Accurate cardiac event detection in an implantable cardiac stimulus device

What is claimed is: 1. A method of event detection in an implantable cardiac stimulus device having a plurality of electrodes adapted for implantation in a patient, the method comprising: capturing electrical signals from the electrodes; comparing captured electrical signals to a detection threshold that varies with time following a detection profile; when the captured electrical signals cross the detection threshold, declaring a detected event; determining whether either of these conditions is met: a) the detected event is similar to a prior detected event, or b) whether the detected event is separated from an immediately prior detected event by an interval exceeding an interval threshold; selecting from between first and second variants of a selected detection profile for use in subsequent event detection as follows: if b) is met, then selecting the first variant; if b) is not met and a) is met, then selecting the first variant; and else selecting the second variant; and detecting a subsequent cardiac event using the selected variant of the selected detection profile. 2. The method of claim 1 wherein the selected detection profile is selected by selecting from among a plurality of detection profiles each corresponding to one of: a calculated beat rate range for a patient; and a post-shock state of the device. 3. The method of claim 1 wherein each of the first and second variants are dependent upon an amplitude measure of the prior detected event. 4. The method of claim 3 wherein the first and second variants each include a period in which the detection profile is flat for a fixed period and is calculated as a fixed percentage of the amplitude measure of the prior detected event such that: the first variant has a first fixed period and a first fixed percentage, and the second variant has a second fixed period that is longer than the first fixed period, and a second fixed amplitude that is higher than the first fixed amplitude. 5. An implantable cardiac stimulus device having a plurality of electrodes adapted for implantation in a patient and operational circuitry coupled to the plurality of electrodes which is configured to perform a method comprising: capturing electrical signals from the electrodes; comparing captured electrical signals to a detection threshold that varies with time following a detection profile; when the captured electrical signals cross the detection threshold, declaring a detected event; determining whether either of these conditions is met: a) the detected event is similar to a prior detected event, or b) whether the detected event is separated from an immediately prior detected event by an interval exceeding an interval threshold; selecting from between first and second variants of a selected detection profile for use in subsequent event detection as follows: if b) is met, then selecting the first variant; if b) is not met and a) is met, then selecting the first variant; and else selecting the second variant; and detecting a subsequent cardiac event using the selected variant of the selected detection profile. 6. The device of claim 5 wherein the operational circuitry is configured such that the selected detection profile is selected by selecting from among a plurality of detection profiles each corresponding to one of: a calculated beat rate range for a patient; and a post-shock state of the device. 7. The device of claim 5 wherein the operational circuitry is configured so that each of the first and second variants are dependent upon an amplitude measure of the prior detected event. 8. The device of claim 7 wherein the operational circuitry is configured so that the first and second variants each include a period in which the detection profile is flat for a fixed period and is calculated as a fixed percentage of the amplitude measure of the prior detected event such that: the first variant has a first fixed period and a first fixed percentage, and the second variant has a second fixed period that is longer than the first fixed period, and a second fixed amplitude that is higher than the first fixed amplitude. 9. An implantable cardiac stimulus device having a plurality of electrodes adapted for implantation in a patient and means for analyzing signals captured by the plurality of electrodes, wherein the means for analyzing is configured to perform a method comprising: comparing captured electrical signals from the plurality of electrodes to a detection threshold that varies with time following a detection profile; when the captured electrical signals cross the detection threshold, declaring a detected event; determining whether either of these conditions is met: a) the detected event is similar to a prior detected event, or b) whether the detected event is separated from an immediately prior detected event by an interval exceeding an interval threshold; selecting from between first and second variants of a selected detection profile for use in subsequent event detection as follows: if b) is met, then selecting the first variant; if b) is not met and a) is met, then selecting the first variant; and else selecting the second variant; and detecting a subsequent cardiac event using the selected variant of the selected detection profile. 10. The device of claim 9 wherein means for analyzing is configured such that the selected detection profile is selected by selecting from among a plurality of detection profiles each corresponding to one of: a calculated beat rate range for a patient; and a post-shock state of the device. 11. The device of claim 9 wherein the means for analyzing is configured such that each of the first and second variants are dependent upon an amplitude measure of the prior detected event. 12. The device of claim 11 wherein the means for analyzing is configured such that the first and second variants each include a period in which the detection profile is flat for a fixed period and is calculated as a fixed percentage of the amplitude measure of the prior detected event such that: the first variant has a first fixed period and a first fixed percentage, and the second variant has a second fixed period that is longer than the first fixed period, and a second fixed amplitude that is higher than the first fixed amplitude.