Electrocardiography signal transmission-reception method including method of measuring pacemaker signal frequency
First Claim
1. A method of transmitting electrocardiographic data from a first location to a receiving location, wherein the data includes information relating to the heartbeat of a patient and an artificial heart stimulator implanted in the patient'"'"'s body for precisely measuring the frequency of the artifact signals to accurately assess the residual life of the power source of the artificial heart stimulator, said method comprising:
- a. sensing and generating a train of repetitive composite signals which include a plurality of QRS complex signals attributable to the heartbeat of the patient and a plurality of artifact signals attributable to the operation of the heart stimulator and wherein the artifact signals are interspersed with the QRS complex signals;
b. frequency-modulating the train of signals onto a carrier signal having a carrier frequency in the audio frequency range;
c. transmitting the frequency-modulated carrier to the receiving location via ordinary communication carriers lines;
d. demodulating, at the receiving location, the incoming frequency-modulated carrier signal to reproduce a signal train which has a waveform corresponding to the original signal train;
e. recording the reproduced signal train on a moving recording medium having equally-spaced calibration lines and designed to move at a desired speed;
f. generating and recording on the recording medium, at substantially the same time as the recording of the reproduced signal train, and completely independent from the recording medium moving means, periodically-timed marker signals spaced in time so that during that time the moving recording medium will move a desired space relative to the marker signals when at the desired speed;
g. measuring the linear distance between sequential artifact signals on the recording medium as indicated by the calibration lines to determine the measured artifact signal frequency, assuming that the recording medium is moving at the desired speed;
h. measuring the space between selected marker signals to determine if the moving recording medium was moving at the desired speed during the recording, thereby indicating that the measured artifact signal frequency is the correct artifact signal frequency;
i. and obtaining the precise artifact signal frequency if the moving recording medium was not moving at the desired speed by correcting the measured artifact signal frequency in accordance with a correction factor determined by the ratio between the measured space between the selected marker signals and the desired space when the moving recording medium is moving at the desired speed.
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Abstract
Described is method and apparatus for transmission of electrocardiography (EKG) signal wave trains from a patient'"'"'s location via common carrier wire lines, such as telephone lines, to a central diagnostic office. The EKG signals consist of a composite train of Pacemaker potentials (artifacts) derived from an implanted Pacemaker, and of potentials derived from the heart itself. At the central, the EKG signals are pen-recorded, but additionally a train of Pacemaker artifacts only, is formed and from it is determined the Pacemaker frequency as an indication of remaining Pacemaker battery life. The central is provided with additional equipment, such as an arrhythmia analyzer which prepares an interval histogram from the patient'"'"'s EKG signal. The histogram serves as an indication of "loss of capture" of the patient'"'"'s heartbeat by the Pacemaker and such loss of capture is confirmed by the absence of correlation between the Pacemaker artifact and the "QRS complex" portion of the patient'"'"'s EKG.
Also disclosed is a method and apparatus for precisely measuring the frequency of the Pacemaker artifacts in order to detect potential Pacemaker battery failure, which would be indicated by a change in the artifact frequency over a period of time. This apparatus includes timer marker generation means for recording precisely timed markers to provide a correction factor for compensating for a variation in the recording paper speed.
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Citations
17 Claims
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1. A method of transmitting electrocardiographic data from a first location to a receiving location, wherein the data includes information relating to the heartbeat of a patient and an artificial heart stimulator implanted in the patient'"'"'s body for precisely measuring the frequency of the artifact signals to accurately assess the residual life of the power source of the artificial heart stimulator, said method comprising:
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a. sensing and generating a train of repetitive composite signals which include a plurality of QRS complex signals attributable to the heartbeat of the patient and a plurality of artifact signals attributable to the operation of the heart stimulator and wherein the artifact signals are interspersed with the QRS complex signals; b. frequency-modulating the train of signals onto a carrier signal having a carrier frequency in the audio frequency range; c. transmitting the frequency-modulated carrier to the receiving location via ordinary communication carriers lines; d. demodulating, at the receiving location, the incoming frequency-modulated carrier signal to reproduce a signal train which has a waveform corresponding to the original signal train; e. recording the reproduced signal train on a moving recording medium having equally-spaced calibration lines and designed to move at a desired speed; f. generating and recording on the recording medium, at substantially the same time as the recording of the reproduced signal train, and completely independent from the recording medium moving means, periodically-timed marker signals spaced in time so that during that time the moving recording medium will move a desired space relative to the marker signals when at the desired speed; g. measuring the linear distance between sequential artifact signals on the recording medium as indicated by the calibration lines to determine the measured artifact signal frequency, assuming that the recording medium is moving at the desired speed; h. measuring the space between selected marker signals to determine if the moving recording medium was moving at the desired speed during the recording, thereby indicating that the measured artifact signal frequency is the correct artifact signal frequency; i. and obtaining the precise artifact signal frequency if the moving recording medium was not moving at the desired speed by correcting the measured artifact signal frequency in accordance with a correction factor determined by the ratio between the measured space between the selected marker signals and the desired space when the moving recording medium is moving at the desired speed. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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- 10. A method of precisely measuring the frequency of Pacemaker artifact signals included in electrocardiography signals recorded on a recording medium having equally-spaced calibration lines and designed to move at a desired speed comprising the steps of:
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11. a. generating and recording on the recording medium, at substantially the same time as the recording of the electrocardiography signals and completely independent from the recording medium moving means, periodically-timed marker signals spaced in time so that during that time the moving recording medium will move a desired space relative to the marker signals when at the desired speed;
- 12. b. measuring the linear distance between sequential artifact signals on the recording medium as indicated by the calibration lines to determine the measured artifact signal frequency, assuming that the recording medium is moving at the desired speed;
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13. c. measuring the space between selected marker signals to determine if the moving recording medium was moving at the desired speed during the recording, thereby indicating that the measured artifact signal frequency is the correct artifact signal frequency;
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14. d. and obtaining the precise artifact signal frequency if the moving recording medium was not moving at the desired speed by correcting the measured artifact signal frequency in accordance with a correction factor determined by the ratio between the measured space between the selected marker signals and the desired space when the moving recording medium is moving at the desired speed.
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16. The method of claim 24 wherein X equals 1, Y equals 25, Z equals 3 and U-1 equals 10 so that X times Y times Z times U-1 equals 750, the denominator of the correction factor.
Specification