PACING SYSTEM ANALYZER HAVING THREE SENSING AND PACING CHANNELS
First Claim
1. A method for operating a pacing system analyzer (PSA), the method comprising:
- sensing cardiac signals including a first cardiac signal indicative of first cardiac events using a first sensing and pacing channel of the PSA, a second cardiac signal indicative of second cardiac events using a second sensing and pacing channel of the PSA, and a third cardiac signal indicative of third cardiac events using a third sensing and pacing channel of the PSA;
controlling delivery of pacing pulses by executing a predetermined pacing algorithm using a plurality of pacing parameters including user-programmable pacing parameters, the delivery of pacing pulses including one or more of delivery of first pacing pulses using the first sensing and pacing channel of the PSA, delivery of second pacing pulses using the second sensing and pacing channel of the PSA, and delivery of third pacing pulses using the third sensing and pacing channel of the PSA; and
measuring a plurality of lead impedance values each associated with one of the first, second, and third sensing and pacing channels, a plurality of event parameters each associated with one of the first, second, and third cardiac events, and a plurality of conduction intervals using the PSA, the conduction intervals each being a time interval between two cardiac events selected from two of the first, second, and third cardiac events.
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Abstract
A pacing system analyzer (PSA) having three or more individually controllable sensing and pacing channels provides for testing and measurement during an operation for implanting a pacemaker having three or more sensing and pacing channels. The PSA allows control and adjustment of pacing parameters including cross-channel pacing parameters relating activities between any two of the three or more channels, such as atrioventricular and interventricular pacing delays. The PSA is also capable of, among other things, displaying real-time cardiac signals, measuring amplitude and slew rate of cardiac depolarizations, and measuring lead impedance for each of the sensing and pacing channels, as well as measuring time intervals between cardiac depolarizations in two different sensing and pacing channels. In one embodiment, the PSA includes individually controllable atrial, right ventricular (RV), and left ventricular (LV) sensing and pacing channels.
40 Citations
20 Claims
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1. A method for operating a pacing system analyzer (PSA), the method comprising:
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sensing cardiac signals including a first cardiac signal indicative of first cardiac events using a first sensing and pacing channel of the PSA, a second cardiac signal indicative of second cardiac events using a second sensing and pacing channel of the PSA, and a third cardiac signal indicative of third cardiac events using a third sensing and pacing channel of the PSA; controlling delivery of pacing pulses by executing a predetermined pacing algorithm using a plurality of pacing parameters including user-programmable pacing parameters, the delivery of pacing pulses including one or more of delivery of first pacing pulses using the first sensing and pacing channel of the PSA, delivery of second pacing pulses using the second sensing and pacing channel of the PSA, and delivery of third pacing pulses using the third sensing and pacing channel of the PSA; and measuring a plurality of lead impedance values each associated with one of the first, second, and third sensing and pacing channels, a plurality of event parameters each associated with one of the first, second, and third cardiac events, and a plurality of conduction intervals using the PSA, the conduction intervals each being a time interval between two cardiac events selected from two of the first, second, and third cardiac events. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 13, 14)
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11. A method for operating a pacing system analyzer (PSA), the method comprising:
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sensing an atrial electrogram indicative of atrial depolarizations using an atrial sensing and pacing channel of the PSA, a right ventricular (RV) electrogram indicative of RV depolarizations using an RV sensing and pacing channel of the PSA, and a left ventricular (LV) electrogram indicative of LV depolarizations using an LV sensing and pacing channel of the PSA; controlling delivery of pacing pulses using a plurality of pacing parameters including user-programmable pacing parameters, the delivery of pacing pulses including one or more of delivery of atrial pacing pulses using the atrial sensing and pacing channel of the PSA, delivery of RV pacing pulses using the RV sensing and pacing channel of the PSA, and delivery of LV pacing pulses using the LV sensing and pacing channel of the PSA; measuring a plurality of conduction intervals using the PSA, the conduction intervals each being a time interval between two depolarizations selected from two of the atrial depolarizations, the RV depolarizations, and LV depolarizations; and displaying the atrial electrogram, the RV electrogram, the LV electrogram, and the measured conduction intervals using a display screen of the PSA. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification