Methods and devices for identifying overdetection of cardiac signals
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-005/04
A61B-005/02
A61N-001/00
출원번호
US-0607256
(2012-09-07)
등록번호
US-8437838
(2013-05-07)
발명자
/ 주소
Warren, Jay A.
Allavatam, Venugopal
Sanghera, Rick
Palreddy, Surekha
출원인 / 주소
Cameron Health, Inc.
대리인 / 주소
Schwegman Lundberg & Woessner, P.A.
인용정보
피인용 횟수 :
11인용 특허 :
0
초록▼
Methods, systems, and devices for signal analysis in an implanted cardiac monitoring and treatment device such as an implantable cardioverter defibrillator. In illustrative examples, sensed data including detected events is analyzed to identify likely overdetection of cardiac events. In some illustr
Methods, systems, and devices for signal analysis in an implanted cardiac monitoring and treatment device such as an implantable cardioverter defibrillator. In illustrative examples, sensed data including detected events is analyzed to identify likely overdetection of cardiac events. In some illustrative examples, when overdetection is identified, data may be modified to correct for overdetection, to reduce the impact of overdetection, or to ignore overdetected data.
대표청구항▼
1. A method of operating an implantable cardiac system (ICS), the ICS comprising operational circuitry coupled to a plurality of implantable electrodes for sensing electric signals, the method comprising: sensing signals from the electrodes;detecting events in the sensed signals;applying event and f
1. A method of operating an implantable cardiac system (ICS), the ICS comprising operational circuitry coupled to a plurality of implantable electrodes for sensing electric signals, the method comprising: sensing signals from the electrodes;detecting events in the sensed signals;applying event and feature/proximity analysis rules to the detected events to identify overdetection of cardiac signals;performing ameliorative action in response to identified overdetection; anddetermining whether therapy is likely needed;wherein the event and feature/proximity analysis rules are applied across three detected events ([n−2], [n−1], [n]) as follows:identifying a late peak in detection [n−2], identifying an early peak and a late peak in detection [n−1] and identifying a detection time for event [n];measuring a first interval from the late peak of detection [n−1] to the detection time of event [n] and comparing the first interval to a t1 threshold;measuring a second interval from the late peak of detection [n−2] to the early peak of detection [n−1] and comparing the second interval to a t2 threshold; andthe method further comprises, when the first interval is less than the t1 threshold and the second interval is less than the t2 threshold, identifying detection [n−1] as an overdetected event. 2. The method of claim 1 wherein: the operational circuitry is contained in a canister configured for implantation in the torso of a patient;the canister serves as one of the electrodes;the ICS further comprises a lead coupled to the canister, the lead including at least two electrodes;the operational circuitry is configured to select a default sensing pair from the electrodes on the canister and the lead; andthe ameliorative action comprises performing a vector selection process to determine whether to switch to a different default sensing pair. 3. The method of claim 1 wherein the operational circuitry comprises input circuitry for receiving and amplifying signals from the electrodes and the ameliorative action comprises modifying a gain setting of the input circuitry. 4. The method of claim 1 wherein the operational circuitry comprises input circuitry for receiving and filtering signals from the electrodes and the ameliorative action comprises modifying a filtering setting of the input circuitry. 5. A method of operating an implantable cardiac system (ICS), the ICS comprising operational circuitry coupled to a plurality of implantable electrodes for sensing electric signals, the method comprising: sensing signals from the electrodes;detecting events in the sensed signals;applying event and feature/proximity analysis rules to the detected events to identify overdetection of cardiac signals;performing ameliorative action in response to identified overdetection; anddetermining whether therapy is likely needed;wherein the event and feature/proximity analysis rules are applied across three detected events ([n−2], [n−1], [n]) as follows:identifying an early peak and a late peak in detection [n−2], identifying an early peak and a late peak in detection [n−1] and identifying a detection time for event [n];measuring a first interval from the late peak of detection [n−1] to the detection time of event [n] and comparing the first interval to a t1 threshold;comparing the early peak of the [n−2] detection to the early peak of the [n−1] detection and determining whether the two early peaks alternate polarities; andthe method further comprises, when the first interval is less than the t1 threshold and the early peaks of the [n−2] and [n−1] alternate polarities, identifying detection [n−1] as an overdetected event. 6. The method of claim 5 wherein: the operational circuitry is contained in a canister configured for implantation in the torso of a patient;the canister serves as one of the electrodes;the ICS further comprises a lead coupled to the canister, the lead including at least two electrodes;the operational circuitry is configured to select a default sensing pair from the electrodes on the canister and the lead; andthe ameliorative action comprises performing a vector selection process to determine whether to switch to a different default sensing pair. 7. The method of claim 5 wherein the operational circuitry comprises input circuitry for receiving and amplifying signals from the electrodes and the ameliorative action comprises modifying a gain setting of the input circuitry. 8. The method of claim 5 wherein the operational circuitry comprises input circuitry for receiving and filtering signals from the electrodes and the ameliorative action comprises modifying a filtering setting of the input circuitry. 9. A method of operating an implantable cardiac system (ICS), the ICS comprising operational circuitry coupled to a plurality of implantable electrodes for sensing electric signals, the method comprising: sensing signals from the electrodes;detecting events in the sensed signals;applying event and feature/proximity analysis rules to the detected events to identify overdetection of cardiac signals;performing ameliorative action in response to identified overdetection; anddetermining whether therapy is likely needed;wherein the event and feature/proximity analysis rules are applied across three detected events ([n−2], [n−1], [n]) as follows:identifying an early peak and a late peak in detection [n−2], identifying an early peak and a late peak in detection [n−1] and identifying a detection time for event [n];measuring a first interval from the late peak of detection [n−1] to the detection time of event [n] and comparing the first interval to a t1 threshold;measuring a second interval from the late peak of detection [n−2] to the early peak of detection [n−1] and comparing the second interval to a t2 threshold;comparing the early peak of the [n−2] detection to the early peak of the [n−1] detection and determining whether the two early peaks alternate polarities; andthe method further comprises:a) when first interval is less than the t1 threshold and the early peaks of the [n−2] and [n−1] alternate polarities, identifying detection [n−1] as an overdetected event; andb) when first interval is less than the t1 threshold and the second interval is less than the t2 threshold, identifying detection [n−1] as an overdetected event. 10. The method of claim 9 wherein: the operational circuitry is contained in a canister configured for implantation in the torso of a patient;the canister serves as one of the electrodes;the ICS further comprises a lead coupled to the canister, the lead including at least two electrodes;the operational circuitry is configured to select a default sensing pair from the electrodes on the canister and the lead; andthe ameliorative action comprises performing a vector selection process to determine whether to switch to a different default sensing pair. 11. The method of claim 9 wherein the operational circuitry comprises input circuitry for receiving and amplifying signals from the electrodes and the ameliorative action comprises modifying a gain setting of the input circuitry. 12. The method of claim 9 wherein the operational circuitry comprises input circuitry for receiving and filtering signals from the electrodes and the ameliorative action comprises modifying a filtering setting of the input circuitry.
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