Method and apparatus for delivering defibrillation therapy through a sensing electrode
First Claim
1. A method for delivering high voltage therapy to a patient'"'"'s heart using a defibrillator connected to one or more leads having at least a first defibrillation electrode coupled to the defibrillator via a first high voltage conductor, a first sense electrode coupled to the defibrillator via a first sense conductor, and a second sense electrode coupled to the defibrillator via a second sense conductor, the method comprising the steps of:
- (a) sensing electrical signals in a true bipolar sensing mode between the first and second sense electrodes;
(b) when required, delivering a first high voltage therapy between at least the first defibrillation electrode and a second defibrillation electrode;
(c) determining whether said first high voltage therapy was successful;
(d) if said first high voltage therapy was not successful then electrically connecting the first sense conductor to the first high voltage conductor; and
(e) delivering a second high voltage therapy between at least the first sense electrode/first defibrillation electrode and the second defibrillation electrode.
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Accused Products
Abstract
A pulse generator circuit and method for using a defibrillation lead positioned close to the right ventricular apex to optimize energy delivery and sensing. This method includes operating a defibrillator-pacemaker system in a true bipolar sensing mode as long as high voltage therapy is not required. When required, the defibrillator-pacemaker system delivers a first high voltage therapy via an RV defibrillation electrode, and, using true bipolar sensing, determines whether the first high voltage therapy was successful. If the first high voltage therapy is deemed to be successful, then true bipolar sensing is resumed. Otherwise, the defibrillator-pacemaker system causes a ring electrode to be electrically connected to the RV defibrillation electrode, delivers a second high voltage therapy, and, using integrated bipolar sensing determines whether the second high voltage therapy was successful. In this way, because no new circuit elements are added within the lead, the lead size and complexity are not increased.
97 Citations
17 Claims
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1. A method for delivering high voltage therapy to a patient'"'"'s heart using a defibrillator connected to one or more leads having at least a first defibrillation electrode coupled to the defibrillator via a first high voltage conductor, a first sense electrode coupled to the defibrillator via a first sense conductor, and a second sense electrode coupled to the defibrillator via a second sense conductor, the method comprising the steps of:
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(a) sensing electrical signals in a true bipolar sensing mode between the first and second sense electrodes; (b) when required, delivering a first high voltage therapy between at least the first defibrillation electrode and a second defibrillation electrode; (c) determining whether said first high voltage therapy was successful; (d) if said first high voltage therapy was not successful then electrically connecting the first sense conductor to the first high voltage conductor; and (e) delivering a second high voltage therapy between at least the first sense electrode/first defibrillation electrode and the second defibrillation electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for delivering high voltage therapy using a defibrillator connected to one or more leads having at least a first defibrillation electrode coupled to the defibrillator via a first high voltage conductor, a first sense electrode coupled to the defibrillator via a first sense conductor, and a second sense electrode coupled to the defibrillator via a second sense conductor, the method comprising the steps of:
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(a) sensing cardiac electrical signals in a true bipolar sensing mode between the first and second sense electrodes; (b) if a first high voltage therapy is required then causing the first sense conductor to be electrically coupled to the first high voltage conductor; and (c) delivering a high voltage therapy between at least the first sense electrode/first defibrillation electrode and a second defibrillation electrode. - View Dependent Claims (9, 10)
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11. In a pulse generator system for sensing electrical signals from a patient'"'"'s heart and for delivering defibrillating shocks to the patient'"'"'s heart, the system including a lead having a ring electrode and a tip electrode for sensing and a first defibrillation electrode, a pulse generator comprising:
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a sensing circuit electrically connected to the tip electrode and ring electrode; a defibrillation circuit electrically connected to the first defibrillation electrode; a second defibrillation electrode electrically connected to the defibrillation circuit; a normally open switch connected between said ring electrode and said defibrillation electrode; and a processor for controlling said switch whereby said switch may be closed under control of said processor at the time a defibrillation shock is delivered to said patient'"'"'s heart. - View Dependent Claims (12, 13)
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14. A pulse generator system for sensing electrical signals from a patient'"'"'s heart and for delivering defibrillating shocks to the patient'"'"'s heart, the system including a lead having a tip electrode for sensing and two defibrillation electrode, at least one of said electrode on said lead, a pulse generator comprising:
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a sensing circuit electrically connected to the tip electrode and the first defibrillation electrode; a defibrillation circuit electrically connected to the first defibrillation electrode; a second defibrillation electrode electrically connected to the defibrillation circuit; a normally open switch connected between said first defibrillation electrode and said tip electrode; and a processor for controlling said switch. - View Dependent Claims (15)
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16. A pulse generator for connection to an implantable lead in order to detect and manage cardiac arrhythmias, comprising:
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a sensing circuit; a defibrillation circuit; a lead switching matrix having first and second sense conductors connected to said sensing circuit, at least first and second high voltage conductors connected to said defibrillation circuit, and at least one normally open switch between said high voltage conductor and said first sense conductor; and a controller for controlling operation of said switch. - View Dependent Claims (17)
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Specification