INTERVALVULAR IMPLANT FOR A MITRAL VALVE

Abstract

This implant (1) has a frame (2) and a membrane (3) covering this frame; —the frame (2) has: —an elongated base portion (5) formed by two curved or chevron branches being connected to connecting areas (7) of the implant (1) for connecting to the annulus of the mitral valve (100); —a longitudinal hoop (8) extending in a plane substantially perpendicular to the plane in which extends said base portion; —the membrane (3) is flexible and extends from one branch to the other while passing near the hoop (8), this membrane being connected to said branches without being stretched between these branches and this hoop so that the two thereby formed lateral portions (3a) of the membrane (3) on both sides of the implant are able to adopt either a concave shape, outwardly convex, or a recessed shape, outwardly concave.

Claims

1. An intervalvular implant (1) for a mitral valve (100) wherein the implant (1) has a structure formed by a frame (2) and by a membrane (3) covering this frame; the frame (2) has: an elongated base portion (5) formed by two curved or chevron branches (10), these branches (10) having median portions distant from each other and end portions which run while getting closer to each other and being connected to connecting areas (6) located at the longitudinal ends of the base portion (5); this elongated base portion (5) has a width extending from the median portion of one branch (10) to the median portion of the other branch (10) and a length extending from one connecting area (6) to the other connecting area (6), and is so elongated that said length is three to eight times greater than said width; anchoring portions (7) connected to these connecting areas (6), allowing the implants (1) to be anchored to the annulus (102) of the mitral valve (100) in two points of the annulus (102) spaced from one another, in particular opposite one another; a longitudinal hoop (8) extending from one connecting area (6) to the other; the membrane (3) is flexible and extends from one branch (10) to the other while passing near the hoop (8), this membrane being connected to said branches (10) without being stretched between these branches (10) and this hoop (8) so that the two lateral portions (3a) of the membrane (3) thereby formed on both sides of the implant are able to adopt either a concave shape, outwardly convex, or a recessed shape, outwardly concave.

2. Implant (1) according to claim 1 characterized in that the ends of the branches (10) have tilted portions and/or the connecting areas (6) are tilted or have tilted portions so as to shift said base portion (5) on the ventricular side of the implant (1) relatively to surfaces through which said anchoring portions (7) are intended to come into contact with the annulus (102) of the valve (100).

3. Implant (1) according to claim 1 characterized in that said connecting areas (6) and said anchoring portions (7) substantially extend in the extension of said base portion (5), so that this base portion (5) is located in a plane close to the one in which extend the surfaces through which said anchoring portions (7) are intended to come into contact with the annulus (102) of the valve (100).

4. Implant (1) according to claim 1-3 characterized in that said branches (10) are positioned symmetrically relatively to a longitudinal median plane of the implant, so that said base portion (5) has an oval or rhombic shape.

5. Implant (1) according to claim 1-3 characterized in that the convex or protruding sides of said branches, resulting from said curved or chevron shape of these branches, are also turned towards a same side of the implant, ensuring that said base portion has a general curved shape, substantially adapted to the curvature exhibited by the space delimited by the mitral valve (101).

6. Implant (1) according to claim 1-5 characterized in that the hoop (8) is located in the median longitudinal plane of the implant.

7. Implant (1) according to claim 1-6 characterized in that the hoop (8) is located in a plane substantially perpendicular to the plane in which extends said base portion (5).

8. Implant (1) according to claim 1-7 characterized in that each anchoring portion has a hole for receiving a tie (55) for anchoring the implant (1) to the mitral annulus (102), this hole being oblong, with its length positioned perpendicularly to the length of the implant.

9. Implant (1) according to claim 1-8 characterized in that the membrane (3) extends on the whole of the portion of the implant (1) along which extends the hoop (8), or on only part of this portion.

10. Implant (1) according to claim 1-9 characterized in that this membrane (3) passes around the hoop (8) by bearing against it.

11. Implant (1) according to claim 1-10 characterized in that the membrane (3) is only connected to said branches (10) without being connected to the hoop (8).

12. Implant (1) according to claim 1-10 characterized in that the membrane (3) is connected both to said branches (10) and to the hoop (8).

13. Implant (1) according to claim 1-12 characterized in that the frame (2) is in an elastically deformable material, allowing it to adopt a deformed configuration, with transverse contraction, in which it is able to be placed in a delivery catheter (50), and a normal expansion configuration, in which it is implanted.

Description

[0030] The invention will be well understood, and other features and advantages thereof will become apparent, with reference to the appended schematic drawing; this drawing represents as non-limiting examples, several possible embodiments of the implant concerned.

[0031] FIG. 1 is a side and longitudinal sectional view along the line A-A of FIG. 2, of a frame which this implant comprises, according to a first embodiment;

[0032] FIG. 2 is a top view thereof;

[0033] FIGS. 3 to 5 are very schematic sectional views of the ventricle and of the mitral valve of a heart, as well as of the instruments used, during the setting into place of the implant, during three successive steps for this setting into place;

[0034] FIG. 6 is a sectional view of the instrument shown in FIG. 5, on an enlarged scale;

[0035] FIGS. 7 and 8 are similar views to FIGS. 3 to 5, taken along a sectional plane substantially perpendicular to that of FIGS. 3 to 5, during two subsequent steps of the setting into place of the implant;

[0036] FIG. 9 is a perspective view of the mitral valve and of the implant set into place on this valve, with a cross-sectional view along the sectional plane of FIGS. 3 to 5;

[0037] FIGS. 10 and 11 are sectional views of the valve and of the implant, respectively during auricular systole and during ventricular systole;

[0038] FIGS. 12 and 13 are views of the frame of the implant according to a second embodiment, in the deployed state, a perspective view and a top view respectively;

[0039] FIG. 14 is a top view of this frame, in the contracted state; and

[0040] FIG. 15 is a view of the frame of the implant according to a third embodiment.

[0041] FIGS. 8 and 9 illustrate an implant 1 according to the invention, set into place between the valvulae 101 of a mitral valve 100 in order to remedy a problem of loss of seal of these valvulae, which loss of seal leads to regurgitation of the blood into the auricle during the ventricular systole.

[0042] The implant 1 has a central portion extending between the valvulae 101 and two end portions allowing it to be anchored to the annulus 102 of the valve 100, and has a structure formed by a frame and by a membrane covering the central portion of this frame.

[0043] FIGS. 1 and 2 show the frame 2 of the implant 1 according to a first embodiment. This frame 2 has an elongated base portion 5, connecting areas 6, anchoring portions 7 and a hoop 8. It is in an aluminium and titanium alloy known under the usual name of Nitinol.

[0044] The base portion 5 is formed by two curved branches 10 positioned along general directions parallel to each other and symmetrically with respect to a longitudinal median plane of the implant 1. The median portions of these branches are located at a longer distance from each other than the end portions of these branches, so that said base portion 5 has a stretched oval shape. This base portion 5 extends in a plane substantially perpendicular to the longitudinal median plane of the implant 1.

[0045] The median portion of a branch 10 may be considered as extending over about the median third of the branch 10, and therefore each end portion may be considered as extending over about one third of the length of the branch 10.

[0046] These end portions become closer to each other towards the ends of the base portion 5 and join up with each other at their connection to the connecting areas 6. As visible in FIG. 1, they are bent at about half of their length so that the median portions of the branches 10 and the portions of these branches extending between the median portions and the bends formed by these branches 10, are shifted downwards relatively to a median height line L of the implant 1.

[0047] The connecting areas 6 substantially extend at this line L. They may slightly extend obliquely relatively to this line, like in the illustrated example, each area 6 having a height which increases from its end connected to the base portion 5 to its end connected to the anchoring portion 7.

[0048] Each anchoring portion 7 forms a surface intended to bear against the mitral annulus 102 and is pierced with a hole 11 intended to receive a tie 55 for anchoring to this annulus (see FIGS. 4 to 8).

[0049] The hoop 8 extends in the longitudinal median plane of the implant 1, from one connecting area 6 to the other, and above the line L. It has a median portion extending parallel to the median portions of the branches 10 and two lateral tilted portions connected to the areas 6. Said median portion of the hoop 8 represents about half of the length of this hoop (this length is considered to be in a straight line from one area 6 to the other).

[0050] The membrane 3 which the implant 1 also comprises is in a flexible material such as a polyester fabric or animal pericardium, and has a sealed structure towards the flow of the blood through it. As shown in FIGS. 8 to 11, it extends from one branch 10 to the other, passing around the hoop 8, without being stretched between these branches and this hoop. Thus, the two lateral portions 3a which it forms on both sides of the implant 1 are able to adopt either of the recessed shape, outwardly concave, visible in FIG. 10, or the rounded shape, outwardly convex visible in FIG. 11.

[0051] In the longitudinal plane, the membrane 3 essentially extends around the aforementioned median portion of the hoop 8 and the corresponding portions of the branches 10, as visible in FIG. 8.

[0052] In practice, as shown in FIG. 3, a catheter 50 is introduced into the left ventricle 103 through the apical area of this ventricle, and a catheter 51 of smaller diameter is engaged into this catheter 50 as far as below the mitral annulus 102. A rod 52 with a perforation tip is engaged through this catheter 51 and is used for perforating the mitral annulus 102 in two diametrically opposite locations of the valve 100.

[0053] After withdrawal of the rod 52, the catheter 51 is engaged through one of the perforations made and a tie 55 with deployable branches, connected to a thread 56, is then pushed into this catheter 51 as far as beyond the perforation, so that the branches of this tie are deployed beyond the annulus 102 (see FIG. 4). Traction on the thread 56 gives the possibility of bringing these branches of the tie 55 so that they bear against the annulus (see FIG. 5).

[0054] A second tie 55 and a second thread 56, identical, are set into place in the same way in the second perforation (both of these ties 55 and threads 56 are visible in FIGS. 7 and 8).

[0055] After withdrawal of the catheter 51, the implant 1 in the contracted state is pushed into the catheter 50 (see FIG. 5), with one of these anchoring portions 7 engaged on a thread 56 and the other anchoring portion 7 engaged on the other thread 56 as visible in FIG. 6.

[0056] The implant is then released from the catheter 50 (see FIG. 7) and is pushed on the threads 56 by means of catheters, until its central portion, i.e. the portion covered by the membrane 3, is engaged between the valvulae 101, as shown in FIG. 8, and that its anchoring portions 7 will come into contact with the mitral annulus 102.

[0057] Each anchoring portion 7 is then attached to the mitral annulus 102 by a known technique, notably by means of washers 57 able to slide on the threads 56 and be clip-fastened on the ties 55 (see FIG. 8).

[0058] The threads 56 are then cut by means of a rod with a sharp cutting edge, of a known type, slipped into the catheter 50.

[0059] As this appears in FIGS. 8 to 11, the implant 1, once it is set into place on the mitral valve 100, will occupy the intervalvular space and said portions 3a of the membrane 3 extending along the edges of the valvulae 101.

[0060] By means of its frame 2, only formed at this membrane 3, by the branches 10 and by the hoop 8, the implant 1 has a longitudinal relative flexibility allowing it to adapt to the shape of the intervalvular space to be filled. In this way, it is perfectly efficient for restoring the seal of the valve 100.

[0061] During ventricular diastole, the pressurized blood from the auricle (not shown in the figures) presses on the portions 3a of the membrane 3 and that brings them into the hollow outwardly concave shape, visible in FIG. 10; the implant 1 then has a shape relatively reduced in width, not interfering with the flow of the blood from the auricle to the ventricle. During ventricular systole, the sac formed by the membrane on the ventricular side receives pressurized blood, bringing said portions 3a of the membrane 3 into the convex shape visible in FIG. 11; this shape allows the implant 1 to perfectly fill the intervalvular space resulting from the faulty operation of one of the two valvulae 101 and to form efficient supporting surfaces for these valvulae.

[0062] At the end of the procedure for setting the implant 1 into place, a plug 58 is implanted on the ventricle 103 so as to close the apical orifice made for letting through the catheter 50, see FIG. 8.

[0063] FIGS. 12 and 13 illustrate an implant 1 similar to the one described above but intended to be implanted on the auricular side of the valve 100, via a trans-septal approach. By simplification, the already described elements or parts, which are again found on this implant, are designated with the same numerical references.

[0064] On this frame 2, the connecting areas 6 and the anchoring portions 7 substantially extend in the extension of the base portion 5, so that the implant 1 is substantially planar outside the hoop 8. The anchoring portions 7 are then intended to be connected to the annulus 102 at the commissures of the valvulae 101.

[0065] Moreover, in the illustrated example, the branches 10 have a shape, not a stretched oval shape but a chevron shape, giving the base portion a rhombic shape. These branches 10 and the hoop 8 are further, also as example, with a rectangular cross-section.

[0066] FIG. 14 shows the frame 2 in the longitudinal contraction state which it adopts when it is placed in the catheter 50.

[0067] FIG. 15 shows a third possible embodiment of the frame 2, with also the use of the same numerical references for designating the already described elements or parts.

[0068] In this case, the base portion 5 is formed with chevron-shaped branches 10 therefore having a rhombic shape, and is shifted on the ventricular side of the implant 1, in the same way as described earlier. The hoop 8 has a small height as compared with the faces of the anchoring portions 7 intended to come into contact with the annulus 102 of the valve 100, so that the membrane 3 is located sufficiently low in the intervalvular space, and therefore closer to the area for setting the valvulae 101.

[0069] As this appears from the foregoing, the invention provides an intervalvular implant for a mitral valve having aforementioned determining advantages as compared with homologous implants of the prior art.

[0070] This invention has been described above with reference to embodiments provided as an example. It is obvious that it is not limited to these embodiments but that it extends to all embodiments covered by the appended claims.