of the alimentary tract. The plurality of sensor devices may sense a parameter of the wall. The system may also include an alimentary tract treatment device for controlling a flow of material through the alimentary tract. Operation of the alimentary tract treatment device may be controlled based on the parameter sensed by the plurality of sensor devices. | 08-21-2014 |