System for Deploying an Implant

Abstract

The invention relates to a system for deploying an implant, optionally a TIPS stent graft, the system comprising a handle, a catheter extending from the handle, the catheter being arranged for holding an implant at an implant holding portion at a distal end of the catheter, an implant retaining sheath, the implant retaining sheath being arranged so as to surround the implant holding portion so as to retain an implant that is arranged at the implant holding portion, a pull tab, the pull tab being connected to the implant retaining sheath so that a proximal pull on the pull tab pulls back the implant retaining sheath so as to release an implant arranged at the implant holding portion, the pull tab further comprising a engagement feature that is arranged on the pull tab and that is moved proximally as the pull tab is moved proximally, the engagement feature being arranged to engage with a first interference feature arranged at a first fixed longitudinal position on the system for deploying the implant, wherein an engagement between the engagement feature and the first interference feature provides tactile feedback to a user of the system that the implant retaining sheath has been pulled back a pre-set distance.

Claims

1. A system for deploying an implant, comprising: a handle, a catheter extending from the handle, the catheter being arranged for holding an implant at an implant holding portion at a distal end of the catheter, an implant retaining sheath, the implant retaining sheath being arranged so as to surround the implant holding portion so as to retain an implant that is arranged at the implant holding portion, a pull tab, the pull tab being connected to the implant retaining sheath so that a proximal pull on the pull tab pulls back the implant retaining sheath so as to release an implant arranged at the implant holding portion, the pull tab further comprising an engagement feature that is arranged on the pull tab and that is moved proximally as the pull tab is moved proximally, the engagement feature being arranged to engage with a first interference feature arranged at a first fixed longitudinal position on the system for deploying the implant, wherein an engagement between the engagement feature and the first interference feature provides tactile feedback to a user of the system that the implant retaining sheath has been pulled back a pre-set distance, further comprising a pull tab withdrawal mechanism, the pull tab withdrawal mechanism being arranged pull the pull tab proximally so as to release an implant arranged at the implant holding portion, the pull tab withdrawal mechanism comprising a thumbwheel coupled to a spindle, the spindle being arranged for winding up the pull tab so as to exert a proximal pull on the pull tab.

2. The system according to claim 1, wherein the tactile feedback is a blocking of further withdrawal of the pull tab.

3. The system according to claim 2, the system further comprising a first release mechanism for selectively releasing the blocking of further withdrawal of the pull tab (16), the first release mechanism optionally being operable by a user operable button.

4. The system according to claim 1, wherein the engagement feature comprises a protrusion that is fixedly provided on the pull tab and wherein the first interference feature comprises an opening provided inside the handle, with the opening being sized so that the protrusion engages with the boundaries of the opening to provide tactile feedback to the user.

5. The system according to claim 1, further comprising a second interference feature that is arranged at a second fixed longitudinal position on the system for deploying the implant, the engagement feature being arranged to engage with the second interference feature so as to provide tactile feedback to the user, wherein the tactile feedback is optionally a blocking of withdrawal of the pull tab.

6. The system according to claim 5, the system further comprising a second release mechanism for selectively releasing the blocking of withdrawal of the pull tab by the engagement between the second interference feature and the engagement feature, the second release mechanism optionally being operable by means of a slider.

7. The system according to claim 5 or 6, the engagement between the second interference feature and the engagement feature corresponding to the implant retaining sheath fully covering the implant holding portion.

8. The system according to claim 1, the system further comprising an implant, optionally a stent graft, more optionally a TIPS stent graft, arranged at the implant holding portion.

9. The system according to claim 8, the implant being a self-expanding implant.

10. The system according to claim 8, wherein the engagement between the engagement feature and the first interference feature corresponds to a partial deployment of the implant.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] FIG. 1 shows a system according to an embodiment of the invention.

[0029] FIG. 2 shows an interior of the handle of the system of FIG. 1 in a first configuration.

[0030] FIG. 3 shows the interior of FIG. 2 and a second configuration.

[0031] FIG. 4 shows an interior of the system of FIG. 1 in a third configuration.

[0032] FIG. 5 shows the steps that can be taken during deployment of a TIPS stent graft.

DETAILED DESCRIPTION OF THE DRAWINGS

[0033] FIG. 1 shows a system for deploying an implant according to an embodiment of the invention. As can be seen from this Figure, a handle 12 is provided that comprises a first component 13 and a second component 15 that are arranged on top of each other and that are connected to one another. At one end of the handle 12, a flexible tip 17 is provided. At the end of the flexible tip 17, a catheter 14 that is suitable for insertion into a patient's vasculature is arranged. This catheter 14 can be advanced through a patient's vasculature and can provide, at the distal end thereof, implant such as a TIPS stent graft. The catheter 14 has provided thereon an implant holding portion (not shown) at the distal end thereof as well as an implant retaining sheath (not shown) that covers the implant holding portion.

[0034] The handle 12 has provided on its upper surface a recess 33 that is arranged so that a surgeon can rest his or her thumb thereon. At the opposite side of the handle 12 relative to the recess 33, two protrusions 35 are provided that are arranged so as to help the surgeon in holding the device and the handle and to prevent it from slipping. A surgeon can grip with his or her hand around handle 12 so that his or her thumb rests on the recess 33 whilst the remaining fingers are arranged between the protrusions 35 so that the handle 12 is securely held. The protrusions 35 are provided at two longitudinal spaced apart positions of the handle 12.

[0035] A thumbwheel 22 is arranged on the handle 12 so that it sticks out of an opening of the handle 12 that is provided inside the recess 33. The thumbwheel 22 has a structured surface that increases friction thereof so as to make operating it easier. The thumbwheel 22 is coupled to a spindle (not shown) that is, in turn, coupled to the pull tab 16 that will be discussed further below with reference to FIGS. 2-4. This pull tab 16 is coupled to the implant retaining sheath so that a proximal movement of the pull tab 16 will pull the implant retaining sheath proximally to thus uncover the implant holding portion and to thus deploy an implant that is held at the implant holding portion. By operating the thumbwheel 22, the pull tab 16 will be wound onto the spindle so that the pull tab 16 is pulled proximally (to the left hand side in FIG. 1).

[0036] In FIG. 1, a first release mechanism 28 and a second release mechanism 24 are provided. The first release mechanism 28 is to be actuated by means of a button whilst the second release mechanism is operable by means of a slider. When the second release mechanism 24 has not been operated, a structure to be discussed below with reference to FIG. 2-4 will block a withdrawal of the implant retaining sheath so that the implant holding portion cannot even be partially uncovered. That is, unless the second release mechanism 24 has been actuated, an implant provided at the implant portion cannot even be partially deployed. However, when sliding the slider of the second release mechanism 24 to the actuated position, this blocking of proximal withdrawal of the pull tab 16 will be released so that thereby, a rotation of the thumbwheel 22 can pull the pull tab 16 proximally. This allows for a partial deployment of an implant that is arranged at the implant holding portion at the distal end of the catheter 14.

[0037] When the pull tab 16 is pulled further proximally by means of operating the thumbwheel 22, the proximal pulling of the pull tab 16 will be blocked by an engagement with a first interference feature 26 to be discussed further below. Also that engagement can be selectively released by means of actuating the first release mechanism 28 by means of pushing the associated button. This releasable blocking of further withdrawal of the pull tab 16 can correspond to a partial deployment of the implant arranged at the distal end of the catheter 14. In the case of a TIPS stent graft provided at the distal end of the catheter 14, this can correspond to the selective and partial release of the uncovered portion of that stent graft. As pointed out before, this is highly advantageous when it comes to deploying and placing a TIPS stent graft in a human liver. Once the uncovered portion has been deployed, the surgeon can actuate the first release mechanism to release the blocking of further withdrawal of the pull tab 16 to thus completely release the implant.

[0038] In the structure shown in FIG. 1, different positions and portions have been marked up on the catheter 14. The position A denotes the position up to which the implant retaining sheath extends when the implant holding portion is fully covered. This position corresponds to the position where the further withdrawal of the pull tab 16 is blocked by means of the second release mechanism 24 not being actuated. When the second release mechanism 24 is actuated, the implant retaining sheath can be pulled back over a distance denoted by the letter “D”. This partial withdrawal corresponds to only the uncovered portion of, e.g., a TIPS stent graft being exposed to the patient's body.

[0039] The portion denoted by E corresponds to a sufficiently full withdrawal of the implant retaining sheath that the entirety of the implant holding portion (and thus of the implant) is uncovered so that the implant can be deployed. This would correspond to the full deployment configuration.

[0040] The portion denoted by C is that portion of the catheter 14 that is not used for carrying the implant. That is, this portion serves to provide enough of a length of the catheter 14 so as to reach the deployment position of the implant.

[0041] The catheter 14 can have provided therein a lumen suitable for leading a guidewire therethrough. This guidewire can extend, at the proximal end of the handle 12, through a connector 19 that can be a Luer connector.

[0042] FIG. 2 shows an inside view of the lower part 13 of the handle 12 in a configuration where the implant retaining sheath extends up to the point A shown in FIG. 1. That is, the implant holding portion is fully covered. The lower part 13 of the handle 12 is made of a plastic shell that has a semi-tubular shape that bulges out when going from the distal end 50 towards the central portion. This allows for ergonomically gripping the handle 12. At the distal end 50, a hemispherical cut out 32 is provided through which the pull tab 16 extends. This pull tab 16 is led through the interior of the lower part 13 and is to be rolled up on a spindle (not shown) attached to thumbwheel 22.

[0043] Provided inside the lower part 13 are reinforcing ribs 32 that serves so as to provide mechanical stability to the lower part 13. Those reinforcing walls 32 have a notch through which the pull tab 16 is led. That is, those notches serve to stabilise the path of the pull tab 16. Close to the distal end 50 of the lower part 13 is provided a metallic plate 30 having a hole provided therein through which the pull tab 16 is led. Also this plate 16 serves to stabilise the path taken by the pull tab 16. This plate 30 is attached (clipped) to one of the ribs 32.

[0044] Provided proximally relative to the plate 30 is a leaf spring 20 that is, at one of its ends, held by ribs 34 provided on a wall of the lower part 13. This leaf spring 20 is bent. Its bent portion abuts against an engagement feature 18 in the form of a ring like protrusion fixedly arranged on the pull tab 16. The bent portion of the leaf spring 20 abuts against the proximal-most portion of the engagement feature 18 so that it prevents a proximal movement of the engagement feature 18. In turn, this prevents a proximal movement of the pull tab 16. The leaf spring 20 is coupled to the slider 24 so that a sliding movement of the slider 24 will bend the leaf spring 20 so that the bent portion gets out of engagement with the engagement feature 18. In that configuration, a proximal movement of the engagement feature 18 is possible so that the pull tab 16 can be moved proximally. This then allows for a pulling back of the implant retaining sheath across the portion denoted by the region “D” in FIG. 1. The bent portion of the leaf spring 20 thus constitutes the second interference feature.

[0045] Provided even further proximally relative to the leaf spring is the first interference feature 26 that has the shape of a U-shaped plastic plate that is coupled to a pushbutton 28. The pull tab 16 is led through the recess of the U-shaped plate 26. When the pushbutton 28 is depressed, the U-shaped plate 26 is pushed down sufficiently far that the pull tab 16 no longer extends through the recess of the U-shaped plate 26. The recess of the U-shaped plate 26 is sized so that the engagement feature 18 cannot fit through it so that the engagement between the engagement feature 18 and the U-shaped plate 26 blocks a movement of the engagement feature 18 through that recess whilst being sufficiently wide to allow the rest of the pull tab 16 to freely pass through it.

[0046] FIG. 3 shows a configuration where the engagement between the second interference feature in the form of the leaf spring and the engagement feature 18 had been released and where the pull tab 16 has been pulled proximally so that the implant retaining sheath has moved across the portion D in FIG. 1. As can be seen from FIG. 3, in that configuration, the engagement feature 18 now abuts against the first interference feature 26. Since the pushbutton 28 has not been depressed, a proximal movement of the engagement feature 18 is prevented by that abutment.

[0047] In the configuration that is shown in FIG. 4, the pushbutton 28 has been depressed, as indicated by an arrow, so that there is now no longer an engagement between the first interference feature 26 and the engagement feature 18. Accordingly, it is possible to pull the pull tab 16 proximally so that also the engagement feature 18 can now be pulsed to a position that is proximal to now arranged proximally of the first interference feature 26. In that configuration, the implant retaining sheath can be moved across the region E shown in FIG. 1 to fully deploy the implant that is provided on the implant holding portion.

[0048] Thus, with the device described previously, a surgeon is given clear tactile feedback as to when implant retaining sheath withdrawal begins and when the implant has been partially uncovered. The surgeon could thus, once he or she knows that the implant has been partially uncovered, ensure that the thus uncovered portion is properly placed.

[0049] For example in the case of a TIPS stent graft, the surgeon could ensure that the flared uncovered portion of the TIPS stent graft is arranged in the portal vein, for example using X-ray imaging of markers that are provided on the TIPS stent graft. The surgeon could then feel that the flared portion is completely arranged inside the portal vein by noticing the flared portion abutting against the junction between the TIPS shunt and the portal vein (as a mechanical resistance against proximal withdrawal of the TIPS stent graft to be deployed). Accordingly, since the surgeon knows that only the uncovered portion has been uncovered but that this portion has been uncovered completely, a highly accurate and user-friendly positioning of the TIPS stent graft is possible.

[0050] Accordingly, the following steps would be taken by a surgeon when wishing to place a TIPS stent graft using the previously described design, which are also partially illustrated in FIGS. 5a)-c): [0051] Creating a TIPS shunt connecting a patient's hepatic (HV) and portal (PV) veins, [0052] Inserting the catheter 14 into the patient's vasculature and advance its tip—in embodiments using a guidewire (not shown)—via the TIPS shunt to the portal vein, [0053] Releasing the blocking of withdrawal of the pull tab 16 by the engagement between the second interference feature 20 and the engagement feature 18 (not shown), [0054] Withdrawing the implant retaining sheath so as to release the uncovered portion 102 of the TIPS stent graft 100 until further withdrawal is blocked by the engagement between the first interference feature 26 and the engagement feature 18 (FIG. 5a)), [0055] Positioning the uncovered portion of the TIPS stent graft inside the portal vein PV, [0056] Releasing the blocking of further withdrawal of the pull tab 16 by the engagement between the first interference feature 27 and the engagement feature 18, [0057] Withdrawing the implant retaining sheath so as to fully release the TIPS stent graft 100 (FIGS. 5b), c)).

[0058] It is to be noted that whilst the present invention has been mainly described in terms of the placement of a TIPS stent graft, it is also equally applicable to the placement of bifurcated stent grafts for the treatment of abdominal aortic aneurysms.