Methods and apparatus for cardiac valve repair
First Claim
1. A method for repairing an atrioventricular valve, said method comprising:
- accessing a patient'"'"'s vasculature remote from the heart;
advancing an interventional tool through the vasculature to a ventricle;
engaging the tool against valve leaflets of the atrioventricular valve, wherein the heart remains beating while the interventional tool is engaged against the valve leaflets and wherein the tool modifies the valve leaflets in a manner that reduces leakage through the valve during ventricular systole; and
stabilizing the interventional tool relative to the valve leaflets prior to engaging the leaflets with the interventional tool.
6 Assignments
0 Petitions
Accused Products
Abstract
The methods, devices, and systems are provided for performing endovascular repair of atrioventricular and other cardiac valves in the heart. Regurgitation of an atrioventricular valve, particularly a mitral valve, can be repaired by modifying a tissue structure selected from the valve leaflets, the valve annulus, the valve chordae, and the papillary muscles. These structures may be modified by suturing, stapling, snaring, or shortening, using interventional tools which are introduced to a heart chamber. Preferably, the tissue structures will be temporarily modified prior to permanent modification. For example, opposed valve leaflets may be temporarily grasped and held into position prior to permanent attachment.
1541 Citations
95 Claims
-
1. A method for repairing an atrioventricular valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart;
advancing an interventional tool through the vasculature to a ventricle;
engaging the tool against valve leaflets of the atrioventricular valve, wherein the heart remains beating while the interventional tool is engaged against the valve leaflets and wherein the tool modifies the valve leaflets in a manner that reduces leakage through the valve during ventricular systole; and
stabilizing the interventional tool relative to the valve leaflets prior to engaging the leaflets with the interventional tool. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43)
capturing the valve leaflets; and
holding the leaflets together at one or more adjacent points.
-
-
9. A method as in claim 8, further comprising observing flow through the held valve leaflets to determine if regurgitation has been inhibited.
-
10. A method as in claim 9, further comprising securing the leaflets together at said adjacent point(s) if regurgitation has been sufficiently inhibited.
-
11. A method as in claim 9, further comprising repositioning the held valve leaflets if the regurgitation has not been sufficiently inhibited.
-
12. A method as in claim 1, wherein stabilizing comprises releasably capturing chordae attached to each leaflet.
-
13. A method as in claim 12, wherein releasably capturing the chordae comprises advancing a snare through the network of chordae and tightening the snare.
-
14. A method as in claim 1, wherein stabilizing comprises releasably grasping each leaflet.
-
15. A method as in claim 1, wherein stabilizing comprises releasably coupling the interventional tool to a tissue structure.
-
16. A method as in claim 15, wherein the tissue structure is selected from the group consisting of the interatrial septum, the atrial wall, the valve annulus, the chordae, the papillary muscles, and the commissures.
-
17. A method as in claim 1, wherein stabilizing comprises mechanically fixing the shape of the interventional tool after the tool has been advanced to the valve.
-
18. A method as in claim 1, wherein the atrioventricular valve is a mitral valve and wherein accessing comprises accessing a vena cava and advancing comprises passing the interventional tool into the right atrium, passing the tool through the interatrial septum into the left atrium, and approaching the mitral valve from above.
-
19. A method as in claim 18, wherein accessing further comprises entering the venous vasculature through an access location in the inferior vena cava, the superior vena cava, a femoral vein, or an internal jugular vein, and advancing the interventional tool from the access location into the right atrium.
-
20. A method as in claim 19, wherein entering, the venous vasculature comprises introducing the interventional tool percutaneously into a femoral artery, advancing the interventional tool upwardly through the inferior vena cava into the right atrium, forming a passage through the interatrial septum into the left atrium, advancing the interventional tool through the passage into the left atrium, and turning the tool downward to direct a working end thereof at the mitral valve.
-
21. A method as in claim 20, wherein forming the passage comprises penetrating a needle through the interatrial septum.
-
22. A method as in claim 20, wherein turning the tool downward comprises everting a distal tip of the tool.
-
23. A method as in claim 19, wherein entering comprises percutaneously entering the access location with a sheath.
-
24. A method as in claim 19, wherein entering comprises surgically opening a passage to the access location in the arterial vasculature.
-
25. A method as in claim 19, wherein accessing further comprises placing a guide catheter from the access location to the right atrium, through the interatrial septum, and into the left atrium, wherein the interventional tool is passed through the guide catheter.
-
26. A method as in claim 25, further comprising coupling the guide catheter to the interatrial septum to stabilize the guide catheter.
-
27. A method as in claim 26, wherein coupling comprises inflating a pair of balloons on the guide catheter to capture the septum therebetween.
-
28. A method as in claim 25, wherein accessing further comprises engaging a distal structure on the guide catheter against the mitral valve, tissue surrounding the mitral valve, or an internal surface of the left atrium.
-
29. A method as in claim 28, wherein stabilizing elements coupled to the guide catheter are engaged against the mitral valve annulus.
-
30. A method as in claim 29, wherein stabilizing elements coupled to the guide catheter are engaged against the commissures of the mitral valve.
-
31. A method as in claim 19, wherein accessing further comprises engaging a distal structure on the interventional tool against the mitral valve, tissue surrounding the mitral valve, or an internal surface of the left atrium.
-
32. A method as in claim 1, wherein accessing comprises accessing the aortic arch and advancing comprises passing the interventional tool through the aortic valve into the left ventricle and approaching the mitral valve from below.
-
33. A method as in claim 32, wherein accessing further comprises entering the arterial vasculature through an access location in the femoral artery, the brachial artery, or a carotid artery and advancing the interventional tool from the access location to the aortic arch.
-
34. A method as in claim 33, wherein entering comprises percutaneously entering the access location with a sheath.
-
35. A method as in claim 33, wherein entering comprises surgically opening a passage to the access location in the arterial vasculature.
-
36. A method as in claim 32, wherein accessing further comprises placing a guide catheter from the access location through the aortic valve into the left ventricle, wherein the interventional tool is advanced through the guide catheter.
-
37. A method as in claim 36, wherein accessing further comprises engaging a distal structure of the guide catheter against the mitral valve, the mitral valve chordae, the papillary muscles, or an internal surface of the left ventricle.
-
38. A method as in claim 37, wherein stabilizing elements coupled to the guide catheter are engaged against the commissures, or the annulus of the mitral valve.
-
39. A method as in claim 37, wherein stabilizing elements coupled to the guide catheter are engaged against the internal surface of the left ventricle.
-
40. A method as in claim 37, wherein the stabilizing elements are balloons and the engaging step comprises inflating the balloons against the internal structure of the left ventricle.
-
41. A method as in claim 37, wherein the stabilizing elements are wire or cage structures and the engaging step comprises deploying the wire or cage structures laterally against the internal surface of the left ventricle.
-
42. A method as in claim 1, further comprising visualizing the mitral valve and surrounding tissue structures during engaging and modifying the valve leaflets.
-
43. A method as in claim 42, wherein visualization comprises trans-esophageal echocardiography, fluoroscopy, or angioscopy.
-
44. A method for stabilizing an atrioventricular valve, said method comprising:
-
capturing chordae attached to at least one leaflet of the valve while the heart is beating; and
affixing the valve leaflets while the chordae remain captured. - View Dependent Claims (45, 46, 47, 48)
-
-
49. A method for immobilizing two valve leaflets in a cardiac valve, said method comprising:
-
providing a leaflet capture catheter having at least three grasping prongs;
capturing a first valve leaflet between a first pair of prongs; and
capturing a second valve leaflet between a second pair of prongs. - View Dependent Claims (50, 51)
-
-
52. A method for repairing an atrioventricular valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart;
advancing an interventional tool through the vasculature to a ventricle; and
engaging the tool against a tissue structure which forms or supports the atrioventricular valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole, wherein the tissue structure comprises the chordae and the engaging step comprises linking opposed chordae together. - View Dependent Claims (53, 54, 55, 56, 57, 58)
-
-
59. A method for repairing an atrioventricular valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart;
advancing an interventional tool through the vasculature to a ventricle; and
engaging the tool against a tissue structure which forms or supports the atrioventricular valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole, wherein the tissue structure comprises the chordae and the engaging step comprises shortening the chordae which comprises mechanically plicating the chordae. - View Dependent Claims (60, 61, 62, 63, 64, 65)
-
-
66. A method for repairing an atrioventricular valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart;
advancing an interventional tool through the vasculature to a ventricle; and
engaging the tool against a tissue structure which forms or supports the atrioventricular valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole, wherein the tissue structure comprises papillary muscles and the engaging step comprises capturing and drawing opposed points of the papillary muscles together. - View Dependent Claims (67, 68, 69, 70, 71, 72, 79)
-
-
73. A method for repairing an atrioventricular valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart;
advancing an interventional tool through the vasculature to a ventricle; and
engaging the tool against a tissue structure which forms or supports the atrioventricular valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole, wherein valve action is stopped temporarily by raising the pressure in the ventricle above pressure in the atrium during diastole.
-
-
74. A method for repairing an atrioventricular valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart;
advancing an interventional tool through the vasculature to a ventricle; and
engaging the tool against a tissue structure which forms or supports the atrioventricular valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole, wherein valve action is stopped temporarily by mechanically restraining the leaflets.
-
-
75. A method for repairing a mitral valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart, wherein accessing comprises accessing a vena cava by entering through an access location in the inferior vena cava, the superior vena cava, a femoral vein, or an internal jugular vein, wherein accessing further comprises placing a guide catheter from the access location to a right atrium, through an interatrial septum, and into a left atrium, wherein an interventional tool is passed through the guide catheter;
coupling the guide catheter to the interatrial septum to stabilize the guide catheter;
advancing the interventional tool through the vasculature to a ventricle, wherein advancing comprises passing the interventional tool from the access location into the right atrium, passing the tool through the interatrial septum into a left atrium, and approaching the mitral valve from above; and
engaging the tool against a tissue structure which forms or supports the mitral valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole.- View Dependent Claims (76, 77, 78, 80, 81)
-
-
82. A method for repairing a mitral valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart, wherein accessing comprises accessing a vena cava by entering through an access location in the inferior vena cava, the superior vena cava, a femoral vein, or an internal jugular vein, wherein accessing further comprises placing a guide catheter from the access location to a right, atrium, through an interatrial septum, and into a left atrium, and engaging a distal structure on the guide catheter against the mitral valve, tissue surrounding the mitral valve, or an internal surface of the left atrium, wherein an interventional tool is passed through the guide catheter;
advancing the interventional tool through the vasculature to a ventricle, wherein advancing comprises passing the interventional tool from the access location into the right atrium, passing the tool through the interatrial septum into a left atrium, and approaching the mitral valve from above; and
engaging the tool against a tissue structure which forms or supports the mitral valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole. - View Dependent Claims (83, 84, 85, 86, 87, 88, 89)
-
-
90. A method for repairing a mitral valve, said method comprising:
-
accessing a patient'"'"'s vasculature remote from the heart, wherein accessing comprises accessing the aortic arch and wherein accessing further comprises placing a guide catheter from the access location through an aortic valve into a left ventricle, and engaging a distal structure of the guide catheter against the mitral valve, mitral valve chordae, papillary muscles, or an internal surface of the left ventricle, wherein an interventional tool is advanced through the guide catheter;
advancing the interventional tool through the vasculature to a ventricle, wherein advancing comprises passing the interventional tool through the aortic valve into the left ventricle and approaching the mitral valve from below; and
engaging the tool against a tissue structure which forms or supports the atrioventricular valve, wherein the tool modifies the tissue structure in a manner that reduces leakage through the valve during ventricular systole. - View Dependent Claims (91, 92, 93, 94)
-
-
95. A method for stabilizing an atrioventricular valve, said method comprising:
capturing chordae attached to at least one leaflet of the valve while the heart is beating, wherein capturing comprises advancing a snare to entangle the chordae.
Specification