The present invention is directed to a method and device for fixation of a medical device in a lumen or hollow organ lined with mucosa and, in particular, to an endoscopic technique.
In our U.S. Pat. No. 8,894,670 issued Nov. 25, 2014, entitled MUCOSAL CAPTURE FIXATION OF MEDICAL DEVICE, we disclose a technique for fixing a luminal device in a lumen or hollow organ lined with mucosa against shear forces caused by peristaltic waves tending to cause distal migration. Mucosal capture openings are provided in a wall of the luminal device, and the wall of the luminal device is caused to expand outwardly which tends to cause mucosa to budge into the mucosal capture openings. A retainer may be provided to retain the section of the mucosa within the mucosal capture opening. A vacuum may be applied to assist in capturing the mucosa.
An endoscopic fixation device that is adapted to fix an intraluminal device in a lumen or hollow organ lined with mucosa, according to an aspect of the invention, includes a body having a distal sealing portion. The sealing portion defines a distal surface configured to form a fluid seal with a wall of the intraluminal device. The body defining a suction passage to communicate suction from the endoscope to the distal surface to at least in part draw mucosa into the mucosal capture opening.
The fixation device may include a support portion that has sufficient strength to support the body at a distal end of an endoscope. The support portion may be generally rigid. The sealing portion may be pliant. The distal surface may be at an angle to the axis of elongation of the endoscope. The angle may be between approximately 30 degrees and approximately 60 degrees and may be about 45 degrees.
The body may provide a generally unobstructed visual passage to visualize the mucosal capture opening. The suction passage may be defined by a generally tubular member with the visual passage extending through the generally tubular opening. The suction passage may be defined by a generally tubular member with the visual passage being around the tubular member. The generally tubular member may be supported at the suction channel of the endoscope and the visualization channel of the endoscope being outside of the tubular member to define the visual passage. The generally tubular member may form an interference fit with the suction channel of the endoscope.
The fixation device may include a band dispenser that is configured to dispense at least one band around mucosa extending through the mucosal capture opening. The band dispenser may be configured to dispense multiple bands, each around mucosa extending through a different mucosal capture opening. The band dispenser may be operable through a channel in the endoscope. The band dispenser may include a band support area. The band support area may be at an interface with the distal end portion of the endoscope.
The fixation device may be combined with one or more bands that are configured to maintain perfusion in a mucosa extending through the mucosal capture opening. The band(s) may have a generally circular cross section. The band(s) may have a cross section with an enlarged portion in order to resist passing of the band through the mucosal capture opening when engaged with mucosa extending through that mucosal capture opening. The fixation device may be combined with a loop application device that is configured to apply a loop around a mucosa extending through the mucosal capture opening.
A method of fixing an intraluminal device in a lumen or hollow organ lined with mucosa, the intraluminal device having a wall and at least one mucosal capture opening in the wall, according to an aspect of the invention, includes positioning the intraluminal device in the lumen or hollow organ lined with mucosa. A fixation device with a distal sealing portion is positioned with the sealing portion against the wall of the intraluminal device generally around the at least one mucosal capture opening. Suction is applied through the fixation device positioned against the wall of the intraluminal device to at least partially draw mucosa into the mucosal capture opening. The mucosa is retained in the mucosal capture opening.
An endoscopic method of fixing an intraluminal device in a lumen or hollow organ lined with mucosa, according to an aspect of the invention, includes positioning the intraluminal device in the lumen or hollow organ lined with mucosa and having a fixation device at a distal end portion of the endoscope. The fixation device includes a body having a distal sealing portion. The sealing portion is positioned against the wall of the intraluminal device generally around a mucosal capture opening. Suction is applied through the endoscope and body to at least partially draw mucosa into the mucosal capture opening. Mucosa is retained in the mucosal capture opening.
The body of the fixation device may have a proximal support portion, such as a generally rigid portion, that has sufficient strength to support the body. The support portion may be attached to the endoscope. The body may define a suction passage in communication with a suction channel of the endoscope to apply suction to the mucosal capture opening. The body may be formed so as to not interfere with visualization of the mucosal capture opening with a visualization channel of the endoscope. The body may define a visual passage along the long axis of the endoscope to visualize the mucosal polyp or the body may be configured to define a visual passage around the body.
The sealing portion may define a distal surface that is at an angle to an axis of the endoscope. The angle may be between approximately 30 degrees and approximately 60 degrees, such as an angle of about 45 degrees. The retaining of the mucosa may include applying a band or loop around the mucosa extending into the mucosal capture opening. A band dispenser may be used to dispense a band and applying the band around mucosa in a mucosa capture opening. The band dispenser may be adapted to dispense multiple bands, each band around mucosa in a different mucosa capture opening. The band dispenser may operate through a channel in the endoscope.
The support portion may have a proximal portion that overlies the distal end portion of the endoscope and the band dispenser dispenses bands from the proximal portion of the rigid portion.
The band or loop may be applied while maintaining perfusion of the mucosa in the mucosal capture opening. The band or loop may be a band with a generally circular cross section. The band or loop may be a band having a non-circular cross section, such as with an enlarged portion in order to resist passing through the mucosal capture opening. Alternatively, the band or loop may be a loop around mucosa in the mucosal capture opening.
These and other objects, advantages and features of this invention will become apparent upon review of the following specification in conjunction with the drawings.
a is a perspective view of another alternative embodiment of a fixation device connected with an end portion of an endoscope;
b and 8c are the same view as
a is a perspective view of another alternative embodiment of a fixation device connected with an end portion of an endoscope;
b is the same view as
Referring now to the drawings and the illustrative embodiments depicted therein, an endoscopic method 10 is useful to fix an intraluminal device 14 in a lumen or hollow organ 12 of a human or animal body that is lined with mucosa (
Intraluminal device 14 has a wall 16 that generally conforms to the size any shape of lumen 12 and one or more mucosal capture openings 18 that are adapted to receive and retain mucosa 20 extending into the mucosal capture opening in order to fix intraluminal device 14 in lumen 12. Such fixation will be discussed in more detail below. The mucosa 20 may be retained in opening 18 by a retainer band or loop 22, or the like, such as that is applied around the mucosa 20 that extends past the mucosal capture opening in order to resist the mucosa from being pulled back through mucosal capture openings 18. Retainer 22 may alternatively be a clip or other pressure component, such as disclosed in U.S. Pat. No. 8,721,528 for an ENDOSCOPE CAP, the disclosure of which is hereby incorporated herein by reference. Retainer 22 is tight enough to prevent polyp 20 from pulling back through openings 18, but not so tight as to cut off perfusion to the mucosal tissue extending into the opening. Retainer 22 may alternatively be a penetrating member that penetrates the mucosa 20. The use of mucosa 20 extending into mucosal capture opening(s) 18 is for the purpose of providing at least temporary fixation of device 14 sufficiently to allow tissue ingrowth to occur in tissue ingrowth openings (not shown) or even in openings 18, as disclosed in commonly assigned U.S. Pat. No. 8,672,831 issued Mar. 18, 2014, entitled BARIATRIC DEVICE AND METHOD, the disclosure of which is hereby incorporated by reference. After tissue ingrowth occurs, in a week or thereabout, the mucosa 20 drawn into mucosal capture openings 18 can slough off with the tissue ingrowth providing a more permanent, or semi-permanent, fixation of the intraluminal device in the lumen or hollow organ. However, because the capture mucosa 20 is retained by retainer 22 in a manner that maintains perfusion of the mucosa, the captured mucosa may, alternatively, provide semi-permanent fixation for longer, if needed, to accommodate temporary placement of intraluminal device 14. Retainer 22 may be made of a resorbable material that is dissolved over time. It should be understood that, in addition to mucosa, some submucosa or even muscularis may be captures in mucosa capture opening 18, but the mucosa is easiest to remove using conventional techniques, such as chemical or electrical ablation or even mechanical force in order to remove intraluminal device 14. In this manner, the intraluminal device can be securely fixed in the lumen or hollow organ but be easily removed without perforating the lumen or hollow organ or otherwise causing significant damage to the tissue thereof. Also, once the mucosa is removed, the submucosa and muscularis should not be sufficient to impede removal of device 14.
As disclosed in commonly assigned U.S. Pat. No. 8,894,670 issued Nov. 25, 2014, entitled MUCOSAL CAPTURE FIXATION OF MEDICAL DEVICE, the disclosure of which is hereby incorporated herein by reference, wall 16 is caused to expand outwardly either by the wall being self-expandable by an inflatable balloon, or the like. The outward expanding wall creates an interference with lumen 12 causing mucosa to bulge into mucosal capture openings 18 in order to at least partially provide fixation of intraluminal device 14. A fixation device 26 is fitted on the distal end of a conventional endoscope 24 in order to further draw mucosa 20 into the mucosal capture opening 18. This is accomplished by fixation device 26 extending a suction passage 38 of endoscope 24 to an individual mucosal capture opening 18 in order to apply suction to the mucosal capture opening. The fixation device does not interfere with a visualization passage 36 of endoscope 24 in a manner that allows the physician to visualize the mucosal capture opening. Once manipulation of the endoscope causes fixation device 26 to be positioned over the opening 18, fixation device 26 forms a seal against wall 16 of intraluminal device 14 around the mucosal capture opening 18. This seal enhances the amount of suction that can be applied to the mucosa. This facilitates the formation of mucosa 20 passing into mucosal capture opening past wall 16. Once the mucosa 20 is drawn through opening 18 past wall 16, a band or loop 22 is applied to the proud mucosa. This causes the mucosa to form an enlarged portion, or head, which tends to keep the band or loop in place. Also, the band or loop in combination with the enlarged head of mucosa 20 tends to resist the mucosa from pulling through the mucosal capture opening 18.
Fixation device 26 has a body 28 made up of a proximal portion 30 and a distal portion 32 both of which are open in order to extend suction passage 38 through the body. Distal portion 32 forms a seal, in the illustrated embodiment, by being pliant and defines a distal surface 34. By pliant is meant that distal surface 34 can be distorted in order to conform to the surface features of wall 16 of the interior of intraluminal device 14 and thereby establish a pneumatic seal around a mucosal capture opening 18 to enhance the suction. Distal surface 34 is at an acute angle with respect to the axis of elongation of endoscope 24 in order to allow distal surface 34 to be seated against the inner wall of intraluminal device 14. In the illustrated embodiment, distal surface 34 is at an angle to the axis of elongation of the endoscope of between about 30 degrees and about 60 degrees and is illustrated at about 45 degrees. However, body 28 allows visual passage 36 to extend to the mucosal capture opening. In the embodiment illustrated in
An alternative embodiment 126 of a fixation device has a pliant distal portion 132 that has outwardly flared bell 133 that provides even further compliance with an inner surface of wall 16 of the intraluminal device around the mucosal capture openings.
An alternative embodiment 226 of a fixation device has a band-dispensing mechanism 240. Mechanism 240 allows multiple circular bands 22 to be dispensed one at a time by an actuator that is operated through a channel in the endoscope. Multiple-band-dispensing mechanisms are known in the art as disclosed in U.S. Pat. Nos. 5,398,844; 6,149,659 and 6,235,040, the disclosures of which is hereby incorporated herein by reference. The benefit of dispensing bands one at a time allows method 10 to be carried out with respect to multiple mucosal capture openings to retain mucosal in the multiple openings without the need to withdraw the fixation device and endoscope from the patient. Alternatively, the mucosa extending through the mucosal capture openings could be retained by an endo-loop device that is commercially available, particularly one that is capable of deploying and cinching a loop through the working channel of the endoscope. Such endo-loop device would be manipulated by the physician in a manner to maintain perfusion in the mucosa passing through the opening.
While conventional ligation band designs of a circular cross section may be used, a band 42 enhances the resistance of the band from being pulled through the mucosal capture opening. This is accomplished by providing a non-circular cross section, such as by enlarging the cross-sectional area of the band. For example, one or more wings 44 may be provided to the band. Other shapes may suggest themselves to the skilled artisan. For example, the band may be heat sensitive to swell in the surface area when exposed to body heat once it is positioned around the mucosa.
Another embodiment of a fixation device 326 is fixed to a distal end of an endoscope 24 (
Another embodiment of a fixation device 426 is similar to fixation device 326 except that it includes a pliant distal portion 432 that is made from a lamella material. A band dispenser 440 includes a transitional portion 443 that angles toward pliant distal portion 432 to assist in dispensing of bands.
Another embodiment of a fixation device 526 includes a body 528 with a rigid portion 530 that forms a connection 544 with the endoscope in the form of a collar that extends over the distal portion of endoscope 24 and forms an interference fit, high friction fit, or the like (
The collar 544 of fixation device 526 is shown in more detail in
Another embodiment of a fixation device 626 includes a body 628 having a generally rigid proximal portion 630 and a seal in the form of a pliant distal portion 632 (
As seen in
An alternative fixation device 726 includes a body 728 having a proximal portion 730 that is similar to proximal portion 630 except that it is retained to the distal end of the endoscope by a bracket 748 that is in the form of a soft clear cover over the distal end of the endoscope (
An alternative fixation device 926 is similar to fixation device 726 except without a band-dispensing mechanism (
While the foregoing description describes several embodiments of the present invention, it will be understood by those skilled in the art that variations and modifications to these embodiments may be made without departing from the spirit and scope of the invention, as defined in the claims below. The present invention encompasses all combinations of various embodiments or aspects of the invention described herein. It is understood that any and all embodiments of the present invention may be taken in conjunction with any other embodiment to describe additional embodiments of the present invention. Furthermore, any elements of an embodiment may be combined with any and all other elements of any of the embodiments to describe additional embodiments.
This application claims the priority benefits of U.S. patent application Ser. No. 61/923,050, filed on Jan. 2, 2014, and U.S. patent application Ser. No. 61/951,088, filed on Mar. 11, 2014, the disclosures of which are hereby incorporated herein by reference in their entirety.
Number | Date | Country | |
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61923050 | Jan 2014 | US | |
61951088 | Mar 2014 | US |