Patent Application
20240197322
The invention is directed to apparatus and a method for anastomosis of the stomach and bowel, for example, using such an apparatus for the treatment of obesity and/or diabetes of a patient. Some non-limiting aspects relate to an endoscopic apparatus and method.
It is known in the prior art to use minimally-invasive implantable devices for the treatment of obesity and diabetes which hinder parts of the intestines, particularly the duodenum, from absorbing nutrients.
Many minimally-invasive implants suffer from the problem that the stomach and bowel and especially the pylorus are a very active area of the digestive tract. Therefore, some implants can be shifted or misaligned and/or only provide a short term solution.
A minimally-invasive permanent solution for the treatment of obesity has been proposed. A possible solution is offered by bypassing a portion of the intestines like the duodenum in order to address nutrient uptake.
Bypassing a portion of the intestine without laparoscopic surgery allows obese patients a faster recovery without external and abdominal incisions or scarring and wound infections. However, significant technical challenges remain in conducting minimally-invasive surgery in a safe and effective manner, without risk of injury to adjacent tissue or important organs, without risk of tearing tissue of the stomach or bowel, and without risk of post-operative leakage from the gastro-intestinal tract.
It would be desirable to address one or more of the above issues.
Aspects of the invention are defined in the claims.
In a first aspect, the invention provides apparatus for endoscopic anastomosis of the stomach and the bowel of a patient to allow food to bypass the duodenum and optionally a portion of the jejunum. The apparatus may optionally be configured to facilitate an endoscopic procedure, through only a single (e.g. natural) body orifice.
The apparatus comprises one or more of: a tube insertable into the stomach, the tube having a proximal end and a distal end; surgical apparatus which is deployable at the distal end of the tube and is at least partially, preferably completely, insertable through the tube; and/or at least one operating element connected or connectable to the surgical apparatus for operating the surgical apparatus from the proximal end. The surgical apparatus is configured for establishing anastomosis between a first area of the stomach and a second area of the bowel.
The distal end refers to the insertable end of the apparatus at which the surgical apparatus is deployable.
The proximal end refers to the end opposite to the distal end, which the surgeon will operate during the minimally invasive anastomosis procedure.
The apparatus is preferably insertable through a patient's natural body orifice, preferably the mouth.
The operating element preferably comprises an internal tube which can be arranged concentrically inside the tube.
The tube and/or internal tube preferably comprise an opening in the region of the distal end and an opening in the region of the proximal end which are connected by a channel or a cavity.
The surgical apparatus is preferably partially insertable into the tube or internal tube.
In particular preferably the surgical apparatus is completely movable through the tube or internal tube.
The operating element is preferably concentrically enclosed by the tube.
At least parts of the operating element are preferably movable relative to the tube along or rotatable around the longitudinal direction of the tube.
The surgical apparatus is preferably designed to establish close contact of the first area of the stomach and second area of the bowel.
The apparatus preferably comprises at least one imaging element, in particular a radiopaque and/or metallic element, preferably located at the distal end of the tube and/or operating element.
The tube and/or internal tube are preferably radially essentially immovable so that the cavity cannot be blocked by bending of the tube and/or internal tube.
The tube and/or internal tube may comprise materials such as stainless steel, titanium, platinum, iridium, barium, tungsten and/or plastics, in particular thermoplastics such as silicones, polyetheretherketone, polyamides, fluoropolymers, polyvinylchloride and/or polyurethane.
The apparatus is also preferably hydrophilic due to a coating. This makes insertion into a body passage easier and atraumatic. Furthermore, the coating increases the sliding properties of the apparatus.
Additionally or alternatively to any of the above, the surgical apparatus can comprise a cutting device for cutting tissue, optionally a cutting device which is rotatable in the direction along the circumference of the tube, and in particular optionally allows for the removal of tissue from the first area of the stomach and/or the second area of the bowel through the tube.
Preferably the cutting device is arranged or arrangeable concentrically around the longitudinal axis of the tube.
The cutting device can be suitable for cutting through the edges of the first area and/or second area. Multiple cutting devices can be conceived for cuts with different lateral profile sizes.
The cutting device can preferably cut only the outer edges of the first area and second area. A cut along the edges allows an easier removal of cut tissue through the tube.
The operating element preferably comprises a control element for operating the cutting device.
The control element and/or operating element are preferably torsionally stiff.
Torsionally stiff means that the transmission of torque is preferably substantially 1:1. Thus, the control element is preferably configured such that rotation in at least one direction of the control element at the proximal end through an angle results in substantially the same rotation through the angle at the distal end. Thus, the control element and/or operating element can be rotated from the proximal end.
Additionally or alternatively, the operating element may be axially movable. The apparatus may comprise a mechanism for translating rotation movement to linear movement, or vice versa.
Additionally or alternatively to any of the above, the cutting device can be convertible between (i) a stowed configuration for introduction to the first and/or second area, the stowed configuration having a first lateral profile about an axis of the tube; and (ii) a deployed configuration for operative cutting of tissue, the deployed configuration having a second lateral profile about an axis of the tube larger than the first lateral profile.
The second lateral profile may have a predetermined size (e.g. a fixed size). The cutting device may be configured to cut tissue when in the deployed configuration of predetermined (e.g. fixed) size.
The cutting device (optionally of a type deployable to a laterally larger deployed configuration) may be mounted on a shaft, for example, a hollow shaft. The cutting device may be configured for cutting a closed loop shape aperture in tissue. Optionally the closed-loop shape extends around an axis of the shaft and/or around an axis of the tube.
The cutting device, when deployed for cutting, may have a cutting element and/or cutting surface facing towards the distal end of the tube. Additionally or alternatively, the cutting device, when deployed, may be configured for cutting tissue in a cutting direction towards the distal end of the tube.
Howsoever the cutting device is implemented, the control element can comprise means for converting the cutting device into the deployed configuration and stowed configuration and separate means for operating the cutting device once deployed.
The cutting device is preferably reversibly convertible from the stowed configuration to the deployed configuration.
A selectively convertible cutting device can preferably be stowed inside the tube and/or internal tube in the stowed configuration.
The enclosed area by the lateral profile of the cutting device in the deployed configuration is optionally at least twice, optionally at least three times, optionally at least four times, the enclosed area of the lateral profile in the stowed configuration.
The lateral profile of the cutting device is preferably radially expanded from the longitudinal axis of the tube in the deployed configuration and radially collapsed in the stowed configuration.
The deployable cutting device can allow for a greater lateral profile cutting area than the lateral profile of the tube which has to be small enough to be inserted through the oesophagus.
The cutting device is preferably radially expandable in a closed-loop shape in particular preferably a circular or elliptical shape.
The cutting device may optionally comprise a reversibly rollable blade element that is convertible between an unrolled state and a rolled-up state. The blade element can assume a predetermined size and/or shape, preferably a circular shape, outside the tube in the deployed configuration and can be placeable in the cross-section of the tube in the stowed configuration. In the stowed configuration the blade element can have a spiral lateral profile. The cutting device may be formed from only one blade element.
The rollable blade element can preferably be converted from the stowed to the deployed configuration and vice versa by means of the control element.
It is conceivable that the cutting device is composed of at least two segments which are only functional when the cutting device is converted to the deployed configuration. For example, the cutting device may comprise segments that collapse into an overlapped space-saving configuration, and deploy side-by-side in a larger shape.
A cutting device is conceivable which can be converted to the second lateral profile only by rotational movement relative around the longitudinal axis of the tube. For example, the cutting device may collapsible by winding into a spiral shape, and deployable by unfurling the spiral.
A cutting device can be conceived that is only moving in radial direction to the tube when being converted from the stowed configuration to the deployed configuration and vice versa.
As an alternative to a cutting device a dilatation element is also conceivable, in particular for the dilation of the stomach.
The cutting device can comprise at least one holding device. The holding device can restrict and/or guide radial expansion of the cutting device to a predetermined size when entering the deployed configuration, and/or guide radial collapsing of the cutting device to the collapsed configuration.
The holding device can comprise a detachable and/or releasable latch. The latch preferably latches when the predetermined size of the cutting device through expansion is reached.
The latch is preferably releasable by rotation and/or translation of means of the control element.
Howsoever, the cutting element is implemented, the cutting device can be configured for cutting tissue from a first side, and the apparatus further comprises a counter element deployable on an opposite second side of the tissue. Optionally, the counter element may serve and/or be configured to (i) protect surrounding tissue on the second side from the cutting device, and/or (ii) provide a cutting board for the cutting device, and/or (iii) co-operate with the cutting device to capture cut-out tissue for removal through the tube.
Protecting adjacent tissue can provide significant advantages in terms of safety for the patient. When cutting tissue, there is less risk of injury, because the operative portion of the cutting element can be covered or shrouded by the counter element.
By fixing the tissue from both sides, the incision is not dependent on the skills of a surgeon and the surrounding tissue can be protected.
In some embodiments, the cutting device is positioned distally of the counter element, at least in the deployed configuration of the cutting device.
The tube's lateral profile can be larger than a lateral profile of a cut by the cutting device. The tube can preferably be designed to cover an incision by the cutting device in the first area protectively. Leakage of fluid from and into the stomach can preferably be prevented.
The tissue to be cut is preferably clamped by the surgical apparatus so that a cutting movement with the cutting device only comes into contact with the tissue to be cut. Force transmission to surrounding tissue is preferably optimized by applying pressure to the tissue.
The counter element can be convertible between (i) a stowed configuration for introduction to the first and/or second area, the stowed configuration having a first lateral profile about an axis of the tube; and (ii) a deployed configuration having a second lateral profile about an axis of the tube larger than the first lateral profile.
In some embodiments, this enables the counter element to be passed through a small aperture to an opposite side of the tissue, and deployed on the opposite side, without risk of tearing the tissue.
The counter element can preferably be arranged and/or is arrangeable concentrically to the tube, preferably at the distal end of the tube. The counter element in the deployed configuration preferably encloses at least the same area as the second lateral profile of the cutting device.
The counter element can be connected or connectable to the cutting device.
The counter element can be connected or connectable to the distal end of the tube and/or operating element.
The counter element can preferably convert from the stowed configuration to the deployed configuration and vice versa by means of the operating element.
The conversion can be carried out by a translational movement along the longitudinal axis of the operating element and/or a rotation along the circumference or profile of the operating element. The counter element in the deployed configuration can be unfolded and/or expanded and the counter element in the stowed configuration can be folded and/or contracted.
The counter element in the stowed configuration can preferably be inserted and exerted through the tube and/or internal tube.
The cutting device can comprise a knife element and/or a piercing element and/or an electrical or optical ablation element. The cutting element may be movable during cutting, in a rotary movement following a curvature and/or in an axial direction.
Rotation of means of the control element optionally allows a rotation of the cutting device. The rotation of means of the control element can in particular preferably cause helical rotation of the cutting device along the longitudinal axis of the apparatus.
A cutting device that cuts point by point is also conceivable.
In particular a cutting device using electrical ablation, for example, radiofrequency ablation, is conceivable. A cutting device using radiofrequency or microwave ablation preferably allows for a less traumatic procedure.
A point by point cutting device is preferably rotatable around a longitudinal axis of the control element in a closed-loop, in particular preferably in a circular or elliptical manner.
The apparatus can comprise a cutting device for cutting the first area and a cutting device for cutting the second area. The circumference or lateral profile of the cutting device for the first area of the stomach is preferably smaller than the circumference or lateral profile of the cutting device for anastomosis between the first area and second area.
Additionally or alternatively to any of the above, the apparatus can comprise at least one insertable element insertable through a tissue wall at the first and/or second area, the insertable element having a stowed configuration for introduction through the tissue wall, and being expandable to a deployed configuration for overlapping, at least partially tissue of the tissue wall.
The surgical apparatus can comprise the insertable element. The deployed configuration and a stowed configuration of the insertable element can be reversibly converted into each other by means of the operating element.
The insertable element in the deployed configuration can be rotated, unfolded and/or expanded. The insertable element in the stowed configuration can be rotated reversely, folded and/or contracted. An at least partially inflatable and deflatable insertable element could also be conceived.
The cross-section of the insertable element in the deployed configuration preferably encloses at least the same area as the second lateral profile of the cutting device.
In the stowed configuration the insertable element can be inserted through smaller openings of tissue. The entry opening can therefore be smaller and the apparatus can allow a less traumatic and/or invasive surgical procedure, with less risk of tearing tissue.
The insertable element is preferably convertible from the deployed configuration to the stowed configuration by rotational and/or translational movement of the operating element from the proximal end of the apparatus.
The insertable element in the deployed configuration preferably has an increased radial or lateral dimension. In particular preferably the insertable element can have a greater cross-sectional surface area in the deployed configuration.
The insertable element can preferably protectively cover punctured tissue in the deployed configuration and prevent leakage.
The operating element may comprise an extension element which is attached to the insertable element. It is conceivable that the extension element can convert the insertable element from the deployed configuration into the stowed configuration and vice versa.
In one conceivable embodiment, retraction of the extension element can press the insertable element against a counter element or the operating element so that the insertable element assumes the stowed configuration.
Extension of the extension element can convert the insertable element into the deployed configuration.
The insertable element may comprise stainless steel, titanium, nickel titanium, tungsten, a fluoropolymer layer, thermoplastics, especially polyetheretherketones.
The counter element can preferably be placed in the proximal direction of the insertable element.
The cross-section profile area of the counter element in the deployed configuration is preferably equal to at least that of the cross-section profile area of the insertable element in the deployed configuration.
The insertable element can be movable relative to the tube from a distal end of the tube, preferably in the longitudinal direction of the tube. The insertable element is preferably movable by rotation or translation movement of the operating element.
The insertable element is preferably movable relative to the remainder of the apparatus by the operating element.
The internal tube or complete operating element is preferably also movable relative in the longitudinal direction of the tube.
The operating element can be inserted through the first area of the stomach.
The insertable element can preferably be converted into the deployed configuration after introduction through a tissue wall.
The insertable element is preferably pullable or retractable in the deployed configuration so that the second area can be pulled towards the first area to establish close contact.
The insertable element can be folded radially outward from the longitudinal axis of the tube from the stowed configuration into the deployed configuration, preferably in an umbrella shape, in particular preferably folded around a fixed point at the distal region of the insertable element.
An insertable element in the stowed configuration can be conceived that increase in lateral profile width from its distal end to the proximal end.
The distal region of the insertable element in the stowed configuration can comprise a second cutting device for piercing and/or cutting tissue.
The cut area of tissue by piercing with the second cutting device is preferably smaller than the cut area of tissue by the cutting device.
The second cutting device can preferably be used for piercing and/or cutting by translational movement in a direction parallel to the longitudinal axis of the apparatus.
The insertable element, being movable relative to the tube, can enable the insertable element to pierce tissue of the stomach and/or bowel in the stowed configuration with the second cutting device.
The insertable element can also be conceived to comprise the cutting device at its proximal end.
It would be conceivable cutting with the insertable element would be mechanically operable by pulling and/or rotating the insertable element, preferably by means of the operating element.
A combination of at least two of:
By enclosing tissue with the counter element and insertable element the tissue can preferably be cut in a section of the first area and/or second area.
The cutting device can be located in between the counter element and the insertable element. The cutting device can also be located on the distal end of the counter element and/or the proximal end of the insertable element.
The lateral profile of the cutting device in the deployed configuration can correspond essentially to the diameter of the anastomosis to be obtained. The anastomosis to be obtained is preferably large enough to replace the function of the pylorus. Hence, the diameter of a preferably circular cutting device for establishing the anastomosis is preferably between 1 cm and 6 cm.
The pylorus can preferably be sutured or stapled shut after the procedure so that food can be drained exclusively through the anastomosis. In order to account for missing muscles like the pyloric sphincter at the anastomosis the anastomosis preferably has a greater lateral area than the pylorus.
The insertable element, the counter element and/or the cutting device can be designed to hold the removed tissue and remove it through the tube.
The insertable element can preferably cover a cut in proximal direction when in the deployed configuration. For this reason the insertable element is preferably foldable radially outward from the longitudinal axis of the tube. The insertable element can preferably prevent fluid from passing through the point of entry of the insertable element.
The insertable element can comprise a concave curvature, preferably in the deployed configuration. The insertion element can preferably cover the entry opening in the tissue with the concave curvature on the tissue.
The operating element can comprise a folding device.
The insertable element is preferably foldable around a fixed point at the distal region of the insertable element by the folding device, such as hinges.
The folding device can preferably be operated from the proximal end of the apparatus to convert the insertable element from the deployed to the stowed configuration.
The insertable element in the stowed configuration can preferably be placed inside the operating element or internal tube.
The apparatus can comprise an implantable stent comprising a non-return mechanism convertible between an open state and a closed state. The closed state can prevent passage of fluid and an open state can enable crossing of fluid. The implantable stent can comprise a non-return valve which can enable only one-directional passage of fluid.
In the area of the digestive tract, many movements and dilations are necessary for nutrient absorption and digestion. A nonreturn mechanism is advantageous so that the sensitive enzymatic and acid balance cannot be negatively affected by the transferral of fluid from the bowel into the stomach and vice versa.
The stent can preferably be placed in vicinity of the anastomosis opening. The stent can be placed at least partially inside the anastomosis opening. The stent is preferably placed inside the anastomosis opening protruding into the stomach and/or the bowel.
In an embodiment to prevent leakage between the stomach and bowel the stent can comprise a balloon which can be filled with a fluid in order to close the anastomosis opening and emptied in order to open the anastomosis opening. The fluid for the balloon is preferably supplied by a fluid reservoir which can be reversibly emptied and filled. The fluid reservoir is preferably placed in the stomach or bowel.
The balloon can preferably selectively be filled and emptied with fluid, preferably by control of an external device.
The non-return valve may comprise at least one sealing element, preferably a flap.
The sealing element of the non-return valve can preferably be pressed into the seal seat by the flow pressure of the flowing fluid from the bowel to the stomach. In an alternate embodiment the non-return valve includes a tubular polymer.
The tubular polymer is preferably insertable directed in the direction of the digestive pathway. The tubular polymer can comprise multiple sealing elements. The sealing elements of the tubular polymer can preferably be located along the inner lateral profile of the tubular polymer. The sealing elements are preferably circular and/or helical.
The tubular polymer can preferably only allow fluid to pass in one direction. The tubular polymer is preferably designed so that a passage can be widened by fluid when passing from the stomach to the bowel. Otherwise, the passage is preferably closed.
The passage of the tubular polymer from the bowel to the stomach can preferably be closed by radial narrowing of the tubular polymer. Radial narrowing of the tubular polymer is preferably optimized by choice of the material, thickness, length, and/or placement in the digestive pathway. The tubular polymer can preferably be crumpled up in order to block the passage of fluid from the bowel to the stomach.
The tubular polymer can comprise silicone, polyurethane, polyester polyethylene terephthalate, fluoropolymer, and/or polyamide.
The apparatus can comprise a pressure device for selectively applying a negative pressure to at least one area in the tube and/or a retaining element in an area at a distal end of the apparatus for retaining a distal end of the apparatus to tissue.
The pressure device can apply a negative pressure creating suction on the distal end of the tube and/or operating element. In particular the pressure device can preferably apply a pressure in a cavity of the operating element, in particular preferably at the opening of the internal tube.
The distal end of the apparatus can be removably attachable to the targeted tissue in the first area and/or second area through the pressure device.
Through attachment of the apparatus the cut can be more precise and the risk of injury is minimized.
The tube and/or internal tube are preferably radially stiff so that it is not deformable by the pressure device.
The retaining element can preferably attach to the stomach mucosa and/or the bowel.
In some embodiments, the tube can have a length of 30 cm to 100 cm, in particular 45 cm to 60 cm and a diameter of 4 mm to 20 mm, in particular 6 mm to 14 mm.
The diameter and/or length of the apparatus are preferably at least large enough to extend from a patients mouth to the second area of the bowel for a minimal-invasive procedure.
In addition to or alternatively to any of the above, the apparatus can comprise a fixation device, for example, a suture device and/or a stapling device. The fixation device can be designed to suture and/or staple the outer edges of the first area and the second area, preferably in a predetermined manner, in particular preferably in a circular manner.
A sutured and/or stapled anastomosis may prevent leakage more reliably than a stent, because the movement in the digestive organs can be better accommodated without risk of dislodgement.
The fixation device can be designed to be used on both sides of the tissue to be cut, adjacent to the surface of the tissue, in the first area and/or in the second area.
The fixation device can preferably be arranged in proximal direction behind the entry opening of the tissue or in distal direction in front of the entry opening. The fixation device can be arrangeable connected or connectable to the insertable element, cutting device and/or counter element.
The fixation device can preferably allow for suturing and/or stapling while tissue is clamped by the counter element and the insertable element.
The fixation device can be arrangeable concentrically around the tube.
The fixation device is preferably designed to connect both the first area stomach wall and the second area bowel wall with sutures or staples by puncturing both areas.
The fixation device is preferably insertable and exportable through the tube and/or internal tube.
It is conceivable that the fixation device is rotatable in a circumferential direction to the surgical apparatus.
It can be conceived that the fixation device can be convertible between a stowed configuration and a deployed configuration. The fixation device can have an increased second lateral profile around a longitudinal axis of the tube in the deployed configuration than the first lateral profile in the stowed configuration.
The anastomosis and/or cut-shape and/or fixation (e.g. suture or staple) pattern can have a closed-loop shape that may be circular, or elliptical, or any other closed-loop form, whether symmetric or asymmetric.
In some embodiments, the fixation device can comprise fusing means, wherein the fusing means can be designed to cause fusion of tissue of the first area of the stomach and the second area of the bowel, by applying a pressure and heating, preferably radio-frequency heating, at least on the edges of the first area and the second area.
The fusing means can be designed to exert and/or keep radial force to keep the communication between the stomach and bowel open. The radial force can be applied by expandable elements such as balloons and or mechanical elements such as spikes. The fusing means preferably also comprise means for applying pressure to the tissue walls from both sides of the enclosed tissue.
The fusing means can preferably prevent leakage of the fused tissue interface.
Additionally or alternatively to any of the above, the device can comprise a second tube. A distal end of the second tube can be guidable from the stomach through the duodenum and connectable with the distal end of the tube across the stomach wall of the first area and the bowel wall of the second area.
The apparatus can comprise a guiding wire, wherein the tube and/or second tube can be advanced along the guiding wire to enclose the first area and/or second area.
The tube and/or second tube can preferably be advanced along the guiding wire by being concentrically arranged around the guiding wire.
As an alternative embodiment a guiding wire is conceivable which can be pierced through the first area and the second area less invasive. A guiding wire preferably only has a diameter of less than 1 mm.
The problem is further solved by a method for endoscopic anastomosis of the stomach and the bowel of a patient to allow food to bypass the duodenum and optionally a portion of the jejunum as previously described.
In a related aspect, the invention provides a method, optionally using apparatus with any one or more of the features described above, the method comprising the following steps:
In a preferred method the pylorus can be closed, for example sutured and/or stapled closed, so that the passage of food through the pylorus is no longer possible. All the ingested food must pass through the digestive tract, preferably through the anastomosis opening.
Finally, the apparatus can be removed from the patient's orifice, preferably the oesophagus.
In any of the above aspects, the apparatus may be configured, or the method performed, to create the anastomosis by insertion of the apparatus into the body via a single orifice. The single orifice may be a natural body orifice, for example, a mouth. Performing the procedure uniquely endoscopically, and avoiding the need for additional orifices, can enable the procedure to be less invasive than compared to multiple orifices used for laparoscopic surgery. In other embodiments, the apparatus may be used in combination with other laparoscopic tools.
Non-limiting embodiments of the invention are now described, by way of example only, with reference to the accompanying schematic drawings, in which:
Referring to the drawings,
As shown in
Once the second area is located the operating element 5 can apply a negative pressure to attach the apparatus 101 to the second area and pierce it with a piercing element 11.
In
In
The operating element 5 and the insertable element 12 in the deployed configuration 14 can be pulled or retracted to bring the first area and second area into close contact. The insertable element 12 in the deployed configuration 14 serves to protect the enclosed and surrounding tissue and can prevent leakage. The cutting device 6 can be used to cut-out the clamped tissue between the insertable element 12 and the counter element 9.
As seen in
By clenching the tissue wall 25 before engaging in the cutting process the cutting can be performed non-traumatically for the surrounding tissue.
The cutting device 6 can be arranged on the proximal side of the insertable element 12 in the deployed configuration 14 or on the distal side of the counter element 9 in the deployed configuration (not shown in
In this embodiment the fixation (e.g. suturing and/or stapling) device 15 is located on the insertable element 12 and allows for suturing the tissue wall 25 in the deployed configuration 14. It would also be conceivable that the fixation device 15 is located on the distal end of the counter element 9. As illustrated in
The counter element 9 and the insertable element 12 are designed to enclose tissue concentrically around the entry opening 31. The cutting device can cut-out a section of the enclosed first and/or second area tissue walls 25 (not shown in the figures). The cut-out tissue 26 can be clenched between the insertable element 12 and the operating element 5 in order to be removed through the tube.
The fusing means 20 are designed to cause the fusion of tissue by applying a compressive force and heating.
The one or more pleats 82 may extend in a direction that is generally (i) from top to bottom of the stomach, and/or (ii) from the oesophagus to the pylorus. Such pleats 82 can form a generally sleeve shape cavity or passage in the stomach.
It will be appreciated that the foregoing description is merely a non-limiting description of illustrative examples of the invention, and does not limit the scope of protection. Protection is claimed for any novel feature and/or idea described herein and/or illustrated in the drawings, whether or not emphasis has been placed thereon.
| Number | Date | Country | Kind |
|---|---|---|---|
| 21165399.3 | Mar 2021 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2022/057913 | 3/25/2022 | WO |
