Mitral cerclage annuloplasty apparatus

Abstract

A mitral cerclage annuloplasty apparatus comprises a tissue protective device and a knot delivery device. The tissue protective device comprises a first protective tube and a second protective tube. The knot delivery device comprises a tube wherein a loose knot is looped around its distal end through a hole and wherein tight knot is formed when the distal end of the tube is cut open. Alternatively, the knot delivery device comprises an inner tube and outer tube. The inner tube is insertable and rotatable inside the outer tube. When the tubes are in a closed position by rotating either the outer tube or the inner tube, a hole is created near its distal end. When the tubes are in open position by rotating either the outer tube or the inner tube, the hole joins the opening of the outer tube and lengthens.

Claims

1. A set of devices for mitral valve annuloplasty, comprising: a tissue protective device, the tissue protective device having a cerclage suture disposed within a first protective tube and a second protective tube, the first protective tube and the second protective tube each having a proximal portion and a distal portion, the proximal portions of the two protective tubes being attached side-by-side along at least a portion of the length of the two protective tubes, the distal portions of the two protective tubes being separated thereafter, the tissue protective having a stopper being positioned on the distal portion of the second protective tube to prevent further advancement of the second protective tube into heart muscle, and a coronary protective device having the cerclage suture disposed therethrough and being positioned between the distal portions of the two protective tubes.

2. The set of devices according to claim 1, wherein the distal portion of the second protective tube has a tapering shape towards its end.

3. The set of devices according to claim 1, wherein the first protective tube is made of flexible rubber or plastic material.

4. The set of devices according to claim 1, wherein the second protective tube is made of flexible rubber or plastic material.

5. The set of devices according to claim 1, wherein the distal portion of the second protective tube is flexible enough to form an arch that traverses into a tricuspid valve.

6. The set of devices according to claim 1, wherein the distal portion of the second protective tube is rigid enough to resist being bent inward as tension is applied.

7. A device for reducing mitral valve regurgitation, comprising: a body comprising a proximal portion and a distal portion, the distal portion separating into a first arm and a second arm to create a hinge portion, the body having a cerclage suture disposed within the body, the first arm configured to loop around a mitral valve annulus, the second arm configured to traverse a tricuspid valve, the second arm having a stopping element being attached solely on a distal portion of the second arm to prevent further advancement of the second arm into heart muscle.

8. The device according to claim 7, wherein the distal portion of the second arm is tapered.

9. The device according to claim 7, the first arm and the second arm are made of a flexible material.

10. The device according to claim 7, wherein the first arm and the second arm have a diameter equivalent to a 4 Fr diagnostic catheter.

11. The device according to claim 7, further comprises a coronary protection device having the cerclage suture disposed therethrough and being positioned between the distal portions of the two protective tubes.

12. A device for reducing mitral valve regurgitation, comprising: a body comprising a proximal portion and a distal portion, the distal portion separating into a first arm and a second arm to create a hinge portion, the body having a cerclage suture disposed within the body, the first arm configured for looping a mitral valve annulus, the second arm configured for traversing a tricuspid valve, the second arm having means for preventing further advancement of a distal portion of the second arm into heart muscle; and a coronary protection device having the cerclage suture disposed therethrough and being positioned between the distal portions of the two protective tubes.

13. The device according to claim 12, wherein the distal portion of the second arm is tapered.

14. The device according to claim 12, the first arm and the second arm are made of a flexible material.

15. The device according to claim 12, wherein the first arm and the second arm have a diameter equivalent to a 4 Fr diagnostic catheter.

16. The device according to claim 12, wherein the hinge portion is configured to stabilize the first and the second arms with respect to a heart tissue.

17. The device according to claim 12, wherein the distal portion of the second arm is rigid enough to resist being bent inward as tension is applied.

18. The device according to claim 12, wherein a portion of the second arm from the hinge portion to the stopper element is configured to form an arch as tension is applied.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 shows a protection device in a particular embodiment, comprising a coronary sinus tube, a tricuspid valve tube, a hinge portion, a stem portion, a ring-shape stopper, a coronary protection device, and a cerclage suture.

(2) FIG. 2 is a schematic view of cross-sectional top of a human heart, taken at the level of the atrioventricular valves, showing the protective device in place.

(3) FIG. 3 is a front view of the heart with portions of the myocardial wall removed to show the protective device in place.

(4) FIG. 4(a)-(b) is a set of drawings showing a knot delivery device (KDD) in first embodiment using one tube configuration.

(5) FIG. 4(a) shows KDD whose distal end has a hole in a closed position where a loose knot is looped around the distal end through the hole.

(6) FIG. 4(b) shows the distal end of the tube is cut off in open position where tight knot is formed.

(7) FIG. 5(a)-(f) is a set of drawings showing detailed steps of KDD operation in a first embodiment.

(8) FIG. 5(a) shows a step of making a loose knot around the distal end of KDD through the hole using cerclage suture.

(9) FIG. 5(b) shows a step of tension adjustment where the suture can be pulled or released until the mitral regurgitation stops.

(10) FIG. 5(c) shows a step of cutting off (or opening) the hole, so that the loose knot is ready to form a tight knot.

(11) FIG. 5(d) shows a step of tightening the knot while maintaining the right amount of tension on the cerclage suture.

(12) FIG. 5(e) shows a step of cutting off the cerclage suture.

(13) FIG. 5(f) shows the final step of cerclage procedure.

(14) FIG. 6(a)-(b) is a set of drawings showing detailed operation of KDD in a second embodiment using an inner tube and an outer tube.

(15) FIG. 6(a) shows KDD in closed position where a hole is created near the distal end of KDD by rotating either the outer tube or the inner tube, so that a loose knot is formed around the distal end of KDD through the hole using cerclage suture.

(16) FIG. 6(b) shows KDD in open position where an opening is created near the distal end of KDD by rotating either the outer tube or the inner tube, so that a loose knot is ready to form a tight knot without cutting in a step shown in FIG. 5(c).

DETAILED DESCRIPTION

(17) The detailed disclosure of mitral valve cerclage coronary sinus annuloplasty (MVA) comprising of coronary sinus and tricuspid valve protective device (CSTVPD), and a knot delivery device (KDD) will be discussed.

(18) According to FIGS. 1-3, CSTVPD 20 comprises of a coronary sinus tube 22 (CS tube), a tricuspid valve tube 24 (TV tube), and stem portion 26. CS tube 22 encircles coronary sinus (CS), and TV tube 24 encircles tricuspid valve (TV). Then, extension of CS tube 22 and TV tube 24 meets and runs together to form stem portion 26.

(19) Generally, conventional MVA techniques cause tissue damage (erosion) to CS, TV, and intraventricular septum (IVS) from direct cerclage suture to tissue contact. These critical structures can be protected from damage by using CSTVPD 20 around the cerclage suture.

(20) A part of CS is protected by coronary protective device 40 (CPD) introduced in the previous MVA thesis. Thus, only the remainder of CS will need to be protected.

(21) CSTVPD 20 has two separated tubes, CS tube 22 and TV tube 24 which extend and form stem portion 26. The thickness of the tubes are approximately 4 Fr diagnostic catheter made of flexible rubber or plastic like material. CSTVPD 20 is named because it protects both CS and TV.

(22) In MVA procedure, first, a cerclage suture is fed through out CSTVPD 20 starting at CS extension of stem portion 26, CS tube 22, CPD 40, TV tube 24, and back out through TV extension of stem portion 26, or in reverse direction. Then, the suture-inserted CSTVPD 20 is pushed into the body through a catheter and positioned within the heart.

(23) Then, CS tube 22 is positioned to wrap around CS, and TV tube 24 is positioned to wrap around TV leaflets. Since the cerclage suture 10 is inside the tubes and not in direct contact with the surrounding tissue, cardiac tissues around CS, TV and IVS are protected from damage from the cerclage suture 10.

(24) CS tube 22 is a part of a coronary sinus protection device. CS tube 22 starts at the orifice of CS to the beginning of CPD 40. Anatomically, this length varies from patient to patient. Thus, before the procedure, appropriate length can be determined using an estimation from CT or other imaging methods. CS tube 22 should be made of soft and flexible catheter like material, so that its affect on compression of CS is minimized.

(25) TV tube 24 has tapering shape towards end. Starting from stopper 24a, TV tube 24 passes through the muscle of IVS. Therefore, in order to ease the passing through the IVS muscle, TV tube 24 should taper from stopper 24a to the end.

(26) In addition, TV tube 24 has a ring-shaped stopper 24a (RVOT exit stopper 24a) positioned about mid length of TV tube 24 to prevent further advancement of TV tube 24 into the heart muscle.

(27) Again, the length of TV tube 24 shall vary from patient to patient. The length shall be determined based on estimation from prior imaging studies of individual patient.

(28) Preferably, the length of TV tube 24 from hinge portion 27 to stopper 24a shall be derived by actual endocardial surface length from RVOT exit to CS opening. It should be longer than actual endocardial surface length in order to be redundant. This distance from stopper 24a to the tapered end of TV tube 24 shall be determined by preintervention imaging analysis. Obviously, the location of stopper 24a can vary as needed, and the length from hinge portion 27 to stopper 24a can also vary depending on the need.

(29) Hinge portion 27, where CS tube 22 and TV tube 24 meets, shall be placed at or near the orifice of CS. TV tube 24 will be fixed to the heart at hinge portion 27 and at stopper 24a. Then, hinge portion 27 to stopper 24a portion of TV tube 24 can be suspended freely in reverse C shape without being directly attached to the tissue. Such technique can reduce TV tissue damage resulting from direct contact of cerclage suture and it also reduces the restriction of cerclage on movement of TV leaflets.

(30) TV tube 24 shall be rigid enough to resist being bent as tension is applied onto cerclage suture. On the other hand, it shall be flexible enough to bend in reverse C shape.

(31) Stem portion 26 plays two roles. First, it stabilizes CS tube 22 and TV tube 24, so that their position is well maintained. Second, since hinge portion 27 rests on the orifice of CS, it prevents further advancement of CSTVPD 20 into the CS. Stem portion 26 (where CS tube 22 and TV tube 24 are adjoined) should be made of of semi-rigid catheter like material.

(32) FIG. 4(a)-(b) shows a knot delivery device 30 (KDD) in a first embodiment. KDD 30 is designed to transfer cerclage suture 10 looped and ready to be knotted to the upper portion of CSTVPD 20 while maintaining constant tension on the cerclage suture.

(33) Once position and appropriate tension is verified, KDD 30 will release the loop and knot the suture in place thus ensuring the knot is positioned in the right place with appropriate amount of tension.

(34) One of the most crucial component of MVA procedure is having a device that can deliver and maintain necessary tension enough to apply compression on mitral annulus. That device should be (1) easy to operate, (2) easy to manipulate cerclage suture tension depending on individual patient variance, (3) easy to readjust and fix tension (4) then once cerclage suture is fixed, not become loose and maintain constant tension well after the procedure.

(35) FIG. 4(a)-(b) is a set of drawings showing KDD 30 in first embodiment using one tube configuration. FIG. 4(a) shows KDD 30 whose distal end has a hole in a closed position where a loose knot is looped around the distal end through the hole. FIG. 4(a) shows the distal end of the tube is cut off in open position where tight knot is formed. FIG. 4(b) shows the distal end of the tube is cut off in open position where tight knot is formed.

(36) KDD 30 is a catheter where a portion 32 of the distal end of KDD 30 can be in closed position next to a hole 34 where a loose knot is looped around portion 32 through the hole. Portion 32 is cut off in opened position where the loose knot becomes a tight knot.

(37) KDD 30 should be made of sturdy material often used in diagnostic catheters. It can be made of rubber or plastic like material strong enough to be pushed inside the body from outside.

(38) As in FIG. 4(a) with portion 32 is in closed position, cerclage suture 10 is made into a loop ready to be knotted at the distal end of KDD 30. Then, KDD 30 with the loosely knotted cerclage suture 10 is advanced inside the body and positioned appropriately. Then tension is applied and adjusted. When position and tension is verified, portion 32 is cut off as in FIG. 4(b), fixing the knot in place while maintaining the same amount of tension on the cerclage suture.

(39) FIG. 5(a)-(f) shows detailed steps of KDD 30 operation. FIG. 5(a)-(f) shows each steps of KDD 30 during MVA procedure.

(40) In summary, FIG. 5(a)-(f) is a set of drawings showing detailed steps of KDD 30 operation in a first embodiment. FIG. 5(a) shows a step of making a loose knot around the distal end of KDD 30 through hole 34 using cerclage suture 10. FIG. 5(b) shows a step of tension adjustment where suture 10 can be pulled or released until the mitral regurgitation stops.

(41) FIG. 5(c) shows a step of cutting off (or opening) hole 34, so that the loose knot is ready to form a tight knot 12. FIG. 5(d) shows a step of tightening the knot while maintaining the right amount of tension on the cerclage suture. FIG. 5(e) shows a step of cutting off the cerclage suture 10. Lastly, FIG. 5(f) shows the final step of cerclage procedure.

(42) According to FIG. 5(a)-(f), first, two strands of the cerclage suture 10 are inserted through hole 34 at the distal end of KDD 30. Second, two strands are looped and made ready to form a knot 12. Third, the two strands are passed through the body of KDD 30. Fourth, KDD 30 is advanced into heart and positioned at the end of stem portion 26 of CSTVPD 20. Hence, KDD 30 delivers cerclage suture knot to CSTVPD 20 while keeping the knot 12 from tightening until it is ready to be fixed.

(43) Then, appropriate amount of tension is applied to cerclage suture 10 and adjusted until mitral regurgitation ceases. In other words, tension on the cerclage suture 10 is adjusted by pulling or releasing the strands until the mitral regurgitation stops.

(44) Once right amount of tension is achieved, portion 32 of KDD 30 is cut off from KDD 30. Portion 32 of KDD 30 can be cut with a cutter or as explained below in FIG. 4(a)-(b), various methods can be utilized.

(45) When portion 32 is cut off from KDD 30, the loop tightens into a knot 12 while maintaining the right amount of tension on the cerclage suture as shown in FIG. 5(d), so that the end of cerclage suture is knotted at the distal end of stem portion 26 of CVTVPD 20. Once knot 12 is placed and tightened at the end of stem portion 26, stem portion 26 can now hold the two strands aligned and in place. This also enables knot 12 from becoming loose even under significant amount of tension from constant beat to beat contraction of the heart.

(46) At this stage, the cerclage suture 10 is cut at a certain distance from the knot 12 with a cutter as shown in FIG. 5(e). And then, the remainder of the cerclage suture 10 and KDD 30 is retracted from the the body as shown in FIG. 5(f). Thus upon completion of CSTVPD 20 procedure, CS tube 22 and TV tube 24 protects the surrounding tissue from cerclage suture 10 while maintaining constant tension on the cerclage suture 10.

(47) FIG. 6(a)-(b) is a set of drawings showing detailed operation of KDD 30 in a second embodiment using an inner tube 38 and an outer tube 36. Inner tube 38 and outer tube 36 each have a proximal end and a distal end. Inner tube 38 is insertable and rotatable inside outer tube 36.

(48) The distal end of inner tube 38 has opening 39. The opening 39 is further divided into a small opening 39a and a larger opening 39b. The distal end of outer tube 36 has opening 37.

(49) When the tubes 38, 36 in a closed position by rotating either outer tube 36 or inner tube 38, hole 34 is created near the distal end. Likewise, when the tubes 38, 36 in a opened position by rotating either outer tube 36 or inner tube 38, hole 34 joins opening 37 of outer tube 36 and lengthens. Outer tube 36 and inner tube 38 are made of basic catheter type of material.

(50) FIG. 6(a) shows KDD 30 in closed position where hole 34 is created near the distal ends of KDD 30 by rotating either the outer tube 36 or the inner tube 38, so that a loose knot is formed around the distal ends of KDD 30 through hole 34 using cerclage suture 10.

(51) FIG. 6(b) shows KDD 30 in open position where an opening is created near the distal ends of KDD 30 by rotating either the outer tube 36 or the inner tube 38, so that a loose knot is ready to form a tight knot 12 without a cutting step shown in FIG. 5(c).

(52) In a preferred embodiment, inner tube 38 has the small opening whose length is L1 and diameter d2, and the large opening whose length is L2 and diameter d3, wherein outer tube 36 has length less than or equal to the sum of L1 and L2, and diameter d, and wherein d3 is wider or equal to the sum of d1 and d2.

(53) While the invention has been described in terms of specific embodiments, it is apparent that other forms could be adopted by one skilled in the art. Accordingly, it should be understood that the invention is not limited to the specific embodiments illustrated in the Figures. It should also be understood that the phraseology and terminology employed above are for the purpose of disclosing the illustrated embodiments, and do not necessarily serve as limitations to the scope of the invention.