Wide-area focal ablation catheter having insulated portions

We claim: 1 . An electroporation catheter for ablation of cardiac tissue, the electroporation catheter comprising: an elongated shaft having a proximal end and an opposite distal end, the elongated shaft defining an axis; an electrode assembly coupled to and extending distally from the distal end of the elongated shaft, the electrode assembly transitionable between a collapsed state and an expanded state wherein the electrode assembly includes a plurality of conductive struts defining a spherical shape in the expanded state having a proximal portion coupled to the elongated shaft, a central portion having a maximum radial dimension and a distal portion opposite the elongated shaft; and a proximal insulation portion disposed on the proximal portion of the electrode assembly surrounding each of the plurality of conductive struts, the proximal insulator portion extending from the proximal end to at least the central portion. 2 . The electroporation catheter of claim 1 , wherein the ablation electrode in the expanded state includes maximum radial dimension greater than a maximum radial dimension of the distal region of the elongated shaft. 3 . The electroporation catheter of claim 2 , wherein the maximum radial dimension of the ablation electrode defines an equator on the electrode assembly. 4 . The electroporation catheter of claim 3 , wherein the proximal insulation is disposed on the conductive struts from the proximal end to the equator. 5 . The electroporation catheter of claim 3 , wherein the proximal insulator is disposed on the conductive struts from the proximal end to a chord on the electrode assembly distal to the equator. 6 . The electroporation catheter of claim 1 , wherein the conductive struts form a lattice hull. 7 . The electroporation catheter of claim 6 , wherein the conductive struts are arranged in a plurality of cells on the lattice hull. 8 . The electroporation catheter of claim 1 , wherein the conductive struts include a plurality of longitudinally extending splines to form a basket hull. 9 . The electroporation catheter of claim 1 , further comprising a shaft electrode disposed on the distal region of the shaft. 10 . The electroporation catheter of claim 9 , wherein the electrode assembly and shaft electrode are configured as one of a cathode and an anode to generate an electric field in a monopolar mode. 11 . The electroporation catheter of claim 9 , wherein the electrode assembly is configured as one of a cathode and an anode and the shaft electrode is configured as the other of the anode and the cathode to generate an electric field in a bipolar mode. 12 . The electroporation catheter of claim 1 , further comprising a plurality of sense electrodes disposed on the electrode assembly. 13 . The electroporation catheter of claim 12 , wherein the electrode assembly includes a plurality of electrodes configured as one of a cathode and an anode to generate an electric field in a monopolar mode. 14 . The electroporation catheter of claim 1 , further comprising a second insulator selectively disposed on the conductive struts distal to the proximal insulation portion. 15 . The electroporation catheter of claim 14 , wherein the second insulator is disposed on an inner surface of a strut of the plurality of conductive struts facing an internal cavity of the electrode assembly, and an outer surface of the strut of the plurality of conductive struts is exposed. 16 . An electrophysiology system, comprising: an electroporation console configured to generate pulsed electrical signals for electroporation ablation; and an electroporation catheter coupled to the electroporation console, the electroporation catheter comprising: an elongated shaft having a proximal end and an opposite distal end, the elongated shaft defining an axis: an electrode assembly coupled to and extending distally from the distal end of the elongated shaft, the electrode assembly transitionable between a collapsed state and an expanded state wherein the electrode assembly includes a plurality of conductive struts defining a spherical shape in the expanded state having a proximal portion coupled to the elongated shaft, a central portion having a maximum radial dimension and a distal portion opposite the elongated shaft; and a proximal insulation portion disposed on the proximal portion of the electrode assembly surrounding each of the plurality of conductive struts, the proximal insulator portion extending from the proximal end to at least the central portion. 17 . The electrophysiology system of claim 16 , wherein the electroporation catheter is configured to be operated in a bipolar mode and a monopolar mode. 18 . An electroporation catheter for ablation of cardiac tissue, the electroporation catheter comprising: an elongated shaft having a proximal end and an opposite distal end, the elongated shaft defining an axis and including a shaft electrode disposed on the distal end; an electrode assembly coupled to and extending distally from the distal end of the elongated shaft, the electrode assembly transitionable between a collapsed state and an expanded state wherein the electrode assembly includes a plurality of conductive struts defining a spherical shape in the expanded state having a proximal portion coupled to the elongated shaft, a central portion having a maximum radial dimension and a distal portion opposite the elongated shaft, the electrode assembly operable in a bipolar mode and a monopolar mode; and a proximal insulation portion disposed on the proximal portion of the electrode assembly surrounding each of the plurality of conductive struts, the proximal insulator portion extending from the proximal end to at least the central portion; wherein the electrode assembly and shaft electrode are configured as one of a cathode and an anode to generate an electric field in the monopolar mode, and wherein the electrode assembly is configured as one of a cathode and an anode and the shaft electrode is configured as the other of the anode and the cathode to generate an electric field in the bipolar mode. 19 . The electroporation catheter of claim 18 , wherein the ablation electrode in the expanded state includes maximum radial dimension greater than a maximum radial dimension of the distal region of the elongated shaft, and wherein the proximal insulator is disposed on the conductive struts from the proximal end to a chord on the electrode assembly distal to the maximum radial dimension. 20 . The electroporation catheter of claim 18 , wherein the conductive struts form one of a lattice hull and a basket hull.