Method and apparatus for cardiac shock therapy
First Claim
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1. An apparatus for delivering defibrillation shock pulses, comprising:
- a sensing channel for detecting electrical events in the heart and producing sensing signals in accordance therewith;
processing circuitry for detecting the occurrence of a tachyarrhythmia from the sensing signals;
pulse output circuitry for delivering shock pulses, the circuitry including a storage capacitor with positive and negative terminals and further including at least three electrode lead terminals with each such electrode lead terminal switchably connected to the positive and negative capacitor terminals;
control circuitry for switching a selected electrode lead terminal to either the positive or negative capacitor terminal to impose a capacitor voltage between electrode lead terminals and deliver a shock pulse, the control circuitry including voltage-controlled metal-oxide semiconductor switches for switching the electrode lead terminals to a capacitor terminal.
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Abstract
An apparatus and method for delivering defibrillation shock therapy employing a multi-terminal pulse output circuit. In such a circuit, at least three electrode lead terminals are switchably connected to the positive and negative terminals of an energy storage capacitor. By serially switching selected electrode lead terminals to the capacitor terminals, a variety of shock pulse waveforms may be generated.
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Citations
12 Claims
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1. An apparatus for delivering defibrillation shock pulses, comprising:
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a sensing channel for detecting electrical events in the heart and producing sensing signals in accordance therewith;
processing circuitry for detecting the occurrence of a tachyarrhythmia from the sensing signals;
pulse output circuitry for delivering shock pulses, the circuitry including a storage capacitor with positive and negative terminals and further including at least three electrode lead terminals with each such electrode lead terminal switchably connected to the positive and negative capacitor terminals;
control circuitry for switching a selected electrode lead terminal to either the positive or negative capacitor terminal to impose a capacitor voltage between electrode lead terminals and deliver a shock pulse, the control circuitry including voltage-controlled metal-oxide semiconductor switches for switching the electrode lead terminals to a capacitor terminal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A shock pulse output circuit for use in an implantable defibrillator, comprising:
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a storage capacitor with positive and negative terminals;
at least three electrode lead terminals with each such electrode lead terminal switchably connected to the positive and negative capacitor terminals; and
,voltage-controlled switches connecting each electrode lead terminal to the positive and negative capacitor terminals such that switching of electrode lead terminals to different capacitor terminals imposes a capacitor voltage between the electrode lead terminals and delivers a shock pulse, wherein the voltage-controlled switches for switching the electrode lead terminals to a capacitor terminal are semiconductor switches.
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10. A method for delivering a defibrillation shock pulse, comprising:
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providing a storage capacitor with positive and negative and at least three electrode lead terminals with each such electrode lead terminal switchably connected to the positive and negative capacitor terminals;
serially switching selected electrode lead terminals to either the positive or negative capacitor terminal in order to impose a capacitor voltage between electrode lead terminals and deliver a shock pulse which varies spatially as well as temporally. - View Dependent Claims (11, 12)
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Specification