Cardiac valve procedure methods and devices
First Claim
1. A method for enabling performance of an operation on a cardiac valve of a heart while the heart is beating, comprising the steps of:
- a) placing at least one temporary valve in a flow path of a blood vessel downstream from said cardiac valve, said temporary valve being operative to effect greater antegrade flow than retrograde flow through said vessel; and
b) placing at least one temporary filter in said flowpath downstream from said cardiac valve, said filter being operative to restrict the passage of emboli while allowing blood to flow through said vessel.
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Accused Products
Abstract
The present invention discloses devices and methods for performing intravascular procedures with out: cardiac bypass. The devices include various embodiments of temporary filter devices, temporary valves, and prosthetic valves. The temporary filter devices have one or more cannulae which provide access for surgical tools for effecting repair of the cardiac valves. A cannula may have filters of various configurations encircling the distal region of the cannula, which prevent embolitic material from entering the coronary arteries and aorta. The temporary valve devices may also have one or more cannulae which guide the insertion of the valve into the aorta. The valve devices expand in the aorta to occupy the entire flow path of the vessel. In one embodiment, the temporary valve is a disc of flexible, porous, material that acts to filter blood passing therethrough. A set of valve leaflets extend peripherally from the disc. These leaflets can alternately collapse to prevent blood flow through the valve and extend to permit flow. The prosthetic valves include valve fixation devices which secure the prosthetic valve to the wall of the vessel. In one embodiment, the prosthetic valves have at least one substantially rigid strut, at least two expandable fixation rings located about the circumference of the base of the apex of the valve, and one or more commissures and leaflets. The prosthetic valves are introduced into the vascular system a compressed state, advanced to the site of implantation, expanded and secured to the vessel wall.
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Citations
38 Claims
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1. A method for enabling performance of an operation on a cardiac valve of a heart while the heart is beating, comprising the steps of:
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a) placing at least one temporary valve in a flow path of a blood vessel downstream from said cardiac valve, said temporary valve being operative to effect greater antegrade flow than retrograde flow through said vessel; and
b) placing at least one temporary filter in said flowpath downstream from said cardiac valve, said filter being operative to restrict the passage of emboli while allowing blood to flow through said vessel.
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2. A method for performing an operation on a cardiac valve of a heart while the heart is beating, comprising the steps of:
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a) positioning at least one temporary valve in a flow path of a blood vessel downstream from said cardiac valve, said temporary valve being operative to effect greater antegrade flow than retrograde flow through said vessel;
b) resecting at least a portion of the cardiac valve; and
c) affixing at least one prosthetic valve at or downstream from said resected cardiac valve.
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3. A device for performing intravascular procedures wherein at least a portion of the device is adapted for placement in a flowpath of a blood vessel, said intravascular portion comprising:
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a) a valve means that acts to allow greater antegrade flow than retrograde flow through said vessel; and
b) a filter operative to restrict the passage of emboli while allowing blood flow through said vessel.
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4. A device for filtering blood flowing through a vessel within the vascular system, said device comprising:
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a) an expandable element operative to direct bloodflow through said vessel to a flow area of said vessel; and
b) a filter operative to filter the blood passing through said portion of said flow area.
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5. A device for use in intravascular procedures, wherein at least a portion of the device is adapted for placement in a flowpath of a blood vessel, the intravascular portion comprising:
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a) a filter including a flowpath spanning portion operative to filter at least a portion of blood flowing through said vessel; and
b) a valve assembly including valve elements and said flowpath spanning portion, said valve elements being positionable in a first state away from said flowpath spanning portion to permit antegrade blood flow through said flowpath spanning portion, and positionable in a second state adjacent to said flowpath spanning portion to prevent retrograde blood flow through said flowpath spanning portion.
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6. An expandable valve for insertion into a vessel to allow greater flow along a central axis of said vessel in a first direction than in a second, opposite direction, said valve comprising:
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a) an expandable member adapted for selective expansion to abut the wall of the vessel, said expandable member having at least one flow path therethrough;
b) a valve element, said valve element opening during flow through said flow path in said first direction while closing over said flow path during flow in said second direction; and
wherein said expandable member and said valve element are unitary assembly adapted for insertion into said vessel in a collapsed state along an axis angularly offset from said central axis of said vessel.
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7. An expandable valve adapted to be expanded to abut the interior wall of a vessel and occupy substantially all of a cross-sectional flow area of said vessel, said valve comprising:
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a) a flexible, elongated element, said elongated element configured into a loop that can be collapsed to form two adjacent parallel segments mutually joined at their respective ends, and that can be expanded to a ring-like form adapted to abut the interior wall of said vessel, said loop adapted to occupy a portion of the cross-sectional flow area of said vessel;
b) a backing element affixed to and spanning said loop, said loop and said backing elements forming a valve base; and
c) at least one valve leaflet peripherally affixed to said valve base, said valve leaflet adapted in a first state to collapse against said backing element to prevent flow in a first direction through said valve base, and adapted in a second state to move away from said backing element to permit fluid flow in a second direction through said valve base. - View Dependent Claims (8, 9)
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10. A method for providing a valve within a tubular vascular structure, comprising:
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a) inserting an expandable valve in a collapsed state into said vascular structure through an entry site; and
b) expanding said valve within said vascular structure to an expanded state proximate to said entry site. - View Dependent Claims (11)
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12. An expandable intravascular filter device adapted to filter blood flowing through a tubular vascular structure, said filter comprising:
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a) an elongated filament, said filament having a proximal and a distal end, said distal end being adapted to be inserted into said vessel through an entry site; and
b) an expandable filter, said filter being adapted to track along said filament, said filter having a collapsed state with a relatively small maximum transverse dimension and having an expanded state with a relatively large transverse dimension, said filter being insertable into said vessel in a collapsed state and expandable in said vessel to an expanded state, wherein said filter occupies a cross sectional flow area of said vessel not occupied by said filament, said filter being attached to said filament proximal to the distal end of said filament. - View Dependent Claims (15, 16)
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13. An expandable intravascular filter kit, said kit comprising:
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a) an elongated cannula having an outer diameter D and defining at least one lumen passing therethrough, said cannula having a proximal and a distal end, said distal end being adapted for insertion into a blood vessel through an entry site, b) a filter axially and slidingly positioned along a limited portion of the outer surface of said cannula near said distal end, said filter being collapsible in a first state whereby a maximum dimension of said filter and said cannula is relatively small, and thereby being adapted in said first state for insertion into said vessel and being expandable in a second state, whereby said filter extends transverse to a central axis of said cannula, thereby being adapted to span at least a portion of said vessel and to filter blood flowing therethrough. - View Dependent Claims (14)
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17. A valve fixation device for affixing a flexible prosthetic valve to the interior wall of a vessel, said prosthetic valve having a generally cylindrical shape with a base, an apex, an interior surface and an exterior surface, said prosthetic valve further having a long axis passing through the centers of the circles formed by at least two circumferences of said cylindrical shape along the distance between said apex and said base, said fixation device comprising:
a) at least two expandable fixation rings, said rings being expandable from a first compressed state having a relatively small maximum transverse dimension to a second expanded state having a relatively large maximum transverse dimension, said rings expandable in a direction perpendicular to the long axis of said prosthetic valve, each of said rings being affixed to said prosthetic valve near a respective end thereof. - View Dependent Claims (18)
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19. A prosthetic cardiac valve comprising:
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a) flexible prosthetic valve means having a generally cylindrical shape with a base, an apex, an interior surface and an exterior surface, said prosthetic valve further having valve leaflets joined to said interior surface, said leaflets forming commissures where two of said leaflets meet along said interior surface, said prosthetic valve further having a long axis passing through the centers of the circles formed by at least two circumferences of said cylindrical shape taken along the distance between said apex and said base;
b) at least two expandable fixation rings, each being affixed to a respective end of said prosthetic valve at least one point, said rings being expandable in a direction perpendicular to the long axis of said prosthetic valve; and
c) at least one rigid strut on the exterior surface of said prosthetic valve passing along an axis parallel to the long axis of said valve, said struts being affixed to said rings at least one point on each of said rings. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26)
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27. A method for affixing a prosthetic valve to the wall of a vessel, comprising the steps of:
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a) during cardiac rhythm, inserting said prosthetic valve into a vessel in a compressed state;
b) advancing said prosthetic valve to the site of implantation;
c) expanding said prosthetic valve to an expanded state; and
d) passing at least one fixation means entirely through the wall of said vessel. - View Dependent Claims (28, 29, 30, 31)
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32. A method of replacing a native cardiac valve, comprising the steps of:
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a) during cardiac rhythm, inserting into a vessel the distal ends of a set of two concentric cannulae including an inner cannula and an outer cannula, said inner cannula having a smaller outer diameter than the inner diameter of said outer cannula such that said inner cannula can be slidably placed within a lumen of said outer cannula;
b) advancing the distal ends of said cannulae to a site proximate to said cardiac valve;
c) positioning said cannula whereby the distal end of said inner cannula extends beyond the distal of end of said outer cannula, and expanding an expandable member secured to an outer surface of said cannula, whereby said expandable member occupies substantially all of the cross sectional flow area of said vessel;
d) performing a procedure on said native valve at least in part through a lumen of the inner cannula;
e) removing said inner cannula and said expandable member through said lumen of said outer cannula, the distal end of said outer cannula remaining proximate to the attachment site of said cardiac valve to said vessel;
f) advancing a valve prosthesis through said outer lumen of said cannula to a site at or near the attachment site of said cardiac valve; and
g) affixing said valve prosthesis to the wall of said vessel.
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33. A method of repairing and replacing a stenosed cardiac valve comprising the steps of:
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a) during cardiac rhythm, disrupting said cardiac valve, without completely removing said cardiac valve such that said cardiac valve no longer functions as a valve, thereby decreasing pressure drop across said cardiac valve; and
b) implanting a prosthetic valve downstream of said cardiac valve.
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34. A method of replacing a diseased cardiac valve comprising the sequential steps of:
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a) during cardiac rhythm, placing a valve prosthesis into a vessel downstream of said cardiac valve; and
b) resecting at least some portion of said cardiac valve.
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35. A method of replacing a diseased cardiac valve comprising the sequential steps of:
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a) during cardiac rhythm, placing a valve prosthesis into a vessel downstream of said cardiac valve;
b) resecting at least some portion of said cardiac valve;
c) repositioning said valve prosthesis to or near the site of the resected cardiac valve; and
d) affixing said valve prosthesis to the wall of said vessel.
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36. A method of replacing a diseased cardiac valve comprising the steps of:
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a) during cardiac rhythm, inserting an expandable valve prosthesis into a vessel in a collapsed state and positioning said valve prosthesis at the site of said cardiac valve;
b) expanding said valve prosthesis and crushing said cardiac valve against the wall of said vessel; and
c) affixing the valve prosthesis to said vessel wall through the crushed cardiac valve.
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37. A method of resecting cardiac valve leaflets attached to the inner wall of a vessel comprising the steps of:
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a) during cardiac rhythm, inserting one end of a elongated resection instrument into the vascular system and advancing said end proximate to said cardiac valve;
b) directing said end against the wall of said vessel;
c) advancing said end along the wall of said vessel until it makes contact with a the attachment of said leaflet of said cardiac valve to said vessel; and
d) resecting said leaflet with said resection instrument.
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38. A method of repairing a stenotic cardiac valve comprising the steps of:
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a) during cardiac rhythm, disrupting the leaflets of said valve such that the pressure drop across said valve is decreased; and
b) supporting said leaflets with a valve support device that at least in part spans the flow area of said valve upstream of said valve leaflets.
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Specification