Low-power consumption cardiac pacer based on automatic verification of evoked contractions
First Claim
1. A system for detecting the responsiveness of a patient heart having a predetermined minimum refractory period to pacing pulses having a predetermined energy level, comprising:
- generating means electrically coupled to the heart for generating a series of pacing event signals, each comprising in a first mode a pair of pulses of the predetermined energy level and separated in time by less than the refractory period of the heart, and in a second mode each comprising a single pulse of the predetermined energy level;
detection means electrically coupled to the heart for detecting the artifact signals produced by the heart in response to each of said pacer pulses;
storage means for storing the one of said artifact signals corresponding to the one of said individual pulses in said event which did not induce a cardiac event;
means for conditioning said generating means to said second mode to develop single pulse pacing events following storage of said one artifact signal;
comparison means for compariang the artifact produced in response to each of said single pacing pulses in said second mode of said generating means with said one artifact signal in said storage means to produce a difference signal indicative of a response by the heart to said pacing events.
8 Assignments
0 Petitions
Accused Products
Abstract
A low-power consumption implantable pacer includes a system for detecting evoked cardiac contractions in which pacing pulses are initially applied to a patient'"'"'s heart in pairs such that at most only one pulse of a pair can induce capture. The lead recovery waveforms produced in response to each of the pulses of a pair are detected and compared. By selectively varying the pulse energy level, the patient'"'"'s capture threshold is determined. Pulse energy is then increased such that the first pulse of each pair induces capture and the lead recovery waveform resulting from the second, non-capturing pulse is stored. To conserve battery current, single pacing pulses are then supplied to the heart, and the lead recovery waveforms developed by the single pulses are compared against the stored waveform to yield a reference difference signal which verifies capture. When a significant change in difference signals is detected, the pacer automatically repeats the foregoing paired-pulse autocapture threshold determination and output level adjustment algorithm.
214 Citations
13 Claims
-
1. A system for detecting the responsiveness of a patient heart having a predetermined minimum refractory period to pacing pulses having a predetermined energy level, comprising:
-
generating means electrically coupled to the heart for generating a series of pacing event signals, each comprising in a first mode a pair of pulses of the predetermined energy level and separated in time by less than the refractory period of the heart, and in a second mode each comprising a single pulse of the predetermined energy level; detection means electrically coupled to the heart for detecting the artifact signals produced by the heart in response to each of said pacer pulses; storage means for storing the one of said artifact signals corresponding to the one of said individual pulses in said event which did not induce a cardiac event; means for conditioning said generating means to said second mode to develop single pulse pacing events following storage of said one artifact signal; comparison means for compariang the artifact produced in response to each of said single pacing pulses in said second mode of said generating means with said one artifact signal in said storage means to produce a difference signal indicative of a response by the heart to said pacing events. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
10. A system for detecting the responsiveness of a patient heart having a predetermined minimum refractory period to pacing pulses having a predetermined energy level, comprising:
-
generating means electrically coupled to the heart for generating a series of pacing event signals, each comprising in a first mode a pair of pulses of the predetermined energy level and separated in time by less than the refractory period of the heart, and in a second mode each comprising a single pulse of the predetermined energy level; detection means electrically coupled to the heart for detecting the artifact signals produced by the heart in response to each of said pacer pulses; storage means for storing the one of said artifact signals corresponding to the one of said individual pulses in said event which did not induce a cardiac event; subtraction means for subtracting following each pacing event the absolute values of the artifact signal stored in said storage means with the artifact produced in response to each such single pacing pulse to develop a difference signal; integrating means for integrating said difference signal to develop an integrated difference signal; and output circuit means for providing an output signal indicative of capture when said integrated difference signal exceeds a predetermined threshold level. - View Dependent Claims (11)
-
-
12. A method for detecting cardiac contractions induced in response to the application of pacing pulses to a patient'"'"'s heart having a predetermined minimum refractory period, comprising the steps of:
-
applying a first pacing pulse to the patient'"'"'s heart; detecting a first recvery artifact, indicative of cardiac activity, produced in response to application of said first pulse to the patient'"'"'s heart; applying, in an alternate mode of operation, a second pacing pulse to the patient'"'"'s heart within a time period following the application of said first pulse which is less than the minimum refractory period of the patient'"'"'s heart; detecting the recovery artifact, indicative of cardiac activity, product in response to application of said second pulse to the patient'"'"'s heart; storing the artifact signal corresponding to said second pacing pulse upon said first pacing pulse evoking capture; conditioning said generating means to said alternate mode to develop only said first pacing pulse following storing of the artifact signal; and comparing the artifact produced in response to each of the single pacing pulses with the stored artifact signal to produce a difference signal indicative of a response by the heart to such single pacing signal. - View Dependent Claims (13)
-
Specification