Apparatus for generating biphasic waveforms in an implantable defibrillator
First Claim
1. An improved implantable defibrillator system for producing a biphasic capacitive-discharge countershock to be delivered to a human patient, the implantable defibrillator system including at least two implantable electrodes and a self-contained human implantable housing containing a waveform-generating capacitor means for storing an electrical charge, means for charging the waveform-generating capacitor means, means for sensing of a myocardial dysrhythmia in the human patient and means for selectively discharging the electrical charge in the waveform-generating capacitor means as a countershock to be delivered through the at least two implantable electrodes in response to the means for sensing of the myocardial dysrhythmia in the human patient, the improvement comprising:
- the waveform-generating capacitor means including at least two disparate capacitor systems, a first capacitor system for storing a first electrical charge used to generate a first phase of the biphasic countershock, and a second capacitor system for storing a second electrical charge used to generate a second phase of the biphasic countershock, the second electrical charge being stored separate and distinct from the first electrical charge, being of less energy than the first electrical charge, and being discharged at a discharge time constant that is less than a discharge time constant for the discharge of the first electrical charge.
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Abstract
A method and apparatus for generating biphasic waveforms for an implantable defibrillator uses two disparate capacitor systems. A first phase of the biphasic waveform is generated from the charge stored in a first capacitor system, and a second phase of less energy than the first phase is generated from the charge stored in a second capacitor system. By using a second capacitor system for the second phase of the biphasic waveform that stores less energy than the first capacitor system, the overall size and power requirements of the implantable device can be reduced. In a preferred embodiment, the disparate capacitor systems have different effective capacitances, with the second capacitor system preferably having a higher effective capacitance, but a lower charging voltage, than the first capacitor system.
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Citations
12 Claims
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1. An improved implantable defibrillator system for producing a biphasic capacitive-discharge countershock to be delivered to a human patient, the implantable defibrillator system including at least two implantable electrodes and a self-contained human implantable housing containing a waveform-generating capacitor means for storing an electrical charge, means for charging the waveform-generating capacitor means, means for sensing of a myocardial dysrhythmia in the human patient and means for selectively discharging the electrical charge in the waveform-generating capacitor means as a countershock to be delivered through the at least two implantable electrodes in response to the means for sensing of the myocardial dysrhythmia in the human patient, the improvement comprising:
the waveform-generating capacitor means including at least two disparate capacitor systems, a first capacitor system for storing a first electrical charge used to generate a first phase of the biphasic countershock, and a second capacitor system for storing a second electrical charge used to generate a second phase of the biphasic countershock, the second electrical charge being stored separate and distinct from the first electrical charge, being of less energy than the first electrical charge, and being discharged at a discharge time constant that is less than a discharge time constant for the discharge of the first electrical charge. - View Dependent Claims (2, 3, 4)
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5. An implantable defibrillator apparatus for treating myocardial arrhythmias in a human patient by delivering a biphasic countershock comprising:
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at least two implantable discharge electrodes; sensing means for sensing a myocardial arrhythmia in the human patient; a first capacitor means for storing a first electrical charge; a second capacitor means for storing a second electrical charge that is separate from and less than the first electrical charge and that will discharge at a discharge time constant that is less than a discharge time constant of the first capacitor means; power source means for charging the first and second capacitor means to a first and second charging voltage; and control means for selectively controlling the power source means and the capacitive charge storage means in response to the sensing of the myocardial arrhythmia in order to deliver a biphasic countershock to the at least two implantable electrodes by delivering a first phase of the biphasic countershock from the first electrical charge stored in the first capacitor means, and by delivering a second phase of the biphasic countershock from the second electrical charge stored in the second capacitor means. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
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Specification