Tissue ablation with irreversible electroporation
First Claim
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1. A device for ablating tissue, comprising:
- first and second electrodes configured to-position a tissue zone to be treated there between;
a voltage generator in electrical connection with the first and second electrodes, and configured for applying a voltage between the first and second electrodes in a manner which provides a predetermined electric field around the tissue zone for a time sufficient to perform irreversible electroporation to kill substantially all of the cells in the identified tissue zone; and
a voltage regulator in electrical connection with the voltage generator and configured for adjusting the voltage and pulse duration of the voltage generator to obtain irreversible electroporation of cells in the tissue zone while minimizing damage to cells not in the tissue zone, the voltage regulator is configured to use a Laplace equation to calculate the electrical potential distribution in tissue during typical electroporation pulses and is further configured to use a modified Pennes equation to calculate the resulting temperature distribution.
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Abstract
A new method for the ablation of undesirable tissue such as cells of a cancerous or non-cancerous tumor is disclosed. It involves the placement of electrodes into or near the vicinity of the undesirable tissue through the application of electrical pulses causing irreversible electroporation of the cells throughout the entire area of the undesirable tissue. The electric pulses irreversibly permeate the cell membranes, thereby invoking cell death. The irreversibly permeabilized cells are left in situ and are removed by the body immune system. The amount of tissue ablation achievable through the use of irreversible electroporation without inducing thermal damage is considerable.
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3 Claims
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1. A device for ablating tissue, comprising:
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first and second electrodes configured to-position a tissue zone to be treated there between; a voltage generator in electrical connection with the first and second electrodes, and configured for applying a voltage between the first and second electrodes in a manner which provides a predetermined electric field around the tissue zone for a time sufficient to perform irreversible electroporation to kill substantially all of the cells in the identified tissue zone; and a voltage regulator in electrical connection with the voltage generator and configured for adjusting the voltage and pulse duration of the voltage generator to obtain irreversible electroporation of cells in the tissue zone while minimizing damage to cells not in the tissue zone, the voltage regulator is configured to use a Laplace equation to calculate the electrical potential distribution in tissue during typical electroporation pulses and is further configured to use a modified Pennes equation to calculate the resulting temperature distribution. - View Dependent Claims (2, 3)
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Specification