Method and apparatus for delivering chronic and post-ischemia cardiac therapies
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61N-001/368
A61N-001/08
출원번호
UP-0207251
(2005-08-19)
등록번호
US-7668594
(2010-04-09)
발명자
/ 주소
Brockway, Marina
Pastore, Joseph M.
Zhang, Yi
Ricci, Carlos
Shuros, Allan
Salo, Rodney W.
출원인 / 주소
Cardiac Pacemakers, Inc.
대리인 / 주소
Schwegman, Lundberg & Woessner, P.A.
인용정보
피인용 횟수 :
20인용 특허 :
79
초록▼
An implantable cardiac rhythm management (CRM) device delivers a chronic therapy while detecting an ischemic state. When the ischemic state indicates the occurrence of an ischemic event, the implantable CRM device delivers a post-ischemia therapy. The post-ischemia therapy and the chronic therapy ar
An implantable cardiac rhythm management (CRM) device delivers a chronic therapy while detecting an ischemic state. When the ischemic state indicates the occurrence of an ischemic event, the implantable CRM device delivers a post-ischemia therapy. The post-ischemia therapy and the chronic therapy are adjusted using feedback control with the ischemic state and parameters indicative of the effectiveness of the post-ischemic therapy and the effectiveness of the chronic therapy as inputs.
대표청구항▼
What is claimed is: 1. A system for treating a heart with an ischemic region, the system comprising: a sensing circuit to sense one or more physiological signals including one or more ischemia-indicating signals and one or more therapy-monitoring signals; an ischemia detector, coupled to the sensin
What is claimed is: 1. A system for treating a heart with an ischemic region, the system comprising: a sensing circuit to sense one or more physiological signals including one or more ischemia-indicating signals and one or more therapy-monitoring signals; an ischemia detector, coupled to the sensing circuit, to detect an ischemic state indicative of an occurrence of an ischemic event from the one or more ischemia-indicating signals, the ischemic detector including an ischemia locator adapted to locate the ischemic region; a therapy delivery device including a pacing output circuit to deliver a post-ischemia therapy and a chronic pacing therapy each including delivering of pacing pulses; a therapy monitor, coupled to the sensing circuit, to produce one or more therapy-monitoring parameters from the one or more therapy-monitoring signals, the one or more therapy-monitoring parameters each indicative of effectiveness of at least one of the post-ischemia therapy and the chronic pacing therapy; and a controller coupled to the ischemia detector, the therapy delivery device, and the therapy monitor, the controller including: a post-ischemia therapy controller adapted to initiate a delivery of the post-ischemia therapy in response to the occurrence of the ischemic event as indicated by the detected ischemic state and to adjust the delivery of the post-ischemia therapy based on the detected ischemic state, the location of the ischemic region, and at least one post-ischemia therapy-monitoring parameter of the one or more therapy-monitoring parameters, the post-ischemic therapy controller including a post-ischemic pacing controller programmed to adjust one or more regional pacing parameters to provide pre-excitation of the ischemic region to reduce stress and workload of the ischemic region in response to the occurrence of the ischemic event; and a chronic therapy controller adapted to adjust a delivery of the chronic pacing therapy based on the detected ischemic state and at least one chronic therapy-monitoring parameter of the one or more therapy-monitoring parameters, the chronic therapy controller including a chronic pacing controller programmed to adjust one or more global pacing parameters to reduce overall workload on the heart in response to the occurrence of the ischemic event. 2. The system of claim 1, further comprising an implantable housing configured to house the sensing circuit, the ischemia detector, the therapy delivery device, the therapy monitor, and the controller. 3. The system of claim 2, wherein the post-ischemia therapy controller is adapted to cause the post-ischemia therapy to be delivered to the located ischemic region. 4. The system of claim 3, further comprising a plurality of implantable leads coupled to the sensing circuit, the implantable leads each including a plurality of electrodes to sense a plurality of regional electrograms, and wherein the ischemia locator is adapted to locate the ischemic region using the plurality of regional electrograms. 5. The system of claim 3, further comprising a plurality of implantable leads coupled to the sensing circuit, the implantable leads each including a plurality of electrodes to sense a plurality of regional impedance signals, and wherein the ischemia locator is adapted to locate the ischemic region using the plurality of regional impedance signals. 6. The system of claim 3, further comprising a plurality of implantable leads and a plurality of strain sensors incorporated into the implantable leads, and wherein the ischemia locator is adapted to locate the ischemic region using signals sensed by the plurality of strain sensors. 7. The system of claim 3, further comprising a plurality of electrodes incorporated onto the implantable housing to sense a plurality of subcutaneous electrocardiogram (ECG) vectors, and wherein the ischemia locator is adapted to locate the ischemic region by analyzing the plurality of subcutaneous ECG vectors. 8. The system of claim 1, wherein the post-ischemia therapy controller is adapted to initiate the delivery of the post-ischemia therapy by adjusting one or more parameters of the chronic pacing therapy. 9. The system of claim 1, wherein the chronic pacing controller is adapted to control the delivery of the chronic pacing therapy by adjusting one or more pacing parameters of the chronic pacing therapy based on the detected ischemic state and the at least one chronic therapy-monitoring parameter. 10. The system of claim 9, wherein the therapy delivery device further comprises a neural stimulation circuit adapted to deliver a post-ischemia neural stimulation therapy, and the post-ischemia therapy controller comprises a neural stimulation controller adapted to initiate and control the post-ischemia neural stimulation therapy. 11. The system of claim 9, wherein the therapy delivery device further comprises a drug delivery device adapted to deliver a post-ischemia drug therapy, and the post-ischemia therapy controller comprises a drug delivery controller adapted to initiate and control the post-ischemia drug therapy. 12. The system of claim 9, wherein the therapy delivery device further comprises a biological therapy device adapted to deliver a post-ischemia biological therapy including delivery of one or more biological substances, and the post-ischemia therapy controller comprises a biological therapy controller adapted to initiate and control the post-ischemia biological therapy. 13. The system of claim 9, wherein the post-ischemia pacing controller is adapted to control the delivery of the post-ischemia pacing therapy by adjusting one or more pacing parameters of the chronic pacing therapy for a pre-excitation of the ischemic region. 14. The system of claim 1, wherein the chronic pacing controller is programmed to lower a lower rate limit of the one or more global pacing parameters in response to the occurrence of the ischemic event, and the post-ischemia pacing controller is programmed to shorten at least an atrioventricular delay of the one or more regional pacing parameters, the atrioventricular delay associated with the ischemic region. 15. A method for treating a heart with an ischemic region, the method comprising: delivering a chronic pacing therapy; sensing one or more physiological signals; detecting an ischemic state indicative of an occurrence of an ischemic event from one or more ischemia-indicating signals of the one or more physiological signals; locating the ischemic region; initiating a delivery of a post-ischemia therapy including a post-ischemia pacing therapy during which pacing pulses are delivered to the ischemic region in response to the occurrence of the ischemic event as indicated by the detected ischemic state; producing one or more therapy-monitoring parameters from one or more therapy-monitoring signals of the one or more physiological signals, the one or more therapy-monitoring parameters each indicative of effectiveness of at least one of the chronic pacing therapy and the post-ischemia therapy; and adjusting the delivery of the chronic pacing therapy and the delivery of the post-ischemia therapy based on the detected ischemic state, the location of the ischemic region, and the one or more therapy-monitoring parameters, the adjusting including adjusting one or more global pacing parameters of the chronic pacing therapy to reduce overall workload on the heart in response to the occurrence of the ischemic event and adjusting one or more regional pacing parameters of the post-ischemia pacing therapy to provide pre-excitation of the ischemic region to reduce stress and workload of the ischemic region in response to the occurrence of the ischemic event. 16. The method of claim 15, further comprising delivering the post-ischemia therapy to the ischemic region. 17. The method of claim 16, wherein sensing the one or more physiologic signals comprises sensing one or more physiologic signals using a plurality of electrodes, and locating the ischemic region comprises identifying at least one electrode of the plurality of electrodes in or closest to the ischemic region. 18. The method of claim 15, wherein producing the one or more therapy-monitoring parameters comprises: producing at least one chronic therapy-monitoring parameter from at least one chronic therapy-monitoring signal of the one or more therapy-monitoring signals, the at least one chronic therapy-monitoring parameter indicative of effectiveness of the chronic pacing therapy; and producing at least one post-ischemia therapy-monitoring parameter from at least one post-ischemia therapy-monitoring signal of the one or more therapy-monitoring signals, the at least one post-ischemia therapy-monitoring parameter indicative of effectiveness of the post-ischemia therapy, and wherein adjusting the delivery of the chronic pacing therapy and the delivery of the post-ischemia therapy comprises: adjusting the delivery of the chronic pacing therapy based on the detected ischemic state and the at least one chronic therapy-monitoring parameter; and adjusting the delivery of the post-ischemia therapy based on the detected ischemic state and the at least one post-ischemia therapy-monitoring parameter. 19. The method of claim 15, wherein delivering the chronic pacing therapy comprises delivering cardiac pacing pulses to a plurality of regions in the heart. 20. The method of claim 19, wherein initiating the delivery of the post-ischemia therapy comprises initiating a delivery of a neural stimulation therapy. 21. The method of claim 19, wherein initiating the delivery of the post-ischemia therapy comprises initiating a delivery of a drug therapy. 22. The method of claim 19, wherein initiating the delivery of the post-ischemia therapy comprises initiating a delivery of one or more biological substances. 23. The method of claim 19, wherein initiating the delivery of the post-ischemia therapy comprises initiating the delivery of the post-ischemia therapy by adjusting one or more pacing parameters of the chronic pacing therapy, and wherein the chronic pacing therapy comprises delivering the cardiac pacing pulses in an atrial tracking mode. 24. The method of claim 23, wherein adjusting the one or more pacing parameters of the chronic pacing therapy comprises shortening at least one atrioventricular delay associated with the ischemic region. 25. The method of claim 24, wherein adjusting the one or more pacing parameters comprises lowering a lower rate limit in response to the occurrence of the ischemic event.
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