IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0328248
(2002-12-23)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Peters, Verny, Jones, Schmitt &
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인용정보 |
피인용 횟수 :
136 인용 특허 :
5 |
초록
▼
An implantable stomach prosthesis is provided for surgically replacing or augmenting all or part of the antrum and/or pylorus of a stomach. The prosthesis controls the passage of food from the stomach to the small intestine. The prosthesis may be configured to churn ingested material and release it
An implantable stomach prosthesis is provided for surgically replacing or augmenting all or part of the antrum and/or pylorus of a stomach. The prosthesis controls the passage of food from the stomach to the small intestine. The prosthesis may be configured to churn ingested material and release it from the stomach through a prosthetic pyloric valve. At least one expandable member is arranged to be expanded to control the passage of food and/or to mimic the churning action of a patient's stomach. The prosthesis includes an outer support structure, a flexible inner member forming a conduit for the movement of material, and at least one expandable member located between the outer support structure and inner member. An implantable pump system is provided for inflating and deflating the expandable member(s).
대표청구항
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What is claimed is: 1. An implantable prosthetic digestive organ for moving materials through a portion of the digestive tract comprising: a prosthetic pyloric valve configured to structurally replace at least a portion of a pyloric valve comprising: an outer support structure; at least one expanda
What is claimed is: 1. An implantable prosthetic digestive organ for moving materials through a portion of the digestive tract comprising: a prosthetic pyloric valve configured to structurally replace at least a portion of a pyloric valve comprising: an outer support structure; at least one expandable member located within the outer support structure; a flexible inner member forming a conduit for the movement of material therethrough, the flexible inner member located within the outer support structure, wherein the at least one expandable member is located between the inner member and the outer support structure. 2. The implantable prosthetic organ of claim 1 wherein the prosthetic pyloric valve further comprises an orad end portion, an aborad end portion, and a sensor located at the aborad end portion arranged to sense pressure in the duodenum, wherein the at least one expandable member is configured to be inflated and deflated, and wherein the prosthetic pyloric valve further comprises a controller configured to receive a signal from the sensor corresponding to a sensed pressure in the duodenum and to generate a control signal responsive to the sensed pressure to control the inflation/deflation of the at least one expandable member. 3. The implantable prosthetic organ of claim 2 wherein the prosthetic pyloric valve further comprises an orad end portion, an aborad end portion, and a sensor located at the orad end portion arranged to sense pressure in the stomach, wherein the prosthetic pyloric valve further comprises a controller configured to receive a signal from the sensor corresponding to a sensed pressure in the stomach and to generate a control signal responsive to the sensed pressure to control the inflation/deflation of the at least one expandable member. 4. The implantable prosthetic organ of claim 1 further comprising a pump system comprising a pump wherein the at least one expandable member further comprises an input port coupled to the pump, and wherein the pump is configured to pump an inflation medium into the at least one expandable member through a corresponding input port to expand the at least one expandable member. 5. The implantable prosthetic organ of claim 4 wherein the pump system is implantable. 6. The implantable prosthetic organ of claim 4 further comprising a controller operatively coupled to the pump system configured to control inflation and deflation of the at least one expandable member. 7. The implantable prosthetic organ of claim 1 wherein the pyloric valve is configured to replace a recipient's entire natural pylorus. 8. The implantable prosthetic organ of claim 1 wherein the outer support structure is configured to be attached to the inner wall of the duodenum. 9. The implantable prosthetic organ of claim 1 wherein the at least one expandable member comprises a plurality of expandable members. 10. An implantable prosthetic stomach comprising: an outer support structure; at least one expandable member located within the outer support structure; a flexible inner member forming a cavity for the churning of material therein, the flexible inner member located within the outer support structure, wherein the at least one expandable member is located between the inner member and the outer support structure. 11. The implantable prosthetic stomach of claim 10 wherein the stomach comprises: an antrum portion having an orad end portion for receiving ingested materials and a aborad end portion coupled to a pylorus, the antrum portion comprising a plurality of expandable members located between the outer support structure and the inner member, wherein the expandable members are configured expand and contract in a sequence to churn the ingested material. 12. The implantable prosthetic stomach of claim 11 further comprising a controller configured to control expansion and contraction of the expandable members according to the sequence. 13. The implantable prosthetic stomach of claim 11 wherein the pylorus is a prosthetic pyloric valve comprising at least one expandable member located between the outer support member and the inner member, wherein the at least one expandable member is configured to be inflated to tighten the pyloric valve and deflated to relax the pyloric valve. 14. The implantable prosthetic organ of claim 13 wherein the prosthetic pyloric valve further comprises an orad end portion, an aborad end portion, and a sensor located at the aborad end portion arranged to sense pressure in the duodenum, wherein the prosthetic pyloric valve further comprises a controller configured to receive a signal from the sensor corresponding to a sensed pressure in the duodenum and to generate a control signal responsive to the sensed pressure to control the inflation/deflation of the at least one expandable member. 15. The implantable prosthetic organ of claim 13 wherein the prosthetic pyloric valve further comprises an orad end portion, an aborad end portion, and a sensor located at the orad end portion arranged to sense pressure in the stomach, wherein the prosthetic pyloric valve further comprises a controller configured to receive a signal from the sensor corresponding to a sensed pressure in the stomach and to generate a control signal responsive to the sensed pressure to control the inflation/deflation of the at least one expandable member. 16. The implantable prosthetic stomach of claim 11 further comprising an implantable pump system including a pump wherein each at least one expandable member further comprises an input port coupled to the pump, and wherein the implantable pump is configured to pump an inflation medium into each at least one expandable member through a corresponding input port to expand the at least one expandable member. 17. The implantable prosthetic organ of claim 16 further comprising a controller operatively coupled to the pump system configured to control inflation and deflation of the at least one expandable member. 18. An implantable prosthetic digestive organ for moving materials through a portion of the digestive tract comprising: a prosthetic pyloric valve means for controlling the passage of material between a stomach and small intestine of a recipient; an outer support means for supporting the prosthetic organ; expandable means for controlling the tightening and relaxing of the valve means; and a flexible inner member means for providing a conduit for the movement of material therethrough, the flexible inner member means located within the outer support means, wherein the expandable means is located between the inner member means and the outer support means. 19. The implantable prosthetic digestive organ of claim 18 wherein the expandable means is configured to be inflated and deflated, and further comprising a sensor means for sensing pressure in the duodenum; and controller means for receiving a signal from the sensor means corresponding to a sensed pressure in the duodenum and generating a control signal responsive to the sensed pressure to control the inflation/deflation of the expandable means. 20. The implantable prosthetic digestive organ of claim 18 wherein the expandable means is configured to be inflated and deflated, and further comprising a sensor means for sensing pressure in the stomach; and controller means for receiving a signal from the sensor means corresponding to a sensed pressure in the stomach and generating a control signal responsive to the sensed pressure to control the inflation/deflation of the expandable means. 21. The implantable prosthetic organ of claim 18 further comprising a pump system means for pumping an inflation medium into the expandable means through an input means to expand the expandable means. 22. The implantable prosthetic organ of claim 18 wherein the prosthetic pyloric valve means is a means for replacing a recipient's natural pylorus. 23. The implantable prosthetic organ of claim 18 wherein the prosthetic pyloric valve means is a means for augmenting a recipient's natural pylorus to further control the passage of food from the stomach into the small intestine of the recipient. 24. An implantable prosthetic stomach comprising: antrum means for churning and moving material within the prosthetic stomach, the antrum means comprising: outer support means for supporting the prosthetic stomach; expandable means for expanding and contracting to churn and move food inner means for providing a cavity for the churning of material therein, inner means located within the outer support means, wherein the expandable means is located between the inner means and the outer support means. 25. The implantable prosthetic stomach of claim 24 wherein the expandable means is configured to expand and contract, further comprising a controller means for controlling expansion and contraction of the expandable means according to a sequence. 26. The implantable prosthetic stomach of claim 24 further comprising a pylorus means for controlling movement of material from a stomach to a small intestine of a recipient, the pylorus means comprising expandable valve means for inflating to tighten the pylorus means and deflating to relax the pylorus means, the expandable valve means located between the outer support means and the inner means. 27. The implantable prosthetic stomach of claim 24 further comprising a pump system means for pumping an inflation medium into the expandable means through an input means to expand the expandable means. 28. The implantable prosthetic stomach of claim 27 further comprising controller means for controlling inflation and deflation of the expandable means, wherein the controller means is operatively coupled to the pump system means. 29. The implantable prosthetic stomach of claim 24 wherein the expandable means is configured to be inflated and deflated and, further comprising sensor means for sensing pressure in the duodenum; and controller means for receiving a signal from the sensor means corresponding to a sensed pressure in the duodenum and generating a control signal responsive to the sensed pressure to control the inflation/deflation of the expandable means. 30. The implantable prosthetic stomach of claim 24 wherein the expandable means is configured to be inflated and deflated, and further comprising a sensor means for sensing pressure in the stomach; and controller means for receiving a signal from the sensor means corresponding to a sensed pressure in the stomach and generating a control signal responsive to the sensed pressure to control the inflation/deflation of the expandable means. 31. A method for treating obesity comprising the steps of: providing a prosthetic pyloric valve; attaching the prosthetic pyloric valve between a stomach and a location in the small intestine; tightening the prosthetic pyloric valve to retain material in the stomach for a desired duration; and relaxing the prosthetic valve according to a desired protocol to permit the movement of material from the stomach to the small intestine. 32. The method for treating obesity of claim 31 wherein the step of providing a prosthetic pyloric valve comprises providing: an outer support structure; at least one expandable member located within the outer support structure; and a flexible inner member forming a conduit for the movement of material therethrough, the flexible inner member located within the outer support structure, wherein the at least one expandable member is located between the inner member and the outer support structure, wherein the step of tightening the valve comprises inflating at least in part, the at least one expandable member, and wherein the step of relaxing the valve comprises deflating at least in part, the at least one expandable member. 33. A method for controlling the movement of material from a stomach to a small intestine comprising the steps of: providing a prosthetic pyloric valve comprising: an outer support structure; at least one expandable member located within the outer support structure; and a flexible inner member forming a conduit for the movement of material therethrough, the flexible inner member located within the outer support structure, wherein the at least one expandable member is located between the inner member and the outer support structure, attaching the prosthetic pyloric valve between the stomach and a location in the small intestine; controlling movement of material from a stomach to a small intestine with the valve by inflating at least in part, the at least one expandable member or deflating at least in part, the at least one expandable member.
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