Method and apparatus for verifying discriminating of tachycardia events in a medical device having dual sensing vectors
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-005/0464
A61N-001/39
A61B-005/04
A61B-005/0456
A61B-005/046
A61B-005/00
A61B-005/0452
A61B-005/0468
A61N-001/362
A61N-001/368
A61N-001/37
출원번호
US-0339156
(2014-07-23)
등록번호
US-9610025
(2017-04-04)
발명자
/ 주소
Zhang, Xusheng
출원인 / 주소
Medtronic, Inc.
인용정보
피인용 횟수 :
3인용 특허 :
151
초록▼
A method and medical device for detecting a cardiac event that includes sensing cardiac signals from a plurality of electrodes, sensing a plurality of beats in response to the sensed cardiac signals, identifying each beat of the plurality of beats as one of a normal beat and a not normal beat, deter
A method and medical device for detecting a cardiac event that includes sensing cardiac signals from a plurality of electrodes, sensing a plurality of beats in response to the sensed cardiac signals, identifying each beat of the plurality of beats as one of a normal beat and a not normal beat, determining at least one of whether a number of beats identified as a normal beat is greater than a normal beat threshold, whether an RR interval associated with the beats identified as being a normal beat is less than a threshold interval, and whether RR intervals associated with the beats identified as being normal beats are within an RR interval range, and identifying the cardiac event as being one of shockable and not shockable in response to the determining.
대표청구항▼
1. A method of detecting a cardiac event in a medical device, comprising: sensing cardiac signals from a plurality of electrodes;sensing a plurality of beats in response to the sensed cardiac signals;identifying each beat of the plurality of beats as one of a normal beat and a not normal beat;determ
1. A method of detecting a cardiac event in a medical device, comprising: sensing cardiac signals from a plurality of electrodes;sensing a plurality of beats in response to the sensed cardiac signals;identifying each beat of the plurality of beats as one of a normal beat and a not normal beat;determining whether a number of beats identified as a normal beat is greater than a normal beat threshold;determining, in response to the number of beats identified as a normal beat being greater than the normal beat threshold, whether an RR interval associated with the beats identified as being a normal beat is less than a threshold interval;determining whether RR intervals associated with the beats identified as being normal beats are within an RR interval range; andidentifying the cardiac event as being one of shockable and not shockable in response to the determining. 2. The method of claim 1, wherein the plurality of electrodes form a first sensing vector and a second sensing vector, the method further comprising: performing a gross morphology analysis of a signal sensed along the first sensing vector during a predetermined sensing window and a signal sensed along the second sensing vector during the predetermined sensing window; andidentifying the cardiac event as being one of shockable and not shockable in response to the performed gross morphology analysis. 3. The method of claim 2, further comprising determining whether to deliver a therapy to treat the cardiac event in response to both the identifying the cardiac event as being one of shockable and not shockable in response to the determining and the identifying the cardiac event as being one of shockable and not shockable in response to the performed gross morphology analysis. 4. The method of claim 1, wherein determining whether RR intervals associated with the beats identified as being normal beats are within an RR interval range comprises: comparing a duration of a first RR interval of the RR intervals associated with the beats identified as being normal beats to durations of RR intervals of the RR intervals associated with the beats identified as being normal beats other than the first RR interval to generate interval differences;determining whether the interval differences are less than a relative interval difference threshold; anddetermining the RR intervals associated with the beats identified as being normal beats are within the RR interval range in response to all of the interval differences being less than the relative interval difference threshold. 5. The method of claim 1, further comprising: determining a distribution of the beats identified as being normal beats;comparing the determined distribution of the beats identified as being normal beats to a distribution threshold; andfurther identifying the cardiac event as being one of shockable and not shockable in response to the comparing. 6. The method of claim 1, further comprising: sensing the cardiac signals over consecutive predetermined sensing windows, the consecutive predetermined sensing windows comprising a first sensing window and a second sensing window occurring subsequent to the first sensing window;determining a distribution of the beats identified as normal beats occurring within the first sensing window and the second sensing window; andfurther identifying the cardiac event as being one of shockable and not shockable in response to the determined distribution. 7. The method of claim 6, wherein determining a distribution of the beats identified as normal beats occurring within the first sensing window and the second sensing window comprises determining whether one or more of the beats identified as being normal beats occur within the second sensing window. 8. The method of claim 1, further comprising: comparing a number of beats identified as being normal beats to a number identified as being not normal to a predetermined threshold; and further identifying the cardiac event as being one of shockable and not shockable in response to the comparing. 9. The method of claim 8, wherein the predetermined threshold comprises a proportion of the plurality of beats. 10. A medical device for detecting a cardiac event, comprising: a plurality of electrodes sensing cardiac signals having a plurality of beats; anda processor configured to identify each beat of the plurality of beats as one of a normal beat and a not normal beat, determine whether a number of beats identified as a normal beat is greater than a normal beat threshold, determine, in response to the number of beats identified as a normal beat being greater than the normal beat threshold, whether an RR interval associated with the beats identified as being a normal beat is less than a threshold interval, determine whether RR intervals associated with the beats identified as being normal beats are within an RR interval range, and identify the cardiac event as being one of shockable and not shockable in response to the determining. 11. The medical device of claim 10, wherein the plurality of electrodes form a first sensing vector and a second sensing vector, the processor further configured to perform a gross morphology analysis of a signal sensed along the first sensing vector during a predetermined sensing window and a signal sensed along the second sensing vector during the predetermined sensing window, and identify the cardiac event as being one of shockable and not shockable in response to the performed gross morphology analysis. 12. The medical device of claim 11, wherein the processor is further configured to determine whether to deliver a therapy to treat the cardiac event in response to both the identifying the cardiac event as being one of shockable and not shockable in response to the determining and the identifying the cardiac event as being one of shockable and not shockable in response to the performed gross morphology analysis. 13. The medical device of claim 10, wherein determining whether RR intervals associated with the beats identified as being normal beats are within an RR interval range comprises: comparing a duration of a first RR interval of the RR intervals associated with the beats identified as being normal beats to durations of RR intervals of the RR intervals associated with the beats identified as being normal beats other than the first RR interval to generate interval differences;determining whether the interval differences are less than a relative interval difference threshold; anddetermining the RR intervals associated with the beats identified as being normal beats are within the RR interval range in response to all of the interval differences being less than the relative interval difference threshold. 14. The medical device of claim 10, wherein the processor is further configured to determine a distribution of the beats identified as being normal beats, compare the determined distribution of the beats identified as being normal beats to a distribution threshold, and further identify the cardiac event as being one of shockable and not shockable in response to the comparing. 15. The medical device of claim 10, wherein the processor is further configured to sense the cardiac signals over consecutive predetermined sensing windows, the consecutive predetermined sensing windows comprising a first sensing window and a second sensing window occurring subsequent to the first sensing window, determine a distribution of the beats identified as normal beats occurring within the first sensing window and the second sensing window, and further identify the cardiac event as being one of shockable and not shockable in response to the determined distribution. 16. The medical device of claim 15, wherein determining a distribution of the beats identified as normal beats occurring within the first sensing window and the second sensing window comprises determining whether one or more of the beats identified as being normal beats occur within the second sensing window. 17. The medical device of claim 10, wherein the processor is further configured to compare a number of beats identified as being normal beats to a number identified as being not normal to a predetermined threshold, and further identify the cardiac event as being one of shockable and not shockable in response to the comparing. 18. The medical device of claim 17, wherein the predetermined threshold comprises a proportion of the plurality of beats. 19. A method of detecting a cardiac event in a medical device, comprising: sensing cardiac signals from a plurality of electrodes;sensing a plurality of beats in response to the sensed cardiac signals;identifying each beat of the plurality of beats as one of a normal beat and a not normal beat;determining at least one of whether a number of beats identified as a normal beat is greater than a normal beat threshold, whether an RR interval associated with the beats identified as being a normal beat is less than a threshold interval, and whether RR intervals associated with the beats identified as being normal beats are within an RR interval range; andidentifying the cardiac event as being one of shockable and not shockable in response to the determining, wherein determining whether RR intervals associated with the beats identified as being normal beats are within an RR interval range comprises:comparing a duration of a first RR interval of the RR intervals associated with the beats identified as being normal beats to durations of RR intervals of the RR intervals associated with the beats identified as being normal beats other than the first RR interval to generate interval differences;determining whether the interval differences are less than a relative interval difference threshold; anddetermining the RR intervals associated with the beats identified as being normal beats are within the RR interval range in response to all of the interval differences being less than the relative interval difference threshold, and wherein determining whether the interval differences are less than a relative interval difference threshold comprises determining whether the durations of RR intervals of the RR intervals associated with the beats identified as being normal beats other than the first RR interval are within one sixteenth of the duration of the first RR interval. 20. A medical device for detecting a cardiac event, comprising: a plurality of electrodes sensing cardiac signals having a plurality of beats; anda processor configured to identify each beat of the plurality of beats as one of a normal beat and a not normal beat, determine at least one of whether a number of beats identified as a normal beat is greater than a normal beat threshold, whether an RR interval associated with the beats identified as being a normal beat is less than a threshold interval, and whether RR intervals associated with the beats identified as being normal beats are within an RR interval range, and identify the cardiac event as being one of shockable and not shockable in response to the determining, wherein determining whether RR intervals associated with the beats identified as being normal beats are within an RR interval range comprises:comparing a duration of a first RR interval of the RR intervals associated with the beats identified as being normal beats to durations of RR intervals of the RR intervals associated with the beats identified as being normal beats other than the first RR interval to generate interval differences;determining whether the interval differences are less than a relative interval difference threshold; anddetermining the RR intervals associated with the beats identified as being normal beats are within the RR interval range in response to all of the interval differences being less than the relative interval difference threshold, and wherein determining whether the interval differences are less than a relative interval difference threshold comprises determining whether the durations of RR intervals of the RR intervals associated with the beats identified as being normal beats other than the first RR interval are within one sixteenth of the duration of the first RR interval. 21. A non-transitory, computer-readable storage medium storing instructions for causing a processor included in a medical device to perform a method for determining a cardiac event, the method comprising: sensing cardiac signals from a plurality of electrodes;sensing a plurality of beats in response to the sensed cardiac signals;identifying each beat of the plurality of beats as one of a normal beat and a not normal beat;determining whether a number of beats identified as a normal beat is greater than a normal beat threshold;determine, in response to the number of beats identified as a normal beat being greater than the normal beat threshold, whether an RR interval associated with the beats identified as being a normal beat is less than a threshold interval;determine whether RR intervals associated with the beats identified as being normal beats are within an RR interval range; andidentify the cardiac event as being one of shockable and not shockable in response to the determining.
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