DETAILED DESCRIPTION

[0036] The left ventricle is the main pumping chamber of the heart. Oxygenated blood from the lungs enters the left atrium and passes into the left ventricle through the mitral valve. The blood is pumped from the left ventricle to the rest of the body.

[0037] As shown in FIGS. 1A-1F, the mitral valve (30) is a one way passive valve comprising a pair of leaflets, including a larger anterior leaflet (32) and a smaller posterior leaflet (33). The leaflets open and close in response to pressure differences in the heart (5) on either side of the mitral valve (30). The base of each anterior (32) and posterior (33) leaflet is attached to the mitral valve annulus (34).

[0038] The contour of the mitral valve annulus (34) refers to the outline or form of the annulus (34) when viewed in the general plane of the annulus (34). The shape of the annulus (34) is that shape viewed from the atrial side of the mitral valve (30), “looking down” on the mitral valve annulus (34).

[0039] The mitral valve annulus (34) includes a posterior portion (35) and an anterior portion (36). The anterior portion (36), also known as the inter-trigone segment or section, is a generally straight, substantially rigid segment. The posterior portion (35) of the annulus (34) is a flexible, curvilinear segment that encompasses a larger proportion of the annulus circumference than the anterior portion (36). The right (37) and left (38) fibrous trigones mark the ends of the generally straight segment and define the intersection points between the posterior (35) and anterior portions (36).

[0040] Referring to FIGS. 2A and 2B, there is shown a preferred embodiment of the annuloplasty ring (10) comprising the present invention. The ring (10) comprises a first section (11) and a second section (15). The first section (11) has a first end (12) and a second end (13), while the second section (15) includes a proximal end (16) and a distal end (17). A means for sizing the annuloplasty ring (10) includes measurement indicia (18) extending inwardly from an outermost edge of the second section's distal end (17). The annuloplasty ring (10) also includes a detachable needle (20) having a tip (72) and an attaching end (73) as shown in FIG. 3.

[0041] The annuloplasty ring (10) comprises a first means for joining the second end of the first section to the distal end of the second section and a second means for joining the first end of the first section to the proximal end of the second section. The ring (10) also comprises a third means for joining the second end of the second section to the needle.

[0042] In one preferred embodiment, the first means for joining the second end of the first section to the distal end of the second section, the second means for joining the first end of the first section to the proximal end of the second section, and the third means for joining the second end of the second section to the needle comprise frictional engagements.

[0043] The frictional engagements include a hollow inner portion (19) in the second section (15) having exterior openings (71) at the proximal (16) and distal (17) ends. The hollow inner portion (19) can extend the entire length of the second section (15) or alternately, it can be limited to the ends (16, 17) of the second section (15). The hollow portion (19) has an inner diameter that is approximately equal to the outer diameter of the first (12) and second (13) ends of the first section (11) and also that is approximately equal to the outer diameter of the attaching end (73) of the needle (20).

[0044] The exterior openings (71) of the hollow inner portion (19) on the proximal end (16) of the second section (15) receives the first end (12) therein, while the exterior opening (71) of the hollow inner portion (19) on the distal end (17) receives the second end (13) of the first section and, alternately, the attaching end (73) of the needle (20). When the ends (12, 13) of the first section (11) are inserted through the exterior openings (71) into the hollow inner portion (19), a frictional engagement is created between the respective inner and outer diameters which secures the ends of the sections (11, 15) together. Likewise, when the attaching end (73) of the needle (20) is inserted through the exterior opening (71) into the hollow inner portion (19) of the distal end (17), the needle (20) is held within the hollow inner portion (19) by frictional engagement.

[0045] Although the first means for joining the second end of the first section to the distal end of the second section, the second means for joining the first end of the first section to the proximal end of the second section, and the third means for joining the second end of the second section to the needle comprise frictional engagements, any suitable and separate types of means could be used instead.

[0046] The first (11) and second (15) sections are elongated. In one preferred embodiment, the first section (11) has a bow or bend (70) in the center region. The bow (70) is offset approximately 1.0 mm from a reference plane in which the first (12) and second (13) ends are located. In another preferred embodiment, the first section of the ring is straight and does not have a bow.

[0047] The first section (11) is made from a substantially rigid material. It is preferable that the material is able to maintain its rigidity indefinitely and also preferable that it is inert or compatible with body tissues. Examples of materials that could be used for the first section (11) are titanium, stainless steel, pyrolytic carbon and various plastics. Also, other suitable materials of choice could be used, as well.

[0048] The material comprising the second section (15) is flexible and is capability of being affixed to the first section. Preferably, the material is inert or compatible with body tissues. Examples of materials that could be used for the second section include silastic, polyethylene, Dacron and Teflon. Also, other suitable materials of choice could be used, as well.

[0049] The annuloplasty ring (10) of the present invention reestablishes the normal shape and contour to the mitral valve annulus (34). The first section (11) of the annuloplasty ring (10) is adjacent to the inter-trigone section (36) after implantation, as shown in FIGS. 1A-1F. The curvature of the bow (70) is oriented to conform to the portion of the mitral valve annulus (34) that is located adjacent to the aortic valve root. Both the first section (11) and the inter-trigone section (36) are substantially rigid. Since the inter-trigone section (36) does not normally bend in response to the movements of the heart, it is, therefore, not required for the first section (11) to bend or flex either.

[0050] The second section (15) is implanted adjacent to the posterior portion (35) of the annulus. Both the posterior portion (35) and the second section (15) are flexible and, as a result, can flex and move with the natural movements of the heart, as the left ventricle relaxes and contracts. Furthermore, the method of implanting the annuloplasty ring within the fat pad (40) of the atrioventricular groove (39), as shown in FIG. 4, ensures that the annulus and the second section (15) of the ring (10) will remain flexible indefinitely.

[0051] Referring again to FIGS. 1A-1F, the needle (20) acts as a leader guide to implant the ring (10) in the proper location and position in the atrioventricular groove (39) around the mitral valve annulus (34). The tip (72) of the needle is preferably a round-tip which is sharp enough to penetrate the tissue for implantation, yet blunt enough to maneuver within the atrioventricular groove without damaging critical areas.

[0052] The size and shape of the annuloplasty ring (10) can be adjusted. Using the measurement indicia (18) on the second section (15) as a guide, the appropriate length of the section is established, then any unnecessary length on the second section (15) can be removed by cutting, as shown in FIG. 1D. By changing the length of the second section (15), the circumference of the annuloplasty ring is also changed.

[0053] As shown in FIG. 2A, the second means for joining the first end of the first section to the proximal end of the second section and the first means for joining the second end of the first section to the distal end of the second section secures the ends (12, 13) of the first section (11) to the respective ends (16, 17) of the second section (15) to form a closed loop. In one preferred embodiment in which the first and second means for joining comprise frictional engagements, the proximal (16) and distal (17) ends of the second section are preferably disposed adjacent to each other at a center region of the first section (11), thereby covering a substantial portion of the first section (11). Alternately, the second end (13) of the first section (11) can be free and unattached while the distal end (17) of the second section (15) is attached to the needle (20) for performing the annuloplasty as shown in FIG. 5.

[0054] The length of the first section (11) is shorter than the length of the second section (15). The length of first section (11) can vary, but it is preferred that its length be no more than about 50-75% of the length of the inter-trigone section (36) of the mitral valve annulus being repaired. The requisite proportion for a particular annuloplasty ring will depend on the flexibility of the second section (15). As for example, the more flexible the material forming the second section (15), the longer the length of the first section (11) should be relative to the length of the inter-trigone section (36). Conversely, the less flexible the material of the second section (15), the shorter the relative length of the first section (11) should be relative to the length of the inter-trigone portion (36).

[0055] The lengths of the two sections can be varied relative to each other in order to achieve various shapes for the closed loop of the annuloplasty ring (10). For example, by lengthening the first section (11) relative to the length of the second section (15), the annuloplasty ring will become “flatter” as characterized by a smaller anterior to posterior distance.

[0056] In one preferred embodiment of the present invention, the first section (11) has a length of approximately 1.5 cm and an overall diameter of approximately 6 mm. The diameter can, however, vary so long as it fits the mitral valve annulus under repair and it precludes inadvertent deformation or breakage of the ring.

[0057] In one preferred embodiment, the indicia (18) are markings spaced at intervals of about 1.0 mm. However, the intervals could be spaced at any desired distance, extending for any desired length along the second section (15).

[0058] An open configuration of the annuloplasty ring (10) is shown in FIG. 6 wherein the first section (11) has its first end (12) attached to the second section's proximal end (16). The second end (13) of the first section (11) and the distal end (17) of the second section (15) are unattached.

[0059] A closed configuration, shown in FIG. 2A, comprises the first end (12) of the first section (11) being attached to the proximal end (16) of the second section (15) and the second end (13) of the first section (11) being attached to the distal end (17) of the second section (15). In the closed configuration, the annuloplasty ring (10) forms the closed loop. After the annuloplasty procedure, the ring (10) is in its closed configuration.

[0060] In FIG. 5, the annuloplasty ring (10) of the present invention is shown in a surgical configuration in which the first end (12) of the first section (11) is attached to the proximal end (16) of the second section (15) and the needle (20) is attached to the distal end (17) of the second section (15). The second end (13) of the first section (11) is unattached. The surgical configuration is designated primarily for use during the annuloplasty procedure.

[0061] After the annuloplasty ring (10) is implanted as in FIG. 1E, the first section (11) is in alignment with the inter-trigone section (36) of the mitral valve annulus (34) such that the bow (70) conforms to the contour of the annulus (34) adjacent to the aortic valve root. The inter-trigone section (36) which extends between the left (38) and right (37) fibrous trigones is substantially rigid, as is the first section (11) of the ring. The second section (15) is primarily implanted around the posterior portion (35) of the annulus (34) and within the fat pad (40) of the atrioventricular groove (39) as shown in FIG. 4. Along with the posterior portion (35) of the annulus (34), the second section (15) is allowed to move and flex freely with the movements of the heart.

[0062] Referring to FIGS. 1A-1E, the annuloplasty ring (10) is installed adjacent to the mitral valve annulus (34) and within the fat pad (40) of the atrioventricular groove (39). After the ring (10) is implanted, the second section (15) is cut to the appropriate size for the patient. The distal end (17) of the second section (15) is then attached to the first section (11). Preferably, the ring (10) is sutured to the annulus at the left and right fibrous trigones. However, this suturing may be avoided if deemed not necessary.

[0063] To implant the annuloplasty ring in a patient, the needle (20) is attached to the distal end (17) of the second section (15) and the first end (12) of the first section (11) is attached to the proximal end (16) of the second section (15), as shown in the surgical configuration of FIG. 5. In one preferred embodiment, the needle is attached by inserting its attaching end (73) into the exterior opening (71) of the hollow inner portion (19) of the second section (15).

[0064] The tip of the needle (20) is passed through the endocardium (65) and the left atrial myocardial wall (46) from the endocardial aspect at the right fibrous trigone (37), as shown in FIG. 1A, simultaneously pulling the first (11) and second (15) sections of the ring (10) behind it, such that a portion of the second section (15) eventually passes through the left atrial myocardial wall (46) as in FIG. 1B. The needle (20) is passed in a posterior direction just external to and parallel to the mitral valve annulus (34). The tip of the needle (20) is passed around the outside curvature of the mitral valve annulus (34) and within the fat pad (40) of the atrioventricular groove (39). The needle (20) is moved in a clockwise direction towards the left fibrous trigone (38).

[0065] At the left fibrous trigone (38), the needle's tip (72) is passed back through the left atrial myocardial wall (46) from the epicardium (60) and back through the endocardium (65) at the left fibrous trigone (38), thereby pulling the first section (11) into position along the anterior portion (36) and pulling the second section (15) into position within the atrioventricular groove (39) such that the second section (15) is adjacent to the posterior portion (35) of the mitral valve annulus (34), as shown in FIG. 1C.

[0066] Referring to FIG. 1D, the annuloplasty ring (10) is sized using the measurement indicia (18) to determine the appropriate length of the second section (15) and hence the appropriate circumference for the annuloplasty ring (10). The distal end (17) can be cut to size, if required, by severing the second section (15) at a selected location on the second section (15). The needle (10) can be removed prior to sizing and/or cutting of the second section (15) or, alternately, it can remain attached to the ring (10) during sizing and/or cutting.

[0067] The distal end (17) of the second section (15) is then joined to the second end (13) of the first section (11). In one preferred embodiment as shown in FIG. 1E, the second end (13) and distal end (17) are joined by frictional engagement wherein the second end (13) of the first section (11) is inserted into the hollow inner portion (19) of the second section, until the distal (17) and proximal (16) ends of the second section (15) approach one another approximate a center point on the first section (11).

[0068] In another embodiment of the method for implanting the annuloplasty ring, the procedure is reversed in direction, wherein the tip (72) of the needle (20) is first passed through the endocardium (65) and the left atrial myocardial wall (46) from the endocardial aspect at the left fibrous trigone (38) and passed in a posterior direction substantially parallel to the annulus (34). The needle (20) is moved in a counterclockwise direction around the annulus (34) to the right fibrous trigone (37). Here, at the right fibrous trigone (37), the needle's tip (72) is passed back through the left atrial myocardial wall (46) from epicardium (60) and back through the endocardium (65). The procedure then continues as the above procedure is performed in the opposite, counterclockwise direction.

[0069] After the annuloplasty ring is in place sutures (80, 81) shown in FIG. 1F can be added to secure the annuloplasty ring to the annulus. A plurality of sutures (80) can be used to fix the ring (10) to the inter-trigone section (36), preferably at the left and right fibrous trigones. Since the inter-trigone section (36) is substantially rigid in the native mitral valve annulus, any scarring that may result from these sutures (80) would not substantially interfere with the normal flexing of the rest of the annulus and movement of the left ventricle.

[0070] In addition, at least one suture (81) may be used to fix the second section (15) within the atrioventricular groove (39) as an added precaution for guarding against possible slippage of the ring (10) after it is implanted. This suture (81) would preferably be located near the midpoint of the second section (15).

[0071] The preferred embodiments of the present invention allow the mitral valve annulus to maintain its normal flexure, which in turn enables the left ventricle to move in a normal manner as it contracts and relaxes. Furthermore, the method of implanting allows the annuloplasty ring and the annulus, as well, to maintain flexibility indefinitely after the annuloplasty, since it is not necessary to secure the ring in place with a line of sutures through the mitral valve annulus tissue of the posterior portion.

[0072] The ring further reestablishes the normal shape and contour of the mitral valve annulus which allows for effective coaptation of the anterior and posterior leaflets of the valve. Additionally, the size and shape of the ring can be adjusted making it easily adaptable to different patients.

[0073] In one example, the annuloplasty ring of the present invention can be manufactured using a flexible material that is also elastic to comprise the second section. The elasticity of the ring would accommodate the expansion of the mitral annulus during relaxation of the left ventricle and accommodate contraction of the annulus during contraction of the left ventricle. In other words, the annulus would expand and contract, in addition to flexing, with the expansion and contraction of the left ventricle.

[0074] In another example, the first (11) and second (15) sections are joined integrally at the respective first (12) and proximal (16) ends, wherein the first section remains substantially rigid and the second section (15) remains flexible. The integral joining of the two sections can be done by coextrusion, molding or other suitable manufacturing techniques of choice.

[0075] Although the present invention has been described in considerable detail with reference to certain preferred versions thereof, other versions are possible. Therefore, the spirit and scope of the appended claims should not be limited to the description of the preferred versions contained herein.