Claims
- 1. Method for determining an up or down orientation of the features of an electrocardiogram signal from an electrode vector of an unknown orientation comprising:
- sensing when a ventricular event has occurred,
- sampling and measuring points about the area of said ventricular event sufficient to capture a QRS complex surrounding said ventricular sensed event,
- deciding that the sample with the greatest absolute deviation from an isoelectric level is the location of the R-wave.
- 2. Method for establishing an up or down orientation of an electrogram signal input in an implantable medical device comprising:
- sensing when a ventricular event has occurred,
- sampling and measuring points about the area of said ventricular event sufficient to capture a QRS complex surrounding said ventricular sensed event,
- deciding which one of the samples has the greatest absolute deviation from an isoelectric level, and
- declaring that this one decided sample is the location of the R-wave.
- 3. The method of claim 2 further comprising the step of declaring that the one decided sample is an R-peak.
- 4. The method of claim 2 wherein said method is not employed for each cardiac cycle.
- 5. The method of claim 2 wherein said method is only triggerred by an initiation program which may be activated during an implant proceedure or patient follow-up.
- 6. Implantable medical device apparatus for determining an orientation of an R wave of a cardiac electrogram signal, said apparatus comprising:
- an electrogram reading device connected to a plurality of electrodes for sensing the amplitude variation in the electrical signal of a heart from locations of said electrodes within a living body into which said apparatus is to be implanted,
- a sampling and digitizing circuit for digitizing samples of said cardiac electrical amplitude signal and to provide an output stream of digitized sample point values representative of said samples,
- a V-event detection circuit for generating a V-event signal at its output indicating that a ventricular event has occurred,
- a buffer circuit for holding a set of point values that are temporally related to a time when said V-event signal is output from said V-event detection circuit, and
- a sample point value evaluation circuit for determining which of said digitized sample point values is furthest from an isoelectric level and declaring said furthest point to be an R-wave peak, and those sample points temporally related to it to be an R-wave.
CROSS REFERENCE TO RELATED PATENT APPLICATION
Reference is hereby made to commonly assigned co-pending U.S. patent applications Ser. No. (P-7376) filed on even date herewith for METHOD AND APPARATUS FOR FILTERING ELECTROCARDIOGRAM (ECG) SIGNALS TO REMOVE BAD CYCLE INFORMATION AND FOR USE OF PHYSIOLOGIC SIGNALS DETERMINED FROM SAID FILTERED ECG SIGNALS in the names of Robert W. Stadler et al., Ser. No. (P-7345) filed on even date herewith for AXIS SHIFT ANALYSIS OF ELECTROCARDIOGRAM SIGNAL PARAMETERS ESPECIALLY APPLICABLE FOR MULTIVECTOR ANALYSIS BY IMPLANTABLE MEDICAL DEVICES, AND USE OF SAME in the names Robert W. Stadler et al. Ser. No. (P-7001) filed on even date herewith for IMPROVED METHOD FOR ISCHEMIA DETECTION AND APPARATUS FOR USING SAME in the names Robert W. Stadler et al.
US Referenced Citations (11)
Non-Patent Literature Citations (6)
Entry |
Contractility and Peak Endocardial Acceleration (Pea During Experimental Cornory Occlusion 17-3 Cardiostem 98' L. Padeleti et al. |
Analysis of Transient ST Segment Changes During Ambulatory Monitoring Fran Jager et al. |
An Approach to Intelligent Ischaemia Monitorin (pp. 749-756) Medical & Biological Enginnering & Computing By A. Bosnjak. |
A Compact Microporcessor-Based ECG ST-Segment Analyzer for the Operating Room IEEE Transactions on Biomedical Engineering Vol. BME-29 No. 9 Sep. (pp 642-648) by Steven J. Weisner et al. |
Bedside Diagnosis of Myocardial Ischemia with ST-Segment Monitoring Technology Journal of Electrocardiology vol. 30 (pp. 156-165) By Barbara J. Drew et al. |
Body Position Effects on the ECG Journal of Electrocardiology vol. 30 No. 4 Oct. 4, 1997 (pp. 285-291) By Mary G. Adams. |