Ablation catheter with fluid distribution structures
First Claim
1. A catheter with a distal ablation electrode section, the catheter comprising:
- a proximal section;
an ablation section at a distal end of the catheter;
a catheter wall defining at least one fluid lumen extending from the proximal section to the ablation section;
an electrode lead positioned within the at least one fluid lumen extending within the ablation section;
at least one dispersion opening within the catheter wall in the ablation section oriented longitudinally along a length of the ablation section, wherein the at least one dispersion opening is in fluid communication with the at least one fluid lumen;
a porous layer covering the at least one dispersion opening; and
a length of mesh material generally coextensive with and positioned adjacent to the at least one dispersion opening on the opposing side of the at least one dispersion opening from the at least one fluid lumen, the mesh material also configured as an electrode, and the mesh material covering the porous layer and configured to allow fluid under pressure to flow through the at least one dispersion opening;
wherein the porous layer is interposed both between the mesh material and the at least one dispersion opening and between the mesh material and the outer surface of the catheter adjacent the at least one dispersion opening.
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Accused Products
Abstract
An ablation catheter has improved fluid distribution structures. An ablation section at a distal end of the catheter is designed to provide a more uniform fluid flow emanating from the catheter. By creating a uniform fluid flow, a more uniform tissue lesion results and the possibility of charring the tissue is reduced. A combination of mesh material layers, porous materials, and dispersion channels or openings are used to achieve the uniform flow. The amount of fluid used as a virtual electrode to ablate the tissue is greatly reduced with the present invention. Further, the catheter may be used to create a single, uniform linear lesion by successive application of energy to adjacent portions of the ablation section, thus reducing the power required to create the desired lesion.
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Citations
20 Claims
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1. A catheter with a distal ablation electrode section, the catheter comprising:
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a proximal section; an ablation section at a distal end of the catheter; a catheter wall defining at least one fluid lumen extending from the proximal section to the ablation section; an electrode lead positioned within the at least one fluid lumen extending within the ablation section; at least one dispersion opening within the catheter wall in the ablation section oriented longitudinally along a length of the ablation section, wherein the at least one dispersion opening is in fluid communication with the at least one fluid lumen; a porous layer covering the at least one dispersion opening; and a length of mesh material generally coextensive with and positioned adjacent to the at least one dispersion opening on the opposing side of the at least one dispersion opening from the at least one fluid lumen, the mesh material also configured as an electrode, and the mesh material covering the porous layer and configured to allow fluid under pressure to flow through the at least one dispersion opening; wherein the porous layer is interposed both between the mesh material and the at least one dispersion opening and between the mesh material and the outer surface of the catheter adjacent the at least one dispersion opening. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of creating a uniform flow of a fluid emanating from an ablation section at a distal end of a catheter, the method comprising
flowing a conductive fluid through a lumen in the catheter, wherein a first pressure drop across the conductive fluid in the lumen is created between a proximal end of the catheter and the ablation section; -
flowing the conductive fluid from the lumen through a porous material positioned in the ablation section; wherein a second pressure drop is created between a first surface of the porous material and a second surface of the porous material; and wherein the second pressure drop through the porous material is higher than the first pressure drop; and flowing the conductive fluid through a mesh electrode covering the porous material, the mesh electrode configured as both the only electrode and the only mesh material covering the porous material, the mesh electrode also_securing the porous material on the catheter during flowing of the conductive fluid.
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9. A catheter with a distal ablation electrode section, the catheter comprising:
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a proximal section; an ablation section at a distal end of the catheter; a catheter wall defining at least one fluid lumen extending from the proximal section to the ablation section; an electrode lead positioned within the at least one fluid lumen extending within the ablation section; at least one dispersion opening within the catheter wall in the ablation section oriented longitudinally along a length of the ablation section, wherein the at least one dispersion opening is in fluid communication with the at least one fluid lumen;
a porous layer covering the at least one dispersion opening;a length of mesh material generally coextensive with and positioned adjacent to the at least one dispersion opening on the opposing side of the at least one dispersion opening from the at least one fluid lumen, the mesh material covering the porous layer and configured to allow fluid under pressure to flow through the at least one dispersion opening; and a retention layer about the distal end of the catheter; wherein the retention layer defines an elongate aperture generally coextensive with the dispersion opening; and wherein a perimeter edge of the mesh material is retained between the retention layer adjacent the elongate aperture and an outer surface of the catheter adjacent the at least one dispersion opening. - View Dependent Claims (10)
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11. A catheter with a distal ablation electrode section, the catheter comprising:
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a proximal section; an ablation section at a distal end of the catheter; a catheter wall defining at least one fluid lumen extending from the proximal section to the ablation section; an electrode lead positioned within the at least one fluid lumen extending within the ablation section; at least one dispersion opening within the catheter wall in the ablation section oriented longitudinally along a length of the ablation section, wherein the at least one dispersion opening is in fluid communication with the at least one fluid lumen;
a porous layer covering the at least one dispersion opening;a length of mesh material generally coextensive with and positioned adjacent to the at least one dispersion opening on the opposing side of the at least one dispersion opening from the at least one fluid lumen, the mesh material covering the porous layer and configured to allow fluid under pressure to flow through the at least one dispersion opening; and wherein the porous layer is interposed both between the mesh material and the at least one dispersion opening and between the mesh material and the outer surface of the catheter adjacent the at least one dispersion opening. - View Dependent Claims (12)
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13. A catheter with a distal ablation electrode section, the catheter comprising:
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a proximal section; an ablation section at a distal end of the catheter; a catheter wall defining at least one fluid lumen extending from the proximal section to the ablation section; an electrode lead positioned within the at least one fluid lumen extending within the ablation section; at least one dispersion opening within the catheter wall in the ablation section oriented longitudinally along a length of the ablation section, wherein the at least one dispersion opening is in fluid communication with the at least one fluid lumen; a porous layer covering the at least one dispersion opening; a length of mesh material generally coextensive with and positioned adjacent to the at least one dispersion opening on the opposing side of the at least one dispersion opening from the at least one fluid lumen, the mesh material also configured as an electrode, and the mesh material covering the porous layer and configured to allow fluid under pressure to flow through the at least one dispersion opening; wherein the porous layer is interposed both between the mesh material and the at least one dispersion opening and between the mesh material and the outer surface of the catheter adjacent the at least one dispersion opening; a retention layer about the distal end of the catheter; wherein the retention layer defines an elongate aperture generally coextensive with the dispersion opening; and wherein a perimeter edge of the mesh material is retained between the retention layer adjacent the elongate aperture and an outer surface of the catheter adjacent the at least one dispersion opening. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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Specification