Perorally removeable anti-reflux valve implantation
Disclosed are esophageal anti-reflux valve prostheses, and tools and procedures for peroral implantation and extraction of the prostheses. The prostheses disclosed have a semipermeable membrane to allow retrograde passage of gas, magnets disposed at a distal end of the sleeve to facilitate closure, and an outwardly bendable array of spikes that are longitudinally aligned for peroral insertion and lockable into a radially outwardly deployed configuration to keep the prosthesis from dislocating after implantation. The implantation tool has inner and outer concentric tubes, the inner tube releasably threadably connected to the prosthesis, the outer tube reverse threaded with the inner tube to advance a distal headpiece to engage, deploy and lock the spikes into the deployed configuration. A vacuum assist can be used to help impact the lumen wall on the spikes. The extraction tool is similar to the implantation tool with an inner tube for threadably engaging the prosthesis, an outer tube with a distal crown with a plurality of shoes to unseat and unlock the spikes, and an overtube shield to receive the spikes and facilitate extraction of the prosthesis.
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The present application claims the benefit of U.S. Provisional application Ser. No. 60/302,870, filed Jul. 3, 2001, and entitled Perorally Insertable/Removable Anti-Reflux Valve, which is hereby incorporated by reference in its entirety.
BACKGROUND OF INVENTIONThis invention relates to a device and non-invasive surgical method for treating gastroesophageal reflux disease. More specifically, it relates to an anti-reflux valve prosthesis and associated instrumentation for its peroral placement and in situ fixing at the gastroesophageal junction, to prevent the reflux of gastric contents into the esophagus. The invention further relates to the instrumentation and methodology for peroral removal of such a prosthesis.
Gastroesophageal reflux disease (GERD) is the commonest cause of dyspepsia, affecting some 30% of the United States adult population intermittently and some 10% on a continuous and troublesome basis. Gastroesophageal reflux disease produces heartburn, abdominal pain and regurgitation of acid-containing gastric contents into the esophagus and pharynx. It may also lead to alteration of the lining of the esophagus (Barrett″s Esophagus), which may in turn lead to esophageal cancer. Current methods of treating GERD include powerful antacid medication therapies and surgical interventions.
Medication therapy with powerful antacids is directed at treating the symptoms of GERD, and is necessarily not curative. Furthermore, medication-based therapies are not always fully effective, as reflux is not prevented and the esophagus may continue to be exposed to gastric content.
Surgical intervention typically involves either open surgery (performed through the abdomen or the chest) or laparoscopic surgery (performed through one or more incision access ports inserted through the abdominal wall), and the re-sectioning of tissue or the implanting of a prosthetic device. Although surgical interventions can be curative, these treatments are seriously invasive and have the attendant risk of such procedures. Despite the risk, the field has been motivated to provide solutions to the GERD problem, which has resulted in the development of a number of surgically implantable anti-reflux valve prosthetic devices. Prior anti-reflux valve prostheses are essentially one-way valves implanted at the gastroesophageal junction using open or laparoscopic surgery. The implanted prosthesis allows normal swallowing to take place in an orthograde manner while preventing the reflux of gastric contents from the stomach into the esophagus.
Examples of surgically implanted esophageal anti-reflux valve prostheses include the devices of: Godin (U.S. Pat. No. 5,314,473) which discloses a one-way, antivalve comprising a flattened tubular part associated with an annular fixing element; and Reich (U.S. Pat. No. 4,846,836) which discloses a bi-directional valve and housing for similar purposes. These devices were developed to be inserted into the gastro-esophageal junction via open or laparoscopic surgery and fixed there. The purpose was to permit the unidirectional passage of ingested materials into the stomach while preventing the reflux of gastric content of the stomach into the esophagus. Typically, these devices require suturing or other means to fix them to the tissue of the esophagus.
Generally, all of these prior devices and methods require surgical invasion of a body cavity and breach of the body membrane in some fashion (e.g., open surgery or laparoscopy) in order to accomplish their utility. Invasive surgical interventions are too frequently complicated by problems such as stricture formation, “gas bloat,” or recurrent symptoms of reflux disease. Additionally, the results obtained by gross surgical treatment can be technique-dependent and vary significantly from surgeon to surgeon.
More recently, perorally implantable valve prostheses were disclosed for fixation in the esophageal lumen near the gatroesophageal junction in patent applications by one of the present co-inventors, Dr. Thomas V. Taylor, U.S. Ser. No. 08/987,693, filed Dec. 9, 1997, U.S. Pat. No. 6,254,642; U.S. Ser. No. 09/681,364, filed Mar. 26, 2001, U.S. Pat. No. ______; and U.S. Ser. No. 09/681,364, filed Mar. 26, 2001, U.S. Pat. No. ______; each of which is hereby incorporated herein by reference in its entirety.
SUMMARY OF INVENTIONThe present invention relates to an anti-reflux valve prosthesis system for treating gastroesophageal reflux disease (GERD) in a patient, which does not require open or laparoscopic surgery to implant. The present invention provides for perorally inserting a removable sutureless anti-reflux valve prosthesis down the lumen of the esophagus, to the gastroesophageal junction, where it is fixed in place. The advantage of this system is that peroral insertion of such a valve eliminates the need for either open formal laparotomy, thoracotomy or a laparoscopic approach using multiple access ports. In the event it is later desired to remove or replace the prosthesis, the valve can be removed using a peroral extraction tool, again generally without the need for laparotomy, thoracotomy, laparoscopy, or any other surgically invasive technique.
In one aspect, the present invention provides an anti-reflux valve prosthesis. The prosthesis has an annular fixation element for fixing the prosthesis in an esophagus, and a one-way valve depending from the annular fixation element for allowing orthograde passage therethrough and inhibiting retrograde passage of gastric contents. The valve includes a semipermeable membrane that is essentially liquid impermeable, but gas permeable to allow retrograde permeation of gas through the valve. The prosthesis can be configured to be perorally installed or perorally removable. The one-way valve of the prosthesis can be a sleeve valve. The prosthesis can be made of a biologically inert material, including but not limited to, a fluorinated polymer. The prosthesis is configured to be implanted in the esophagus of a patient with gastroesophageal reflux disease (GERD), preferably when that patient″s esophagus is cancer free.
In another aspect, the present invention provides another embodiment of an anti-reflux valve prosthesis that has an annular fixation element for fixing the prosthesis in the esophagus and a sleeve valve depending from the annular fixation element for allowing orthograde passage therethrough and inhibiting retrograde passage of gastric contents. The sleeve valve has a plurality of magnets secured at a distal end thereof to facilitate closure of the valve. Additionally, the prosthesis may contain a gas permeable membrane to allow retrograde permeation of gas therethrough, where the membrane is preferably liquid impermeable.
In still another aspect, the present invention provides an anti-reflux valve prosthesis for peroral implantation in the esophagus. The prosthesis in this embodiment includes an annular body and a valve depending from the annular body for allowing orthograde passage therethrough and inhibiting retrograde passage of gastric contents. A plurality of substantially rigid spikes are spaced along a circumference of the annular body adjacent one end thereof, preferably the proximal end. The valve depending from the annular body can be a sleeve valve which may include a plurality of magnets secured at a distal end to facilitate closure of the valve. The prosthesis may also include a gas permeable, and preferably liquid impermeable, membrane to allow retrograde permeation of gas therethrough. Each spike has a tip at a free end thereof and a base at the other end attached to the annular body. A dog is formed on each spike between the base and the tip. Each spike is outwardly bendable at the base between a retracted generally longitudinal alignment for insertion and a radially outwardly deployed alignment for fixation. Preferably, the spikes can include a chamfer at the base to facilitate the bending. A keeper is positioned on an exterior surface of the annular body for receiving the dogs and locking the respective spike in the deployed alignment. The annular body of the prosthesis can be threaded to allow engagement with a tool to perorally insert and/or remove the prosthesis from the esophagus. The prosthesis is configured to be implanted in the esophagus of a patient with gastroesophageal reflux disease (GERD), preferably when that patient″s esophagus is cancer free.
In a further aspect, the present invention provides a tool for implanting the perorally implantable prosthesis. In this embodiment, the annular body is internally threaded and the spikes are attached to a proximal end of the annular body. The tool includes inner and outer tubes, a nipple secured to a distal end of the inner tube for releasably coupling the annular body, and a handle secured adjacent to a proximal end of the inner tube for manipulation of the tool. The inner tube and the outer tube are configured for advancement of the outer tube by rotating the outer tube with respect to the inner tube. A headpiece is secured to a distal end of the outer tube for bending the spikes outwardly into the deployed alignment by advancement of the headpiece into abutment with the nipple. A handle is preferably secured adjacent to a proximal end of the outer tube to facilitate rotation of the outer tube with respect to the first tube. Optionally, a plurality of transverse passages are formed in the headpiece in fluid communication with an annular space defined by an inner diameter of the headpiece, an outer diameter of the inner tube and annular seals on each end thereof. If present, the annular space is in turn in fluid communication with a vacuum source via a transverse bore in a wall of the inner tube and a central longitudinal passage through the inner tube, for drawing a lumen of the esophagus inwardly to facilitate penetration of the spikes. Optionally, a fiber optic cable is disposed within a central longitudinal passage of the inner tube for viewing the esophagus.
In still another aspect of the invention, there is provided a method of using a tool to perorally implant an anti-reflux prosthesis in an esophagus. The method includes: (a) mounting the anti reflux valve prosthesis onto a headpiece of the tool; (b) positioning the anti-reflux valve prosthesis in the esophagus; (c) deploying a plurality of radial spikes of the prosthesis; (d) pulling a vacuum across a longitudinal passage of the tool; and (e) drawing a lumen of the esophagus inwardly to facilitate impaction of the spikes. Optionally the headpiece of the tool can be configured to be removable and replaced with a crown. The crown would be configured to assist in the peroral removal of the prosthesis from the esophagus.
In still another aspect of the invention, there is provided a tool to perorally implant an anti-reflux prosthesis in an esophagus. The tool includes: (a) a means for mounting the anti reflux valve prosthesis onto a headpiece of the tool; (b) a means for positioning the anti-reflux valve prosthesis in the esophagus; (c) a means for deploying a plurality of radial spikes of the prosthesis; (d) a means for pulling a vacuum across a longitudinal passage of the tool; and (e) a means for drawing a lumen of the esophagus inwardly to facilitate impaction of the spikes.
In still another aspect of the invention, there is provided a method of using a tool for implanting the anti-reflux valve prosthesis. The method includes: (a) perorally inserting and positioning the anti-reflux valve prosthesis into the esophagus; (b) deploying a plurality of spikes, the spikes depending radially from the anti-reflux prosthesis; and (c) impaling the esophagus upon the spikes to hold the prosthesis in place. Optionally, the method can include using a vacuum to assist in impaling the esophagus upon the spikes.
Furthermore, another aspect of the invention provides for a tool to implant an anti-reflux prosthesis. The tool includes: (a) a means for perorally inserting and positioning the anti-reflux valve prosthesis into the esophagus; (b) a means for deploying a plurality of spikes, the spikes depending radially from the anti-reflux prosthesis; and (c) a means for penetrating the esophagus with the spikes to hold the prosthesis in place.
In still another aspect of the invention, there is provided a method of using a tool for implanting an anti-reflux valve prosthesis. The method includes: (a) releasably engaging a nipple of the tool with an annular body of the prosthesis, the prosthesis having a plurality of retractable embedment spikes; (b) perorally inserting the valve prosthesis into the esophagus near the gastroesophageal junction; (c) extending the spikes fully outwardly into a deployed alignment for engagement with a lumen of the esophagus; (d) uncoupling the nipple from the prosthesis; and (e) withdrawing the tool from the esophagus. Furthermore, the method can optionally include actuating a vacuum source to draw the wall of the lumen inwardly and facilitate engagement of the spikes.
In still another aspect of the invention, there is provided a tool for implanting an anti-reflux valve prosthesis. The tool includes: (a) a means for releasably engaging a nipple of the tool with an annular body of the prosthesis, the prosthesis having a plurality of retractable embedment spikes; (b) a means for perorally inserting the valve prosthesis into the esophagus near the gastroesophageal junction; (c) a means for extending the spikes fully outwardly into a deployed alignment for engagement with a lumen of the esophagus; (d) a means for uncoupling the nipple from the prosthesis; and (e) a means for withdrawing the tool from the esophagus.
A further aspect is the provision of a tool for extracting the anti-reflux prosthesis wherein the prosthesis includes an annular body and extended radial spikes therefrom. The tool includes an inner tube and an outer tube, with the tubes being generally concentrically aligned, an nipple secured to a distal end of the inner tube, the nipple configured to be releasably coupled with the annular body, and a crown secured to a distal end of the outer tube, the crown having a plurality of tangentially projecting shoes to receive and retract the extended radial spikes. Optionally, the outer tube of the tool can be configured to be advanced or retracted as the outer tube is rotated with respect to the inner tube. The tool can also comprise a handle secured to a proximal end of the inner tube for manipulation thereof. The tool can also include a second handle secured adjacent to a proximal end of the outer tube to facilitate movement of the outer tube with respect to the inner tube. The tool can optionally include a fiber optic cable disposed within a central longitudinal passage of the inner tube for viewing the esophagus. The tool can optionally include an overtube having a shield of enlarged diameter at a distal end thereof, wherein the overtube is slidable over the outer tube to receive the plurality of spikes to facilitate removal of the prosthesis from the esophagus. The shield may optionally be tapered from a larger diameter at a distal end to a smaller diameter at a proximal end. The crown may optionally be configured to be removable and replaced with a headpiece that is configured to assist in reinstalling the prosthesis into the esophagus.
A further aspect of the invention involves a method for using a tool to extract an anti-reflux valve prosthesis from an esophagus. The method includes: (a) perorally inserting the tool into the esophagus, wherein the tool comprises a nipple and a crown; (b) engaging the nipple into an annular body of the prosthesis, wherein the prosthesis includes a plurality of extended embedment spikes; (c) advancing the crown with respect to the nipple, the crown configured to retract the embedment spikes; and (d) removing the tool and engaged prosthesis from the esophagus. Optionally, the method can include advancing a shield over the spikes to place the spikes into a retracted position.
A further aspect of the invention involves a tool to extract an anti-reflux valve prosthesis from an esophagus. The tool includes: (a) a means for perorally inserting the tool into the esophagus, wherein the tool comprises a nipple and a crown; (b) a mens for engaging the nipple into an annular body of the prosthesis, wherein the prosthesis includes a plurality of extended embedment spikes; (c) a means for advancing the crown with respect to the nipple, the crown configured to retract the embedment spikes; and (d) a means for removing the tool and prosthesis from the esophagus. Optionally, the tool can include means for advancing a shield over the spikes to place the spikes into a retracted position.
An alternate embodiment of the invention is an anti-reflux valve prosthesis for peroral implantation in the esophagus, comprising an annular body preferably made of a biologically inert polymer, a valve depending from the annular body for allowing orthograde passage therethrough and inhibiting retrograde passage of gastric contents, and a plurality of substantially rigid spikes spaced along a circumference of the annular body adjacent one end thereof and extending radially outwardly from the annular body. Each spike has a tip at a free end thereof and a base at the other end attached to the annular body. Each spike is temporarily inwardly bendable for implantation and has memory to return to the radially outwardly extending position.
Another aspect of the invention is the provision of a tool for implanting the anti-reflux valve prosthesis of this alternate embodiment wherein the annular body is internally threaded and the spikes are attached to a proximal end of the annular body. The tool includes an inner tube, a nipple secured to a distal end of the inner tube for releasably threadably coupling the annular body, and a handle secured adjacent to a proximal end of the inner tube for manipulation thereof. An overtube is slidable along and receives the inner tube. A handle is secured to a proximal end of the overtube for manipulation. A shield is attached to a distal end of the overtube. The shield is longitudinally movable between a first position for receiving the fixation spikes in the inwardly bent configuration during peroral insertion into the esophagus, a second position for releasing the fixation spikes, and a third position for facilitating return of the fixation spikes to the memory position.
Another aspect of the invention is a method of using the tool just described for implanting the anti-reflux valve prosthesis. The method comprises: (a) threadably engaging the nipple in the annular body; (b) bending the spikes inwardly and positioning the shield in the first position over the spikes; (c) perorally inserting the valve prosthesis into the esophagus near the gastroesophageal junction; (d) while holding the valve prosthesis in place, moving the shield into the second position to release the spikes to return to the memory position; (e) optionally moving the shield into the third position to facilitate return of the spikes into the memory position to facilitate engagement of the spikes in a wall of the esophagus; (f) rotating the inner tube with respect to the annular body to uncouple the nipple; and (g) withdrawing the tool from the esophagus.
A further aspect of the invention is a tool for extracting the anti-reflux valve prosthesis of the alternate embodiment wherein the annular body is internally threaded and the spikes are attached to a proximal end of the annular body. The tool includes inner and outer concentric tubes, a nipple secured to a distal end of the inner tube for threadably coupling the annular body, and a handle secured adjacent to a proximal end of the inner tube for manipulation thereof. The inner tube and the outer tube are in threaded interengagement for advancement of the outer tube by rotating the outer tube with respect to the inner tube. A crown is secured to a distal end of the outer tube and has a plurality of tangentially projecting shoes disposed on a distal end of respective longitudinal arms spaced along a circumference of the crown in correspondence with the spikes for bending the fixation spikes inwardly. An overtube has a shield of enlarged diameter at a distal end. The overtube is slidable over the outer tube to receive the plurality of inwardly bent spikes within the shield to inhibit laceration of the esophagus during movement of the prosthesis.
A still further aspect of the invention is a method of using the tool just described for extracting the anti-reflux valve prosthesis. The method includes: (a) perorally inserting the tool into the esophagus and threadably engaging the nipple in the annular body of the prosthesis; (b) while holding the inner tube in place, rotating the outer tube with respect to the inner tube to advance the crown with respect to the nipple, engage the spikes with the shoes and bend the fixation spikes radially inwardly; (c) advancing the overtube to position the shield over the inwardly bent spikes; and (d) withdrawing the tool and the prosthesis from the esophagus.
BRIEF DESCRIPTION OF DRAWINGS
As exemplified by the figures wherein like numerals refer to like parts, the present invention provides a peroral prosthesis system for treatment of gastroesophageal reflux disease (GERD) in a patient comprising an anti-reflux valve prosthesis, a peroral implantation tool for perorally inserting and positioning the valve prosthesis at the distal end of the lumen of the esophagus and implanting or fixing the valve prosthesis to the lumen wall, and a peroral extraction tool for removing the prosthesis.
Referring to
The annular body 14 is made from a biologically inert material such as TEFLON, fluorinated ethylene-propylene copolymer (FEP) or polytetrafluroethylene (PTFE), or the like, and serves as a mounting ring for the sleeve valve 12, carrying an array of fixation spikes 18, preferably at an upper or proximal end thereof. The main portion of the body 14 can have a pair of grooves 20 formed in the exterior surface near the distal or lower end to facilitate retention of the rings 16 and form a seal between the valve 12 and the body 14. A shoulder 21 is formed in the exterior surface near the proximal end of the main body to serve as a keeper to lock the spikes 18 in position for fixation, as discussed in more detail below.
The main portion of the annular body 14 can be internally threaded, for example, with special acme right hand threads 22 that are relatively large with a high pitch and rounded or contoured bottoms to facilitate threaded engagement for implantation and extraction, and also to inhibit the retention and accumulation of swallowed material as it passes through. For example, the threads 22 are formed in one preferred embodiment with the dimensions given for medium size threads (7 threads per inch) for rolled threads for screw shells of electric sockets and lamp bases, American Standard, in the Machinist″s Handbook. The inside diameter of the annular body 14 should be large enough so as to facilitate the orthograde passage of food and liquids through the esophagus, e.g. about 25 mm. The outside diameter of the annular body 14, especially at the shoulder 21, should be sufficiently large to seat firmly in the esophagus with some slight stretching of the lumen wall to facilitate the formation of a fluid-tight seal therewith.
The spikes 18 are evenly spaced along the circumference of the annular body 14 as best seen in
With reference to
The outer tube 104 is provided with a proximal handle 116 and a distal headpiece 118. The outer tube is threadedly connected to the inner tube 102 at threaded section 120, which preferably has left-handed or opposite-direction standard threads. The headpiece 118 has a relatively enlarged outside diameter 122 so as to bend the fixation spikes 18 outwardly as the outer tube is advanced along the inner tube 102 by counterclockwise rotation of the outer tube 104 while the inner tube 102 is held stationary. The left-handed threads ensure that the rotation of the outer tube 104 does not tend to turn the prosthesis 10. The headpiece can have a recess 124 formed in a distal end surface to shoulder the proximal end 112 and ensure that the fixation spikes are fully deployed and locked in place.
If desired, the tool 100 can be provided with a passageway to apply vacuum adjacent the prosthesis to draw the lumen wall inwardly and facilitate penetration of the spikes 18. The headpiece 118 is provided with a plurality of transverse passages 126 in communication with an annulus defined by the inside diameter of the headpiece 118, the outside diameter of the inner tube 102, and opposing O-ring seals 128 on either side thereof. A transverse bore 130 is formed in the inner tube 102 in fluid communication between the annulus and the central passageway 113. A vacuum hose 132 connects the proximal end of the central passageway 113 to a conventional vacuum source.
With reference to
The outer tube 204 is provided with a proximal handle 216 and a distal crown 218. The outer tube 204 is threadedly connected to the inner tube 202 at threaded section 220, which preferably has left-handed or opposite-direction standard threads. As best seen in
The overtube 205 is slideabe over the outer tube 204, and is provided with a proximal handle 226 and a distal shield 228. The shield 228 has a frustoconical section 230 flared outwardly from a small diameter adjacent the overtube 205 to a maximum diameter adjacent to a relatively short cylindrical section 232 at a free distal end thereof. The diameter of the cylindrical section 232 is larger than the diameter of the crown 218, but less than the diameter of the deployed spikes 18 to house the spikes 18 during retraction of the prosthesis 10 from the esophagus.
To use the insertion tool 100 to implant the prosthesis 10, the prosthesis 10 is threaded onto the nipple 106 of the insertion tool 100 as shown in
Holding the inner tube 102 and the prosthesis 10 in place, the headpiece 118 is advanced by rotating the outer tube 104 counterclockwise to push the spikes 18 outwardly until the enlarged diameter 112 shoulders into the recess 124 and the arms 30 are locked into place in cooperation with the shoulders 21. If desired, the vacuum source can be connected and actuated for a brief period to draw in the lumen of the esophagus and facilitate penetration of the spikes 18, which preferably perforate the esophagus E. The inner tube 102 is then rotated counterclockwise to release the threaded engagement with the prosthesis 10 and the tool 100 is retracted, leaving the prosthesis 10 in place.
As seen in
As best seen in
Once placed in the desired location within the esophagus, the overtube 418 and shield 422 are retracted to release the spikes 402 (See
In the event that it is desired to remove the prosthesis 410, the extraction tool 426 of
While the above description contains many specifics, these should not be construed as limitations on the scope of the invention, but rather as exemplifications of preferred embodiments thereof. Many other variations are possible, which would be obvious to one skilled in the art. Accordingly, the scope of the invention should be determined by the scope of the appended claims and their equivalents, and not just by the illustrative embodiments.
Claims
1. (canceled)
2. (canceled)
3. (canceled)
4. (canceled)
5. (canceled)
6. (canceled)
7. (canceled)
8. (canceled)
9. (canceled)
10. (canceled)
11. (canceled)
12. (canceled)
13. The method of claim 36, wherein the prosthesis comprises:
- an annular body;
- a valve depending from the annular body, said valve allowing orthograde passage therethrough and inhibiting retrograde passage of gastric contents; and
- wherein said plurality of retractable spikes are spaced along a circumference of the annular body adjacent one end thereof.
14. The method of claim 13 wherein said valve is a sleeve valve.
15. (canceled)
16. (canceled)
17. (canceled)
18. The method of claim 13 wherein each of the spikes include a tip at a free end thereof and a base attached to the annular body.
19. The method of claim 18 wherein a dog is formed between the base and the tip of each of the spikes.
20. The method of claim 19 wherein a plurality of keepers are positioned on an exterior surface of the annular body for receiving the dogs and locking the spikes in a deployed alignment.
21. The method of claim 13 wherein each of the spikes is outwardly bendable at the base between a retracted alignment during said postioning and a deployed alignment following said deployment.
22. The method of claim 21 wherein said retracted alignment is generally longitudinal.
23. The method of claim 21 wherein said deployed alignment is generally radially outward.
24. (canceled)
25. (canceled)
26. The method of claim 14 wherein the annular body is internally threaded.
27. The method of claim 13 wherein the valve is implanted to relieve symptoms of a patient with Gastroesophageal reflux disease.
28. The method of claim 27 wherein the patient does not suffer from esophageal cancer.
29. The method of claim 36, wherein the prosthesis includes an annular body and retractable radial spikes therefrom, and wherein the tool comprises:
- an inner tube and an outer tube, said tubes being generally concentrically aligned;
- a nipple secured to a distal end of the inner tube, the nipple configured to be releasably coupled with the annular body during said positioning; and
- the headpiece secured to a distal end of the outer tube to engage the retractable spikes and outwardly extend them into position during said deployment by advancing the headpiece into abutment with the nipple.
30. The method of claim 29 wherein the outer tube is configured to be advanced or retracted as the outer tube is rotated with respect to the inner tube.
31. The method of claim 30 said tool further comprising a handle, said handle being secured adjacent to a proximal end of the inner tube for manipulation thereof.
32. The method of claim 31 said tool further comprising a second handle secured adjacent to a proximal end of the outer tube to facilitate rotation of the outer tube with respect to the inner tube.
33. The method of claim 29 further comprising viewing the esophagus through a fiber optic cable disposed within a central longitudinal passage of the inner tube.
34. The method of claim 29 wherein the headpiece includes a plurality of transverse passages formed therein in communication with a transverse bore in a wall of the inner tube and a central longitudinal passage.
35. (canceled)
36. A method for using a tool to perorally implant an anti-reflux prosthesis in an esophagus, the method comprising the steps of:
- mounting the anti-reflux valve prosthesis onto a headpiece of the tool;
- positioning the anti-reflux valve prosthesis in the esophagus;
- deploying a plurality of radial spikes of the prosthesis;
- pulling a vacuum across a longitudinal passage of the tool; and
- drawing a lumen of the esophagus inwardly to facilitate impaction of the spikes.
37. The method of claim 36 wherein the headpiece is configured to be removable and replaced with a crown, the crown configured to assist in the peroral removal of the prosthesis from the esophagus.
38. (canceled)
39. A method for implanting an anti-reflux valve prosthesis in an esophagus, the method comprising the steps of:
- perorally inserting and positioning the anti-reflux valve prosthesis into the esophagus;
- deploying a plurality of spikes, the spikes depending radially from the anti-reflux prosthesis; and
- impaling the esophagus upon the spikes to hold the prosthesis in place.
40. The method of claim 39 further comprising using a vacuum to assist in impaling the esophagus upon the spikes.
41. (canceled)
42. (canceled)
43. (canceled)
44. (canceled)
45. (canceled)
46. (canceled)
47. (canceled)
48. (canceled)
49. (canceled)
50. (canceled)
51. (canceled)
52. (canceled)
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58. A method for using a tool for implanting an anti-reflux valve prosthesis, wherein
- (A) the prosthesis comprises (1) an internally threaded annular body comprising a biologically inert polymer, (2) a valve depending from the annular body for allowing orthograde passage therethrough and inhibiting retrograde passage of gastric contents, and (3) a plurality of substantially rigid spikes spaced along a circumference of the annular body adjacent a proximal end thereof and extending radially outwardly from the annular body, each spike comprising a tip at a free end thereof and a base at the other end attached to the annular body, wherein each spike is temporarily inwardly bendable for implantation and has memory to return to the radially outwardly extending position, and
- (B) the tool comprises (1) an inner tube, (2) a nipple secured to a distal end of the inner tube for releasably threadably coupling the annular body, (3) a handle secured adjacent to a proximal end of the inner tube for manipulation thereof, (4) an overtube slideable along and receiving the inner tube, (5) a handle secured to a proximal end of the overtube for manipulation thereof, and (6) a shield attached to a distal end of the overtube longitudinally movable between a first position for receiving the fixation spikes in the inwardly bent configuration during peroral insertion into the esophagus, a second position for releasing the fixation spikes, and a third position for facilitating return of the fixation spikes to the memory position,
- comprising the steps of: threadably engaging the nipple in the annular body; bending the spikes inwardly and positioning the shield in the first position over the spikes; perorally inserting the valve prosthesis into the esophagus near the gastroesophageal junction; while holding the valve prosthesis in place, moving the shield into the second position to release the spikes to return to the memory position; optionally moving the shield into the third position to facilitate return of the spikes into the memory position to facilitate engagement of the spikes in a wall of the esophagus; rotating the inner tube with respect to the annular body to uncouple the nipple; and withdrawing the tool from the esophagus.
59. The method of claim 58 further comprising moving the shield into the third position to facilitate return of the spikes into the memory position to facilitate engagement of the spikes in a wall of the esophagus.
60. (canceled)
61. (canceled)
62. (canceled)
63. (canceled)
Type: Application
Filed: Oct 21, 2005
Publication Date: Feb 23, 2006
Applicant: Reflux Corporation (Houston, TX)
Inventors: Thomas Taylor (Houston, TX), Frank Weeden (Houston, TX)
Application Number: 11/255,258
International Classification: A61F 2/04 (20060101);