Systems and methods for electrosurgical tissue contraction
First Claim
1. A method for applying electrical energy to tissue at a target site comprising:
- positioning an active electrode adjacent to a tissue structure at the target site in the presence of electrically conductive fluid, said electrically conducting fluid being delivered from an electrically conducting fluid supply;
positioning at least a first return electrode within the electrically conductive fluid and spaced from the active electrode;
applying a high frequency voltage difference between the active electrode and the at least first return electrode to modify the tissue structure; and
locating the return electrode relative to the active electrode and the tissue structure such that the electric fields between the active electrode and the tissue structure are substantially unaffected by the presence of the return electrode wherein said tissue comprises joint capsule tissue.
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Accused Products
Abstract
Systems and methods are provided for performing electrosurgical interventions, such as selectively contracting soft collagen tissue and other body structures, while limiting thermal damage or molecular dissociation of such tissue and limiting the thermal damage to tissue adjacent to and underlying the treatment site. The systems and methods of the present invention are particularly useful for surgical procedures in electrically conducting environments, such as arthroscopic procedures in the joints, e.g., shoulder, knee, hip, hand, foot, elbow or the like. The present invention is also useful in relatively dry environments, such as treating and shaping the cornea, and dermatological procedures involving surface tissue contraction of tissue underlying the surface of the skin for tissue rejuvenation, wrinkle removal and the like.
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Citations
16 Claims
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1. A method for applying electrical energy to tissue at a target site comprising:
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positioning an active electrode adjacent to a tissue structure at the target site in the presence of electrically conductive fluid, said electrically conducting fluid being delivered from an electrically conducting fluid supply; positioning at least a first return electrode within the electrically conductive fluid and spaced from the active electrode; applying a high frequency voltage difference between the active electrode and the at least first return electrode to modify the tissue structure; and locating the return electrode relative to the active electrode and the tissue structure such that the electric fields between the active electrode and the tissue structure are substantially unaffected by the presence of the return electrode wherein said tissue comprises joint capsule tissue. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for shrinking collagen tissue within a joint capsule comprising:
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submersing collagen tissue within a joint capsule in electrically conductive fluid, said electrically conductive fluid being supplied to said capsule from a fluid supply; positioning an active electrode through a portal into the joint adjacent to a tissue structure; contacting the electrically conductive fluid with a dispersive return electrode having greater than an exposed surface area of the active electrode and being spaced at least 10 mm from the active electrode; and applying a sufficient high frequency voltage difference between the active and return electrodes to shrink collagen tissue within the tissue structure. - View Dependent Claims (12)
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13. A system for contracting collagen tissue at a target site on or within a patient'"'"'s body comprising:
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an electrosurgical instrument having a shaft with a proximal end portion, a distal end portion and an active electrode on the distal end portion of the shaft, said active electrode comprising a plurality of ports; a dispersive return electrode on the shaft spaced proximally from the active electrode, wherein the dispersive return electrode has an exposed surface area larger than the exposed surface area of the active electrode, and the dispersive return electrode is axially space at least about 1 mm from the active electrode; and a high frequency power supply coupled to the active electrode and the dispersive return electrode for applying a high frequency voltage difference therebetween sufficient to contract collagen tissue. - View Dependent Claims (14)
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15. A method for contracting collagen tissue at a target site on or within a patient'"'"'s body comprising:
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positioning an active electrode adjacent to or in contact with a tissue structure at a target site in the presence of electrically conductive fluid, said active electrode comprising a plurality ports; positioning one or more return electrodes within the electrically conductive fluid; applying a high frequency voltage difference between the active and return electrodes such that a high frequency current flows from the active electrodes through the tissue structure at the target site and, through the electrically conductive fluid to the return electrodes; and spacing the return electrode from the active electrodes such that a sufficient high frequency current flows into the tissue structure to induce contraction of collagen fibers at least about 0.5 mm to 5 mm beyond the surface of the tissue structure without causing molecular dissociation of tissue cells at the surface of the tissue structure. - View Dependent Claims (16)
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Specification