Patent application number | Description | Published |
20090192393 | DETERMINING LOCATIONS OF GANGLIA AND PLEXI IN THE HEART USING COMPLEX FRACTIONATED ATRIAL ELECTROGRAM - Software and apparatus are provided to automatically detect and map ganglionated plexi that are found within areas of complex fractionated electrograms in cardiac chambers. Electrogram signal are analyzed to count the number of complexes whose amplitude and peak-to-peak intervals meet certain criteria. Functional maps indicating a spatial distribution of the ganglionated plexi and the relative numbers of complex fractionated electrograms are produced for display. | 07-30-2009 |
20100004550 | BINARY LOGISTIC MIXED MODEL FOR COMPLEX FRACTIONATED ATRIAL ELECTROGRAM PROCEDURES - Methods and systems are provided for locating arrhythmogenic cardiac focus. A training set of electrical signal data is acquired and automatically analyzed to identify CFAE locations. The data representing the CFAE locations are and subjected to determinations of medical significance, such as ablation decisions, by a battery of physicians. The decisions and descriptive statistics of the data are fitted to a binary logistic mixed model, in which the physician decisions are treated as random effects. The model is then applied to patient CFAE data to establish estimates of medical significance, such as suitability for ablation. | 01-07-2010 |
20130079650 | GRAPHIC USER INTERFACE FOR PHYSICAL PARAMETER MAPPING - A method, including measuring values of a physical parameter at multiple locations in an organ of a subject, and analyzing the measured values to identify a range of the values, including at least one sub-range containing one or more values that were not measured. The method further includes receiving a selection from a user of a value in the sub-range, and, responsive to the selection, displaying a candidate location for further measurement. | 03-28-2013 |
20130253349 | AUTOMATED ANALYSIS OF COMPLEX FRACTIONATED ELECTROGRAMS - A method for mapping abnormal electrical activity, including obtaining electrical signal data from respective locations in a heart of a living subject, and automatically analyzing the signal data to identify complex fractionated electrograms (CFEs) therein. The method further includes analyzing the CFEs so as to identify reentry locations comprised in the respective locations, and displaying information derived from the identification in relation to a map of the heart. | 09-26-2013 |
20130281870 | CARDIAC ACTIVATION TIME DETECTION - A method for characterizing an electrocardiogram, including receiving a first unipolar signal from a first location of a heart and a second unipolar signal from a second location of the heart. The method further includes generating a bipolar signal from the first and second unipolar signals, and analyzing the bipolar signal to delineate a time period during which the first and second locations generate a bipolar complex. The method also includes analyzing the first unipolar signal within the time period to determine an activation time of the first location. | 10-24-2013 |
20130317339 | ENDOBRONCHIAL CATHETER - An endobronchial probe includes a deflector having a bore extending therethrough at an angle to its long axis for passage of a tool. The probe includes a location sensor and an ultrasound imager. A push-pull anchoring system comprises a plurality of guides and wires that can extend beyond the guides and retract within the guides. When extended the wires diverge from the long axis sufficiently to engage a bronchus. The probe includes a balloon disposed on the distal segment contralateral to bore that when inflated urges the mouth of the bore into contact with the bronchial wall. | 11-28-2013 |
20140142419 | PATIENT MOVEMENT COMPENSATION IN INTRA-BODY PROBE - A method includes receiving a position of an intra-body probe inserted into an organ of a living body in a first coordinate system. Fluoroscopic images of the body are received. A movement of the body in the fluoroscopic images is measured in a second coordinate system. The received position of the intra-body probe in the first coordinate system is corrected using the movement identified in the second coordinate system. | 05-22-2014 |
20150073246 | METHOD FOR MAPPING VENTRICULAR/ATRIAL PREMATURE BEATS DURING SINUS RHYTHM - While detecting a cardiac arrhythmia, a mapping electrode of a probe is used to associate a local activation time with a first location in a region of interest in the heart. While detecting an absence of the cardiac arrhythmia, the local activation time is associated with a second location in the heart. Electrical data of the first location is assigned to the second location, and an electroanatomic map of the heart is generated that includes the second location in association with the assigned electrical data of the first location. | 03-12-2015 |