Patent ID: 8241276
Filing Date: 2012-08-14
Classification: A61B,A61N

Abstract:
1. An ablation instrument, comprising: (a) an elongated cannula having a proximal end and a distal end, said cannula defining an internal lumen within said cannula and a cannula axis; (b) an elongated flat flexible, moveable member having a proximal end and a distal end, said elongated flexible, moveable member having a thickness, a length and a width, and being configured to have a first portion that is substantially straight, a second portion configured in a curved configuration and a third portion configured to be substantially straight, said second portion being positioned between said first and third portions, said first and third portions being positioned in facing spaced relationship to each other, said first and third portions extending substantially in the direction of the cannula axis, at least one of said first and third portions extending in the direction of the cannula axis with a length substantially longer than its width; (c) a printed circuit power coupling conductor disposed on said elongated flat flexible, moveable member and extending along the length of said elongated flat flexible movable member, said printed circuit power coupling conductor having a proximal end and a distal end, d) an RF source, said proximal end of said printed circuit power coupling conductor coupled to receive RF ablation energy from said RF source; (e) a plurality of flexible signal coupling conductors disposed along the length of said elongated flat flexible member; (f) a plurality of temperature measurement signal conductors contained within said lumen, each of said conductors having a proximal end, and a distal end, said proximal ends of said temperature measurement signal conductors being coupled to the distal ends of said flexible signal coupling conductors; (g) a plurality of temperature sensing transducers, each coupled to a respective one of said distal ends of said temperature measurement signal conductors; (h) an RF ablation energy conductor having a proximal end proximate the proximal end of said cannula and a distal end proximate the distal end of said cannula, said proximal end of said RF ablation energy conductor being coupled to a distal end of said printed circuit power coupling conductor; (i) a plurality of ablation stylets each having a proximal end and a distal end, and each coupled at the respective proximal end of said stylet to the distal end of said RF ablation energy conductor, said stylets comprising a deflectable material, said RF ablation energy conductor together with said stylets being mounted for axial movement; (j) a head defined proximate the distal end of said cannula; and (k) a deflection surface positioned proximate said head, the deflection surface being configured and positioned to deflect, in response to axial movement of said stylets in a direction from said proximate end of said cannula to said distal end of said cannula, at least some of said stylets laterally with respect to said cannula axis in different directions along substantially straight paths, said paths defining an ablation volume.