Cardioversion energy reduction system
First Claim
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1. A method of effecting atrial cardioversion, comprising:
- implanting cardioversion electrodes in a patient'"'"'s body;
monitoring the patient'"'"'s cardiac cycle;
detecting an atrial tachyarrhythmia from the monitored cardiac cycle;
monitoring the patient'"'"'s respiratory cycle;
detecting an optimum point or phase of the respiratory cycle affecting the volume of the patient'"'"'s lungs and the impedance between the cardioversion electrodes;
defining acceptable times for delivery of cardioversion therapy relative to ventricular depolarizations;
detecting occurrences of ventricular depolarizations; and
delivering the cardioversion therapy at an acceptable time relative to ventricular depolarizations within the determined optimum point or phase of the respiratory cycle.
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Abstract
In an implantable pacemaker/cardioverter/defibrillator, a system for correlating the delivery of a cardioversion therapy to an optimum point or phase of the respiratory cycle of the patient to effect delivery of the therapy when the impedance between the cardioversion electrodes is minimized. In a first application for use with cardioversion electrodes located substantially in contact with the heart chamber, the optimum point or phase is at the end of inspiration. In a second application for use with at least one cardioversion electrode located remotely from the heart chamber, the optimum point or phase is at end expiration or beginning of inspiration. The cardioversion therapy is delivered in synchrony with a ventricular sense event, if present. If the optimum point or phase of the respiratory cycle cannot be determined during a therapy time, a pre-shock may be delivered to elicit a respiration cycle through a stimulated contraction of the diaphragm.
209 Citations
24 Claims
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1. A method of effecting atrial cardioversion, comprising:
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implanting cardioversion electrodes in a patient'"'"'s body; monitoring the patient'"'"'s cardiac cycle; detecting an atrial tachyarrhythmia from the monitored cardiac cycle; monitoring the patient'"'"'s respiratory cycle; detecting an optimum point or phase of the respiratory cycle affecting the volume of the patient'"'"'s lungs and the impedance between the cardioversion electrodes; defining acceptable times for delivery of cardioversion therapy relative to ventricular depolarizations; detecting occurrences of ventricular depolarizations; and delivering the cardioversion therapy at an acceptable time relative to ventricular depolarizations within the determined optimum point or phase of the respiratory cycle. - View Dependent Claims (2, 3, 4)
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5. A method of effecting atrial cardioversion between cardioversion electrodes substantially in contact with a patient'"'"'s atria at a minimal energy comprising the steps of:
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monitoring the cardiac cycle; detecting an atrial tachyarrhythmia from the monitored cardiac cycle; monitoring the respiratory cycle of the patient; detecting a point or phase of the respiratory cycle during which atrial volume is minimized; and delivering a cardioversion therapy across the cardioversion electrodes in contact with the atria timed to substantially coincide with the detected point or phase of the respiratory cycle. - View Dependent Claims (6, 7)
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8. A method of effecting cardioversion of a heart chamber through the application of a cardioversion shock therapy to cardioversion electrodes implanted in a patient'"'"'s body comprising the steps of:
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monitoring the patient'"'"'s cardiac cycle; detecting a tachyarrhythmia of the heart chamber from the monitored cardiac cycle; monitoring the patient'"'"'s respiratory cycle; timing a therapy time interval for monitoring of the respiratory cycle following detection of the tachyarrhythmia; determining an optimum point or phase of the respiratory cycle affecting the volume of the patient'"'"'s lungs and the impedance between the cardioversion electrodes within the therapy time interval; delivering a cardioversion therapy to the cardioversion electrodes timed to substantially fall within the determined optimum point or phase of the respiratory cycle during the therapy time interval; and delivering a cardioversion therapy to the patient'"'"'s heart chamber in response to a failure to detect said optimum point or phase of the respiratory cycle.
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9. Apparatus for effecting atrial cardioversion through the application of a cardioversion therapy to cardioversion electrodes implanted in a patient'"'"'s body comprising:
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means for defining an optimal point or phase of the patients respiratory cycle; means for monitoring the patient'"'"'s cardiac cycle; means for detecting an atrial tachyarrhythmia from the monitored cardiac cycle; means for monitoring the patient'"'"'s respiratory cycle; means for detecting the optimum point or phase of the respiratory cycle; means for detecting ventricular depolarizations; means for defining acceptable times for delivery of the cardioversion therapy relative to ventricular depolarizations; and means for delivering the cardioversion therapy at an acceptable time relative to ventricular depolarizations within the detected optimum point or phase of the respiratory cycle. - View Dependent Claims (10, 11, 12)
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13. A method of effecting cardioversion of a heart chamber, comprising:
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implanting cardioversion electrodes in a patient'"'"'s body; monitoring the patient'"'"'s cardiac cycle; detecting a tacharrhythmia of the heart chamber from the monitored cardiac cycle; monitoring the patient'"'"'s respiratory cycle; detecting an optimum point or phase of the respiratory cycle affecting the volume of the patient'"'"'s lungs and the impedance between the cardioversion electrodes; and delivering a cardioversion therapy to the cardioversion electrodes timed to substantially fall within the detected optimum point or phase of the respiratory cycle; and
wherein the step of detecting a point or phase of the respiratory cycle comprises detecting the end of inspiration. - View Dependent Claims (14, 15)
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16. A method of effecting cardioversion of a heart chamber through the application of a cardioversion shock therapy to cardioversion electrodes implanted in a patient'"'"'s body comprising the steps of:
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monitoring the patient'"'"'s cardiac cycle; detecting a tachyarrhythmia of the heart chamber from the monitored cardiac cycle; monitoring the patient'"'"'s respiratory cycle; timing a therapy time interval for monitoring of the respiratory cycle following detection of the tachyarrhythmia; determining an optimum point or phase of the respiratory cycle affecting the volume of the patient'"'"'s lungs and the impedance between the cardioversion electrodes within the therapy time interval; delivering a cardioversion therapy to the cardioversion electrodes timed to substantially fall within the determined optimum point or phase of the respiratory cycle during the therapy time interval; and providing a pre-shock to a cardioversion electrode in response to a failure to detect said optimum point or phase of the respiratory cycle within the therapy time interval for eliciting a respiration cycle through a stimulated contraction of the diaphragm.
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17. Apparatus for effecting atrial cardioversion through the application of a cardioversion therapy to cardioversion electrodes implanted in a patient'"'"'s body comprising:
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means for defining an optimal point or phase of the patients respiratory cycle; means for monitoring the patient'"'"'s cardiac cycle; means for detecting an atrial tachyarrhythmia from the monitored cardiac cycle; means for monitoring patient'"'"'s respiratory cycle; means for detecting the optimum point or phase of the respiratory cycle; and means for delivering a cardioversion therapy to the cardioversion electrodes timed to substantially fall within the detected optimum point or phase of the respiratory cycle; and wherein the means of detecting a point or phase of the respiratory cycle comprises means for detecting the end of inspiration. - View Dependent Claims (18, 19)
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20. Apparatus for effecting atrial cardioversion between cardioversion electrodes substantially in contact with a patient'"'"'s atria at a minimal energy comprising:
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means for defining an optimal point or phase of the patient'"'"'s respiratory cycle; means for monitoring the patient'"'"'s cardiac cycle; means for detecting an atrial tachyarrhythmia from the monitored cardiac cycle; means for monitoring the respiratory cycle of the patient; means for detecting a point or phase of the respiratory cycle; means for delivering a cardioversion therapy across the cardioversion electrodes in contact with the atria timed to substantially coincide with the detected point or phase of the respiratory cycle; and wherein the means of detecting a point or phase of the respiratory cycle further comprises means for determining the end of inspiration. - View Dependent Claims (21)
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22. Apparatus for effecting cardioversion of a heart chamber through the application of a cardioversion shock therapy to cardioversion electrodes implanted in the patient'"'"'s body comprising:
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means for defining an optimal point or phase of the patient'"'"'s respiratory cycle; means for monitoring the patient'"'"'s cardiac cycle; means for detecting a tachyarrhythmia of the heart chamber from the monitored cardiac cycle; means for monitoring the patient'"'"'s respiratory cycle; means for timing a therapy time interval for monitoring of the respiratory cycle following detection of the tachyarrhythmia; means for detecting an optimum point or phase of the respiratory cycle affecting the volume of the patient'"'"'s lungs and the impedance between the cardioversion electrodes within the therapy time interval; and means for delivering a cardioversion therapy to the cardioversion electrodes timed to substantially fall within the detected optimum point or phase of the respiratory cycle during the therapy time interval; and
wherein the deliver means for further comprises means for providing a back-up cardioversion therapy to the patient'"'"'s heart chamber in response to a failure to determine said optimum point or phase of the respiratory cycle within the therapy time interval. - View Dependent Claims (23)
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24. Apparatus for effecting cardioversion of a heart chamber through the application of a cardioversion shock therapy to cardioversion electrodes implanted in the patient'"'"'s body comprising:
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means for defining an optimal point or phase of the patient'"'"'s respiratory cycle; means for monitoring the patient'"'"'s cardiac cycle; means for detecting a tachyarrhythmia of the heart chamber from the monitored cardiac cycle; means for monitoring the patient'"'"'s respiratory cycle; means for timing a therapy time interval for monitoring of the respiratory cycle following detection of the tachyarrhythmia; means for detecting an optimum point or phase of the respiratory cycle affecting the volume of the patient'"'"'s lungs and the impedance between the cardioversion electrodes within the therapy time interval; means for delivering a cardioversion therapy to the cardioversion electrodes timed to substantially fall within the detected optimum point or phase of the respiratory cycle during the therapy time interval; and means for providing a pre-shock to a cardioversion electrode in response to a failure to determine said optimum point or phase of the respiratory cycle within the therapy time interval for eliciting a respiration cycle through a stimulated contraction of the diaphragm.
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Specification
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Current AssigneeMedtronic Incorporated (Medtronic Plc)
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Original AssigneeMedtronic Incorporated (Medtronic Plc)
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InventorsMin, Xiaoyi, Wang, Li, Mehra, Rahul, DeGroot, Paul J., Olson, Walter H., Hill, Michael R. S., Mongeon, Luc R.
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Primary Examiner(s)Jastrzab, Jeffrey R.
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Application NumberUS08/846,747Time in Patent Office566 DaysField of Search607/4, 607/5, 607/6, 607/8, 607/14, 607/17US Class Current607/6CPC Class CodesA61N 1/3925 Monitoring; ProtectingA61N 1/3956 Implantable devices for app...A61N 1/3987 characterised by the timing...
