Tissue ablation and removal
First Claim
Patent Images
1. A method of destroying cancerous cells of a tissue, comprising:
- applying an alternating current to a target tissue region so as to non-thermally ablate cancerous cells within the target tissue while maintaining ablated tissue temperature elevations at less than about 10 degrees C., the applied current liquefying at least a portion of the target tissue; and
removing liquified tissue from the target tissue region.
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Abstract
The present invention provides devices and systems, as well as methods, of electric field delivery and ablation (e.g., non-thermal ablation) of target tissues, including cancerous cells and solid tumors. A method of the present invention can include applying an alternating current to a target tissue and removing ablated or liquefied tissue from the target tissue region.
251 Citations
26 Claims
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1. A method of destroying cancerous cells of a tissue, comprising:
applying an alternating current to a target tissue region so as to non-thermally ablate cancerous cells within the target tissue while maintaining ablated tissue temperature elevations at less than about 10 degrees C., the applied current liquefying at least a portion of the target tissue; and
removing liquified tissue from the target tissue region.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of delivering an electric field to a tissue and destroying cancerous cells, comprising:
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positioning a plurality of electrodes within a target tissue region comprising cancerous cells, the plurality comprising a first electrode and a plurality of secondary electrodes spaced from the first electrode; applying an alternating electrical current to the target tissue so as to establish current flow between the first electrode and secondary electrodes, and in a plurality of different directions through the target tissue, and selectively ablate cancerous cells of the target tissue region around the first electrode, the current comprising a frequency of less than about 300 kHz, and wherein the applied electrical current is selected such that elevation in target tissue temperature during current application is less than about 10 degrees C. above body temperature; and removing ablated tissue from the target tissue region. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
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22. A method of delivering an electrical field to a tissue, comprising:
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advancing a probe comprising a plurality of electrodes to a target tissue region comprising cancerous cells, the plurality comprising a first electrode and a plurality of secondary electrodes spaced from the first electrode, and positioning the plurality of electrodes so as to at least partially define an ablation volume with the positioned secondary electrodes, with the first electrode disposed within the ablation volume; applying in a first mode an alternating current so as to establish current flow between the first electrode and secondary electrodes and provide electric fields extending radially through the volume or in a plurality of different directions, and selectively destroy cancerous-cells compared to non-cancerous cells within the volume while maintaining target tissue temperature elevations at less than about 10 degrees C., the current comprising a frequency of less than about 300 kHz; removing treated tissue from the target tissue region. - View Dependent Claims (23)
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24. A method of delivering an electrical field to a tissue, comprising:
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advancing a probe comprising a plurality of electrodes to a target tissue region comprising cancerous cells, the plurality comprising a first electrode and a plurality secondary electrodes spaced from the first electrode, and positioning the plurality of electrodes so as to at least partially define an ablation volume with the positioned secondary electrodes, wherein the first electrode is disposed within the ablation volume; applying an alternating current in a first mode so as to establish current flow between the first electrode and one or more secondary electrodes, and in a plurality of different directions or extending radially through the volume, and selectively destroy cancerous cells compared to non-cancerous cells within the volume, the current-comprising a voltage field of less than about 50 V/cm and a frequency of between about 50 kHz and about 300 kHz; detecting a temperature of the target tissue region during current application; and modifying the applied electric current at least partially in response to a change in detected temperature such that target tissue temperature elevations during current application are maintained at about 2 degrees C. to about 10 degrees C. above normal body temperature during the first mode for cancer cell destruction. - View Dependent Claims (25, 26)
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Specification