Endoscopic end effectors constructed from a combination of conductive and non-conductive materials and useful for selective endoscopic cautery
First Claim
1. A method of manufacturing an end effector for an endoscopic surgical instrument having an actuation means, comprising:
- forming a metallic skeleton by a process chosen from casting, stamping or photochemically milling; and
molding a non-conductive body around said metallic skeleton, said non-conductive body having a proximal end with means for coupling to the actuation means, and a distal end with means for cutting, gripping, clamping, or otherwise contacting tissue.
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Abstract
A non-metallic end effector for use in an endoscopic surgical tool includes a metallic core for strength and for providing a selected electrode surface on the end effector. Selectively conductive end effectors are manufactured by insert molding a plastic or ceramic or other non-conductive body around a metallic or otherwise conductive core. The conductive core is exposed on a selected portion of the working surface of the end effector and extends through the non-conductive body of the end effector for coupling to an electrical source. Selectively conductive end effectors of this type can also be manufactured by coating a cast end effector member with a non-conductive polymer or by metallically plating a non-conductive ceramic end effector member. By extending the conductive core of a selectively conductive end effector member to the pivot hole of the member, electrical coupling can be made through the clevis and tube of an endoscopic instrument. By extending the conductive core to the actuation bore of an end effector member, electrical coupling can be made through the push rod or other actuation member in an endoscopic instrument. Using both techniques, a bipolar selective cautery end effector can be provided on an endoscopic instrument.
389 Citations
9 Claims
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1. A method of manufacturing an end effector for an endoscopic surgical instrument having an actuation means, comprising:
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forming a metallic skeleton by a process chosen from casting, stamping or photochemically milling; and molding a non-conductive body around said metallic skeleton, said non-conductive body having a proximal end with means for coupling to the actuation means, and a distal end with means for cutting, gripping, clamping, or otherwise contacting tissue. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of manufacturing an end effector for an endoscopic surgical instrument having an actuation means and a clevis means, comprising:
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casting a conductive body according to an investment casting process, said conductive body having a proximal end, and a surface portion adjacent where said end effector grasps, clamps cuts, or otherwise contacts a tissue, said cast conductive body including means for coupling said end effector to the actuation means and means for coupling said end effector to the clevis means; coating said cast conductive body with a non-conductive coating except for at least one selected first location on said surface portion on said conductive body, and except for at least one selected second location located at at least one of said means for coupling said end effector to the clevis means and said means for coupling said end effector to the actuation means; and masking said cast conductive body with masking means at said at least one selected first location and at said at least one selected second location prior to said step of coating, and removing said masking means after said step of coating.
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Specification
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Current AssigneeSymbiosis Corporation (Boston Scientific Corporation)
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Original AssigneeSymbiosis Corporation (Boston Scientific Corporation)
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InventorsPalmer, Matthew A., Slater, Charles R., Kratsch, Peter
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Primary Examiner(s)Watts, Douglas D.
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Application NumberUS08/308,983Time in Patent Office2,017 DaysField of Search76/101.1, 76/104.1, 30/140, 606/43-48, 606/170, 606/171, 164/516-518US Class Current76/104.1CPC Class CodesA61B 10/02 Instruments for taking cell...A61B 10/06 Biopsy forceps , e.g. with ...A61B 17/1608 the two jaw elements being ...A61B 17/29 Forceps for use in minimall...A61B 17/320016 Endoscopic cutting instrume...A61B 17/3201 Scissors for biopsy A61B10/02A61B 18/1402 Probes for open surgeryA61B 18/1445 at the distal end of a shaf...A61B 2017/00398 using powered actuators, e....A61B 2017/0046 with a releasable handle; w...A61B 2017/0088 ceramicA61B 2017/292 connection of actuating rod...A61B 2017/2926 Details of heads or jawsA61B 2017/2931 with releasable headA61B 2017/2934 arcuate shaped guiding meansA61B 2017/2939 Details of linkages or pivo...A61B 2018/00077 high, i.e. electrically con...A61B 2018/00083 low, i.e. electrically insu...A61B 2018/00107 Coatings on the energy appl...A61B 2018/00148 with metalView All
