Helical anchor implantation

Description

FIELD OF THE INVENTION

Embodiments of the present invention relate in general to valve replacement. More specifically, embodiments of the present invention relate to prosthetic valves for replacement of an atrioventricular valve.

BACKGROUND

Dilation of the annulus of the mitral valve prevents the valve leaflets from fully coapting when the valve is closed. Regurgitation of blood from the ventricle into the atrium results in increased total stroke volume and decreased cardiac output, and ultimate weakening of the ventricle secondary to a volume overload and a pressure overload of the atrium. Dilation of the annulus is sometimes treated by implanting a prosthetic mitral valve at a patient's native mitral valve.

SUMMARY

For some applications of the present invention, one or more guide members (e.g., wires, sutures, or strings) is configured to be anchored to respective commissures of a native atrioventricular valve of a patient, and each guide member facilitates the advancement therealong of respective commissural anchors. The commissural anchors are shaped so as to define a plurality of barbs or prongs which are expandable to restrict proximal movement of the anchors following their deployment. The guide members facilitate advancement of a collapsible prosthetic valve support (e.g., a skirt) which serves as a base for and receives a collapsible prosthetic mitral valve which is subsequently coupled to the support. The support comprises a proximal annular element, or ring, and a distal cylindrical element. The cylindrical element is configured to push aside and press against the native leaflets of the native valve, and the proximal annular element is shaped so as to define one or more holes for sliding the valve support along the one or more guide members. The proximal annular element is configured to be positioned along the annulus of the native valve.

The collapsible prosthetic valve is configured for implantation in and/or at least partial replacement (e.g., full replacement) of the native atrioventricular valve of the patient, such as a native mitral valve or a native tricuspid valve. The valve support and the prosthetic valve are configured to assume collapsed states for minimally-invasive delivery to the diseased native valve, such as by percutaneous or transluminal delivery using one or more catheters. For some applications, the valve support and the prosthetic valve are implanted during an open-heart procedure.

The prosthetic valve support is shaped so as to define a downstream skirt. The downstream skirt is configured to be placed at native valve, such that the downstream skirt passes through the orifice of the native valve and extends toward, and, typically partially into, a ventricle. The downstream skirt typically additionally pushes aside and presses against the native leaflets of the native valve, which are left in place during and after implantation of the prosthetic valve support and/or the prosthetic valve.

The proximal annular element has upper and lower surfaces. For some applications of the present invention, one or more, e.g., a plurality of, tissue anchors are coupled to the lower surface and facilitate anchoring of the proximal annular element to the annulus of the native valve. For some applications, the one or more anchors comprise at least first and second commissural anchors that are configured to be implanted at or in the vicinity of the commissures of the native valve.

The cylindrical element of the valve support has first and second ends and a cylindrical body disposed between the first and second ends. The first end of the cylindrical element is coupled to the annular element while the second end defines a free end of the cylindrical element. For some applications of the present invention, the cylindrical element of the valve support is invertible such that (1) during a first period, the second end and the cylindrical body of the cylindrical element are disposed above the annular element (e.g., in the atrium of the heart), and (2) during a second period, the second end and the cylindrical body of the cylindrical element are disposed below the annular element (e.g., in the ventricle of the heart).

For some applications, techniques are applied to facilitate sealing of the interface between the valve support and the native valve, and/or the interface between the prosthetic valve and the native valve. For example, a sealing balloon may be placed on a valve-facing, lower side of the annular element of the valve support, the sealing balloon being configured to be inflated such that the balloon seals the interface between the valve support and the native valve. Alternatively or additionally, commissural helices are wrapped around chordae tendineae of the patient in order to facilitate sealing of the valve commissures around the valve support and/or around the valve. Further alternatively or additionally, the valve commissures are grasped by grasping elements that act in order to facilitate sealing of the commissures around the valve support and/or around the valve. For some applications, one or more of the aforementioned sealing elements facilitates anchoring of the prosthetic valve to the native valve in addition to facilitating sealing.

For some applications, the prosthetic valve comprises an expandable frame (e.g., a wire frame), and a sealing material (such as latex) is disposed on the outer surface of the frame so as to form webbing between at least some of the struts of the wire frame, and to provide sealing between the wire frame and the native valve.

For some applications, an invertible prosthetic valve support is used to support a prosthetic valve. Typically, a sealing element is disposed circumferentially around a surface of the invertible prosthetic valve support that is initially an inner surface of the invertible prosthetic valve support. The invertible prosthetic valve support is anchored to the native valve, and is subsequently inverted. Subsequent to the inversion of the invertible prosthetic valve support, the sealing element is disposed on the outer surface of the invertible prosthetic valve support and acts to seal the interface between the outer surface and the native valve.

There is therefore provided, in accordance with some applications of the present invention, apparatus, including:

a prosthetic valve support configured to be placed at an annulus of a native atrioventricular valve of a patient, the prosthetic valve support defining an annular element that defines an inner cross-sectional area thereof;

an expandable prosthetic valve configured to be placed into a ventricle of the patient, the prosthetic valve including:

- an expandable frame; and
- prosthetic valve leaflets coupled to the expandable frame;

the expandable frame of the prosthetic valve being configured such that when the frame is in a non-constrained state thereof, a cross-sectional area of the frame, along at least a given portion of a length of the frame, is greater than the cross-sectional area defined by the annular element of the prosthetic valve support,

the prosthetic valve thereby being couplable to the prosthetic valve support at any location along the portion, responsively to radial forces acted upon the valve support by the expandable frame, by the expandable frame being expanded when the location along the portion is aligned with the annular element of the prosthetic valve support.

For some applications, the valve support is collapsible for transcatheter delivery.

For some applications, the native atrioventricular valve includes a mitral valve, and the prosthetic valve includes three prosthetic leaflets.

For some applications, the annular element of the valve support is asymmetrically shaped.

For some applications, the annular element is shaped to define a hole, and a center of the hole is disposed asymmetrically with respect to an outer perimeter of the annular element.

For some applications, the frame includes proximally-facing protrusions at a distal end thereof, the protrusions being configured to prevent proximal migration of the valve into an atrium.

For some applications, the protrusions are disposed at an angle from the frame of more than 40 degrees.

For some applications, the protrusions are disposed at an angle from the frame of less than 80 degrees.

For some applications, a length of each of the protrusions is less than 5 mm.

For some applications, the frame includes a single proximally-facing protrusion corresponding to each native valve leaflet of the valve, each of the protrusions having a width of less than 1 mm.

For some applications, the protrusions are disposed in a sinusoidal configuration such that the protrusions conform with a saddle shape of the patient's native annulus.

For some applications, the protrusions are configured to prevent the native leaflets from interfering with a left ventricular outflow tract of the patient.

For some applications, the frame includes first and second sets of one or more protrusions, each set of protrusions configured to ensnare a respective native leaflet of the native valve of the patient, the first set of protrusions being disposed within a first circumferential arc with respect to a longitudinal axis of the prosthetic valve, on a first side of a distal end of the frame, the second set of protrusions being disposed within a second circumferential arc with respect to the longitudinal axis of the prosthetic valve, on a second side of the distal end of the frame, the first and second sets being disposed so as to provide first and second gaps therebetween at the distal end of the frame, at least one of the gaps having a circumferential arc of at least 20 degrees, the apparatus further including one or more valve guide members configured to be delivered to one or more commissures of the native valve, and to guide the valve such that the first and second circumferential arcs are aligned with respective leaflets of the native valve and such that the first and second gaps are aligned with respective commissures of the native valve.

For some applications, the at least one of the gaps has a circumferential are of at least 60 degrees.

For some applications, the first circumferential arc defines an angle of between 25 degrees and 90 degrees about the longitudinal axis of the prosthetic valve.

For some applications, the second circumferential arc defines an angle of between 25 degrees and 90 degrees about the longitudinal axis of the prosthetic valve.

For some applications, the first circumferential arc defines an angle of between 45 degrees and 75 degrees about the longitudinal axis of the prosthetic valve.

For some applications, the second circumferential arc defines an angle of between 45 degrees and 75 degrees about the longitudinal axis of the prosthetic valve.

For some applications, the expandable frame of the prosthetic valve is configured such that when the frame is in a non-constrained state thereof the frame has a maximum diameter of less than 25 mm.

For some applications, the expandable frame of the prosthetic valve is configured such that when the frame is in a non-constrained state thereof the frame has a maximum diameter of more than 15 mm.

For some applications, the expandable frame of the prosthetic valve is configured such that when the frame is in a non-constrained state thereof the frame has a maximum diameter of less than 20 mm.

For some applications, the expandable frame of the prosthetic valve is configured such that when the frame is in a non-constrained state thereof, a cross-sectional area of the frame at a proximal end of the frame is greater than a cross-sectional area of the frame at a distal end of the frame.

For some applications, the expandable frame of the prosthetic valve is configured such that when the frame is in the non-constrained state thereof the frame defines a frustoconical shape.

For some applications, the expandable frame of the prosthetic valve is configured such that when the frame is in the non-constrained state thereof the frame defines a trumpet shape.

There is further provided, in accordance with some applications of the present invention, a method, including:

placing a prosthetic valve support at an annulus of a native atrioventricular valve of a patient, the prosthetic valve support defining an annular element that defines an inner cross-sectional area thereof;

placing into a ventricle of the patient, an expandable prosthetic valve,

- the prosthetic valve including an expandable frame, and prosthetic valve leaflets coupled to the expandable frame,
- the expandable frame of the prosthetic valve being configured such that when the frame is in a non-constrained state thereof, a cross-sectional area of the frame, along at least a given portion of a length of the frame, is greater than the cross-sectional area defined by the annular element of the prosthetic valve support;

determining a location anywhere along the portion at which to couple the expandable valve the prosthetic valve support; and

in response thereto,

aligning the location along the portion of the expandable frame with the annular element of the prosthetic valve support; and

coupling the expandable valve to the prosthetic valve support at the location, responsively to radial forces acted upon the valve support by the expandable frame, by facilitating expansion of the expandable frame, when the location along the portion is aligned with the annular element of the prosthetic valve support.

For some applications, placing the valve support at the annulus includes transcatheterally placing the valve support at the annulus in a collapsed state.

For some applications, the native atrioventricular valve includes a mitral valve, and placing the prosthetic valve into the ventricle includes placing into the ventricle a prosthetic valve that includes three prosthetic leaflets.

For some applications, placing the prosthetic valve support at the annulus includes placing an asymmetrically-shaped prosthetic valve support at the annulus.

For some applications, placing the prosthetic valve support at the annulus includes placing at the annulus an annular element that is shaped to define a hole, a center of the hole being disposed asymmetrically with respect to an outer perimeter of the annular element, the annular element being placed such that a center of the hole is disposed asymmetrically with respect to the annulus.

For some applications, the frame includes proximally-facing protrusions at a distal end thereof, the protrusions being configured to prevent proximal migration of the valve into an atrium, and coupling the expandable valve to the prosthetic valve support includes preventing proximal migration of the valve by coupling the valve to the valve support such that the leaflets are disposed at least partially between the protrusions and the valve support.

For some applications, coupling the expandable valve to the prosthetic valve support includes preventing the native leaflets from interfering with a left ventricular outflow tract of the patient.

For some applications, coupling the expandable valve to the prosthetic valve support includes allowing movement of the leaflets with respect to the frame while preventing the proximal migration of the valve.

For some applications, the frame includes first and second sets of one or more protrusions, each set of protrusions configured to ensnare a respective native leaflet of the native valve of the patient, the first set of protrusions being disposed within a first circumferential arc with respect to a longitudinal axis of the prosthetic valve, on a first side of a distal end of the frame, the second set of protrusions being disposed within a second circumferential arc with respect to the longitudinal axis of the prosthetic valve, on a second side of the distal end of the frame, the first and second sets being disposed so as to provide first and second gaps therebetween at the distal end of the frame, at least one of the gaps having a circumferential arc of at least 20 degrees, the method further including guiding the valve such that the first and second circumferential arcs are aligned with respective leaflets of the native valve and such that the first and second gaps are aligned with respective commissures of the native valve.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame to a maximum diameter of less than 25 mm.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame to a maximum diameter of more than 15 mm.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame to a maximum diameter of less than 20 mm.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame such that a cross-sectional area of the frame at a proximal end of the frame is greater than a cross-sectional area of the frame at a distal end of the frame.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame such that the frame defines a frustoconical shape.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame such that the frame defines a trumpet shape.

There is additionally provided, in accordance with some applications of the present invention, a method, including:

determining an indication of an area defined by an annulus of a native atrioventricular valve of a patient;

selecting a prosthetic valve support by determining that the prosthetic valve support defines an annular element that defines an inner cross-sectional area that is less than the area defined by the annulus;

placing the prosthetic valve support at the annulus of the native atrioventricular valve;

placing into a ventricle of the patient, an expandable prosthetic valve, the prosthetic valve including an expandable frame, and prosthetic valve leaflets coupled to the expandable frame;

a cross-sectional area defined by the expandable frame of the prosthetic valve being limited by the cross-sectional area defined by the annular element of the prosthetic valve support, such as to facilitate sealing of the native valve with respect to the prosthetic valve by facilitating closing of leaflets of the native valve around the prosthetic valve, upon deployment of the prosthetic valve.

For some applications, facilitating closing of leaflets of the native valve around the prosthetic valve includes facilitating sealing of the native valve at commissures of the native valve.

For some applications, facilitating closing of leaflets of the native valve around the prosthetic valve includes facilitating closing of the leaflets of the native valve around an outer surface of the expandable frame.

For some applications, placing the valve support at the annulus includes transcatheterally placing the valve support at the annulus in a collapsed state.

For some applications, placing the prosthetic valve support at the annulus includes placing an asymmetrically-shaped prosthetic valve support at the annulus.

For some applications, coupling the expandable valve to the prosthetic valve support includes preventing the native leaflets from interfering with a left ventricular outflow tract of the patient.

For some applications, coupling the expandable valve to the prosthetic valve support includes allowing movement of the leaflets with respect to the frame while preventing proximal migration of the valve.

For some applications, the frame includes first and second sets of one or more protrusions, each set of protrusions configured to ensnare a respective native leaflet of the native valve of the patient, the first set of protrusions being disposed within a first circumferential arc with respect to a longitudinal axis of the prosthetic valve, on a first side of a distal end of the frame, the second set of protrusions being disposed within a second circumferential arc with respect to the longitudinal axis of the prosthetic valve, on a second side of the distal end of the frame, the first and second sets being disposed so as to provide first and second gaps therebetween at the distal end of the frame, at least one of the gaps having a circumferential arc of at least 20 degrees, the method further including guiding the valve such that the first and second circumferential arcs are aligned with respective leaflets of the native valve and such that the first and second gaps are aligned with respective commissures of the native valve.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame to a maximum diameter of less than 25 mm.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame to a maximum diameter of more than 15 mm.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame to a maximum diameter of less than 20 mm.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame such that the frame defines a frustoconical shape.

For some applications, facilitating expansion of the frame includes facilitating expansion of the frame such that the frame defines a trumpet shape.

There is additionally provided, in accordance with some applications of the present invention, a method, including:

placing a prosthetic valve support at an annulus of a native atrioventricular valve of a patient;

placing a prosthetic valve into a ventricle of the patient, the prosthetic valve including protrusions at a distal end thereof;

ensnaring one or more native leaflets of the native valve of the patient with the protrusions; and

coupling the prosthetic valve to the native valve,

- by sandwiching native leaflets of the native valve between the protrusions and the valve support, by pulling the prosthetic valve proximally with respect to the valve support, and
- while the native leaflets are sandwiched between the protrusions and the valve support, coupling the prosthetic valve to the valve support, by facilitating radial expansion of the prosthetic valve such that the prosthetic valve is held in place with respect to the valve support responsively to radial forces acted upon the valve support by the prosthetic valve.

There is further provided, in accordance with some applications of the present invention, a method, including:

determining an indication of an area defined by an annulus of a native atrioventricular valve of a patient;

selecting a prosthetic valve to be placed in the native valve by determining that the valve defines a cross-sectional area that is less than 90% of the area defined by the annulus; and

deploying the prosthetic valve at the native valve,

the selecting of the prosthetic valve facilitating sealing of the native valve with respect to the prosthetic valve by facilitating closing of leaflets of the native valve around the prosthetic valve, upon deployment of the prosthetic valve.

For some applications, selecting the prosthetic valve includes selecting a prosthetic valve having a material disposed on an outer surface thereof.

For some applications, selecting the prosthetic valve includes selecting a prosthetic valve having a material that prevents tissue growth disposed on an outer surface thereof.

For some applications, selecting the prosthetic valve includes selecting a prosthetic valve having a material that promotes tissue growth disposed on an outer surface thereof.

For some applications, selecting the prosthetic valve to be placed in the native valve includes determining that the valve defines a cross-sectional area that is less than 80% of the area defined by the annulus.

For some applications, selecting the prosthetic valve to be placed in the native valve includes determining that the valve defines a cross-sectional area that is less than 60% of the area defined by the annulus.

There is further provided, in accordance with some applications of the present invention, apparatus, including:

one or more valve support guide members configured to be delivered to one or more commissures of a native atrioventricular valve of a patient;

one or more valve support anchors configured to be anchored to the one or more commissures of the native valve;

a prosthetic valve support advanceable toward the native valve along the one or more valve support guide members and anchored to the native valve at at least the one or more commissures; and

a prosthetic valve configured to be coupled to the valve support.

For some applications, the valve support is collapsible for transcatheter delivery and expandable to contact the native atrioventricular valve.

For some applications, the one or more valve support anchors are configured to be anchored to the one or more commissures from ventricular surfaces thereof.

For some applications, the one or more valve support guide members includes one valve support guide member that is looped through first and second commissures of the atrioventricular valve in a manner in which a looped portion of the valve support guide member is disposed in a ventricle of the patient and first and second free ends of the valve support guide member are accessible from a site outside a body of the patient.

For some applications, the one or more valve support anchors includes first and second tissue anchors, the first and second tissue anchors being configured to be anchored to respective first and second commissures of the atrioventricular valve of the patient.

For some applications:

the one or more valve support anchors each include one or more radially-expandable prongs, and

the one or more prongs are disposed within a sheath in a compressed state prior to the anchoring, and exposed from within the sheath in order to expand and facilitate anchoring of the valve support anchor to the respective commissures.

For some applications, the prosthetic valve includes two or more prosthetic leaflets.

For some applications, the native atrioventricular valve includes a mitral valve, and the prosthetic valve includes three prosthetic leaflets.

For some applications, the valve support guide members are removable from the patient following the anchoring of the prosthetic valve support at the atrioventricular valve.

For some applications, the valve support is shaped so as to define a distal portion which is configured to push aside, at least in part, native leaflets of the valve of the patient.

For some applications, the one or more valve support anchors are advanceable along the one or more valve support guide members.

For some applications, the valve support is shaped so as to define one or more holes, the one or more holes being configured to facilitate slidable passage therethrough of a respective one of the one or more valve support guide members.

For some applications, the prosthetic valve is shaped so as to define one or more snares configured to ensnare one or more native leaflets of the native valve of the patient.

For some applications, the one or more valve support anchors includes one or more ventricular anchors, and the apparatus further includes one or more atrial anchors, each atrial anchor being configured to be advanced toward an atrial surface of the valve support and anchor in place the valve support in a vicinity of a respective one of the ventricular anchors.

For some applications, the apparatus includes one or more delivery lumens, and:

each one of the one or more valve support anchors is removably coupled to a distal end of a respective delivery lumen,

the delivery lumen is configured to facilitate advancement of the one or more anchors along the one or more guide members, and

the delivery lumen is decoupled from the anchor following the anchoring of the anchor to the one or more commissures.

For some applications, the one or more valve support guide members are removable from the body of the patient following the advancement of the one or more anchors along the one or more guide members.

For some applications:

the valve support is shaped so as to define one or more holes,

the one or more holes are configured to facilitate slidable passage therethrough of a respective one of the one or more delivery lumens, and

the one or more delivery lumens are decoupleable from the respective valve support anchor following the anchoring of the valve support to at least the one or more commissures.

For some applications, the one or more delivery lumens are removable from the body of the patient following the anchoring of the valve support to at least the one or more commissures.

For some applications, the valve support includes an annular element and a generally cylindrical element coupled to the annular element, the generally cylindrical element being configured to push aside native leaflets of the native valve, the cylindrical element has first and second ends and a cylindrical body that is disposed between the first and second ends.

For some applications, the apparatus includes one or more annular element tissue anchors, the annular element has an upper surface and a lower surface, and the lower surface is coupled to the one or more annular element tissue anchors, the one or more annular element tissue anchors being configured to puncture tissue of a native annulus of the native valve of the patient.

For some applications, one or more annular element tissue anchors includes a plurality of annular element tissue anchors positioned around the lower surface of the annular element.

For some applications, the one or more annular element tissue anchors includes a first commissural anchor configured to puncture tissue of the native valve at a first commissure thereof, and a second commissural anchor configured to puncture tissue of the native valve at a second commissure thereof.

For some applications, each anchor of the one or more annular element tissue anchors includes a distal pointed tip and one or more radially-expandable prongs, the prongs being configured to expand and facilitate anchoring of the anchor and restrict proximal motion of the annular element tissue anchor.

For some applications, the apparatus includes one or more prosthetic valve guide members reversibly couplable to the cylindrical element in a vicinity of the second end of the cylindrical element, the prosthetic valve guide members being configured to facilitate advancement of the prosthetic valve therealong and toward the valve support.

For some applications:

- the first end of the cylindrical element is coupled to the annular element,
- during a first period, the second end of the cylindrical element is disposed above the annular element in a manner in which the body of the cylindrical element is disposed above the annular element, and
- the cylindrical element is invertible in a manner in which, during a second period, the second end of the cylindrical element is disposed below the annular element and the body of the cylindrical element is disposed below the annular element.

For some applications:

during the first period, the second end of the cylindrical element is disposed in an atrium of a heart of the patient and the annular element is positioned along an annulus of the native valve,

the prosthetic valve is advanceable along the one or more prosthetic valve guide members into a ventricle of the heart of the patient, and

in response to advancement of the prosthetic valve into the ventricle, the one or more prosthetic valve guide members are pulled into the ventricle and pull the second end and the body of the cylindrical element into the ventricle to invert the cylindrical element.

There is further provided, in accordance with some applications of the present invention, a method, including:

advancing one or more valve support guide members toward one or more commissures of a native atrioventricular valve of a patient;

advancing along the one or more valve support guide members one or more valve support tissue anchors toward the one or more commissures;

anchoring the one or more valve support tissue anchors to the one or more commissures;

anchoring a prosthetic valve support at the native atrioventricular valve by anchoring the prosthetic valve support at at least the one or more commissures; and

coupling a prosthetic valve to the prosthetic valve support.

For some applications, the method includes removing the one or more valve support guide members following the anchoring of the prosthetic valve support at the native atrioventricular valve.

For some applications, advancing the one or more valve support guide members toward the one or more commissures includes advancing one guide member and looping the one guide member through first and second commissures of the native atrioventricular valve in a manner in which a looped portion of the guide member is disposed in a ventricle of the patient and first and second free ends of the guide member are accessible from a site outside a body of the patient.

For some applications, anchoring the one or more valve support anchors includes anchoring the one or more valve support anchors to ventricular surface of the respective commissures of the native valve.

For some applications, anchoring the one or more valve support anchors includes anchoring first and second tissue anchors to respective first and second commissures of the native valve.

For some applications:

advancing along the one or more valve support guide members the one or more valve support tissue anchors includes advancing the one or more valve support tissue anchors within a sheath, and

anchoring the one or more valve support tissue anchors includes exposing the one or more valve support anchors from within the sheath and facilitating radial expansion of one or more radially-expandable prongs of the one or more anchors.

For some applications, coupling the prosthetic valve to the prosthetic valve support includes coupling a prosthetic valve having two or more leaflets.

For some applications, the native atrioventricular valve includes a mitral valve of the patient, and coupling the prosthetic valve to the prosthetic valve support includes coupling a prosthetic valve having three leaflets.

For some applications, anchoring the prosthetic valve support includes pushing aside, at least in part, native leaflets of the valve of the patient by at least a portion of the support.

For some applications, the prosthetic valve support is coupled to one or more annulus tissue anchors, and anchoring the prosthetic valve support includes pushing the one or more annulus tissue anchors into tissue of an annulus of the native valve.

For some applications, coupling the prosthetic valve to the prosthetic valve support includes ensnaring one or more native leaflets of the native valve of the patient by a portion of the prosthetic valve.

For some applications, the one or more valve support anchors includes one or more ventricular anchors, and the method further includes advancing one or more atrial anchors to an atrial surface of the valve support, and anchoring in place the valve support in a vicinity of a respective one of the ventricular anchors.

For some applications, the method includes advancing the valve support along the one or more valve support guide members prior to the anchoring of the valve support.

For some applications, the valve support is shaped so as to define one or more holes, and advancing the valve support along the one or more valve support guide members includes threading the one or more valve support guide members through the one or more holes of the valve support and sliding the valve support along the one or more guide members.

For some applications, the method includes removing the one or more valve support guide members from a body of the patient following the anchoring of the valve support.

For some applications,

the valve support includes:

- an annular element, and
- a generally cylindrical element having first and second ends and a cylindrical body that is disposed between the first and second ends, the first end being coupled to the annular element; and

anchoring of the valve support, including anchoring the valve support in a manner in which:

- the annular element is positioned along an annulus of the native valve,
- the second end of the cylindrical element is disposed above the annular element in an atrium of a heart of the patient, and
- the body of the cylindrical element is disposed above the annular element.

For some applications, the method includes, following the anchoring, inverting the cylindrical element to pull the second end of the cylindrical element below the annular element and into a ventricle of the heart, in a manner in which the body of the cylindrical element is disposed below the annular element and pushes aside one or more native leaflets of the valve of the patient.

For some applications:

inverting the cylindrical element includes advancing the prosthetic valve along one or more prosthetic valve guide members reversibly coupled to the cylindrical element in a vicinity of the second end thereof,

advancing the prosthetic valve includes advancing the prosthetic valve into the ventricle to pull the prosthetic valve guide members and the second end of the cylindrical element into the ventricle, and

the method further includes following the advancing of the prosthetic valve into the ventricle, pulling proximally the prosthetic valve such that a proximal portion of the valve contacts the valve support.

For some applications, pulling the prosthetic valve proximally includes ensnaring the one or more leaflets of the valve by a portion of the prosthetic valve.

For some applications, advancing the one or more valve support anchors includes:

providing a respective delivery lumen coupled at a distal end thereof to each one of the one or more anchors,

advancing each delivery lumen along a respective one of the one or more valve support guide members,

facilitating anchoring of each one of the one or more anchors to the one or more commissures by the respective delivery lumen, and

decoupling the delivery lumen from each one of the one or more valve support anchors following the anchoring of the one or more valve support anchors.

For some applications, the method includes removing the one or more valve support guide members from a body of the patient following the anchoring of each one of the one or more valve support anchors to the one or more commissures.

For some applications, the method includes advancing the prosthetic valve support along the one or more delivery lumens prior to the anchoring the support at the native atrioventricular valve.

For some applications, the valve support is shaped so as to define one or more holes, and advancing the valve support along the one or more delivery lumens includes threading the one or more delivery lumens through the one or more holes of the valve support and sliding the valve support along the one or more delivery lumens.

For some applications, the method includes removing the one or more delivery lumens from a body of the patient following the anchoring the support at the atrioventricular valve.

There is additionally provided, in accordance with some applications of the present invention, apparatus including a valve support for receiving a prosthetic valve, the valve support including:

an annular element configured to be positioned along a native annulus of a native atrioventricular valve of a patient; and

a flexible generally cylindrical element configured to be positioned in the native atrioventricular valve of the patient and to push aside native leaflets of the native valve, the cylindrical element having first and second ends and a cylindrical body that is disposed between the first and second ends, and:

- the first end of the cylindrical element is coupled to the annular element,
- during a first period, the second end of the cylindrical element is disposed above the annular element in a manner in which the body of the cylindrical element is disposed above the annular element, and
- the cylindrical element is invertible in a manner in which, during a second period, the second end of the cylindrical element is disposed below the annular element and the body of the cylindrical element is disposed below the annular element.

For some applications, the cylindrical element includes a flexible wireframe covered by a fabric.

For some applications, the valve support is collapsible for transcatheter delivery and expandable to contact the native atrioventricular valve.

For some applications, the annular element has an upper surface and a lower surface, the lower surface is coupled to one or more annular element tissue anchors configured to puncture tissue of the native annulus of the patient.

For some applications, the one or more annular element tissue anchors includes a plurality of annular element tissue anchors positioned around the lower surface of the annular element.

For some applications, the one or more annular element tissue anchors includes a first commissural annular element tissue anchor configured to puncture tissue of the native valve at a first commissure thereof, and a second commissural annular element tissue anchor configured to puncture tissue of the native valve at a second commissure thereof.

For some applications, the apparatus includes one or more valve support guide members configured to be delivered to one or more commissures of the native atrioventricular valve of the patient, the one or more valve support guide members are configured to facilitate advancement of the valve support toward the native valve.

For some applications, the valve support is shaped so as to define one or more holes, the one or more holes configured to facilitate slidable passage therethrough of a respective one of the one or more valve support guide members.

For some applications, the apparatus includes one or more valve support tissue anchors configured to be advanceable along the one or more valve support guide members and anchored to the one or more commissures of the valve.

For some applications, the valve support guide members are removable from the patient following the anchoring of the valve support at the atrioventricular valve.

For some applications, the one or more valve support anchors are configured to be anchored to the one or more commissures from ventricular surfaces thereof prior to advancement of the valve support.

For some applications, the one or more valve support tissue anchors includes first and second valve support tissue anchors, the first and second valve support tissue anchors being configured to be anchored to respective first and second commissures of the atrioventricular valve of the patient.

For some applications:

the one or more valve support tissue anchors each include one or more radially-expandable prongs, and

the one or more prongs are disposed within a sheath in a compressed state prior to the anchoring and exposed from within the sheath in order to expand and facilitate anchoring of the anchor to the respective commissures.

For some applications, the apparatus includes the prosthetic valve, and the prosthetic valve is couplable to the valve support.

For some applications:

during the first period, the second end of the cylindrical element is disposed in an atrium of a heart of the patient and the annular element is positioned along an annulus of the native valve,

the prosthetic valve is advanceable along the one or more prosthetic valve guide members into a ventricle of the heart of the patient, and

in response to advancement of the prosthetic valve into the ventricle, the one or more prosthetic valve guide members are pulled into the ventricle and pull the second end of the cylindrical element into the ventricle to invert the cylindrical element.

For some applications, the prosthetic valve is collapsible for transcatheter delivery and expandable when exposed from within a delivery catheter.

For some applications, the prosthetic valve includes two or more prosthetic leaflets.

For some applications, the native atrioventricular valve includes a mitral valve, and the prosthetic valve includes three prosthetic leaflets.

For some applications, the prosthetic valve guide members are removable from the patient following the anchoring of the prosthetic valve at the atrioventricular valve.

For some applications, the prosthetic valve is shaped so as to define one or more snares configured to ensnare one or more native leaflets of the native valve of the patient.

There is yet additionally provided, in accordance with some applications of the present invention, a method, including:

advancing toward a native atrioventricular valve of a heart of a patient, a valve support including:

- an annular element, and
- a generally cylindrical element having first and second ends and a cylindrical body that is disposed between the first and second ends, the first end being coupled to the annular element;

anchoring the annular element to an annulus of the native atrioventricular valve, following the anchoring, the second end of the cylindrical element is disposed above the annular element in an atrium of the heart, in a manner in which the body of the cylindrical element is disposed above the annular element; and

following the anchoring, inverting the cylindrical element to pull the second end of the cylindrical element below the annular element and into a ventricle of the heart, in a manner in which the body of the cylindrical element is disposed below the annular element and pushes aside one or more native leaflets of the valve of the patient.

For some applications, anchoring the annular element to the annulus of the native atrioventricular valve includes:

advancing one or more valve support anchors that are distinct from the valve support toward one or more commissures of the heart, and

anchoring the annular element to the annulus using the one or more positioning anchors.

For some applications, the annular element is coupled to one or more annular element tissue anchors, and anchoring the annular element includes pushing the one or more annular element tissue anchors into tissue of the annulus.

For some applications:

inverting the cylindrical element includes advancing a prosthetic valve along one or more valve guide members reversibly coupled to the cylindrical element in a vicinity of the second end thereof,

advancing the prosthetic valve includes advancing the prosthetic valve into the ventricle to pull the guide members and the second end of the cylindrical element into the ventricle, and

For some applications, pulling the prosthetic valve proximally includes ensnaring the one or more leaflets of the valve by a portion of the prosthetic valve.

There is also provided, in accordance with some applications of the present invention, apparatus including a valve support for receiving a prosthetic valve, the valve support including:

an annular element configured to be positioned along a native annulus of a native atrioventricular valve of a patient, the annular element having upper and lower surfaces; and

one or more annular element tissue anchors coupled to the lower surface of the annular element, the one or more annular element tissue anchors being configured to puncture tissue of the native annulus of the patient.

For some applications, the valve support is collapsible for transcatheter delivery and expandable to contact the native atrioventricular valve.

For some applications, the one or more annular element tissue anchors includes a plurality of annular element tissue anchors positioned around the lower surface of the annular element.

For some applications, the apparatus includes one or more valve support tissue anchors that are distinct from the valve support and are configured to be advanceable along the one or more valve support guide members and anchored to the one or more commissures of the valve.

For some applications, the one or more valve support guide members are removable from the patient following the anchoring of the valve support at the atrioventricular valve.

For some applications, the one or more valve support tissue anchors are configured to be anchored to the one or more commissures from ventricular surfaces thereof prior to advancement of the valve support.

For some applications:

the one or more valve support tissue anchors each include one or more radially-expandable prongs, and

For some applications, the valve support further includes a flexible generally cylindrical element coupled to the annular element and configured to be positioned in the native atrioventricular valve of the patient and to push aside native leaflets of the native valve, the cylindrical element having first and second ends and a cylindrical body that is disposed between the first and second ends.

For some applications, the cylindrical element includes a flexible wireframe covered by a fabric.

For some applications, the apparatus includes the prosthetic valve, and the prosthetic valve is couplable to the valve support.

For some applications:

- the first end of the cylindrical element is coupled to the annular element,
- during a first period, the second end of the cylindrical element is disposed above the annular element in a manner in which the body of the cylindrical element is disposed above the annular element, and
- the cylindrical element is invertible in a manner in which, during a second period, the second end of the cylindrical element is disposed below the annular element and the body of the cylindrical element is disposed below the annular element.

For some applications:

during the first period, the second end of the cylindrical element is disposed in an atrium of a heart of the patient,

the prosthetic valve is advanceable along the one or more prosthetic valve guide members into a ventricle of the heart of the patient, and

There is additionally provided, in accordance with some applications of the present invention, apparatus, including:

one or more valve support guide members configured to be delivered to one or more commissures of a native atrioventricular valve of a patient;

a prosthetic valve support configured to be advanced toward the native valve along the one or more valve support guide members and placed at the native valve;

a prosthetic valve configured to be coupled to the valve support; and

one or more sealing elements configured to facilitate sealing of an interface between the prosthetic valve support and the native valve.

For some applications, the sealing element includes a balloon disposed circumferentially around an outer surface of the prosthetic valve support.

For some applications, the sealing element includes one or more helices that are configured to facilitate sealing of commissures of the native valve with respect to the valve support by being wrapped around chordae tendineae of the native valve.

For some applications, the sealing element includes grasping elements that are configured to facilitate sealing of commissures of the native valve with respect to the valve support by grasping the commissures.

For some applications, the sealing element is configured to facilitate anchoring of the support to the native valve.

For some applications, the valve support is collapsible for transcatheter delivery and expandable to contact the native atrioventricular valve.

For some applications, the prosthetic valve includes two or more prosthetic leaflets.

For some applications, the native atrioventricular valve includes a mitral valve, and the prosthetic valve includes three prosthetic leaflets.

For some applications, the valve support guide members are removable from the patient following coupling of the prosthetic valve to the valve support.

For some applications, the valve support is shaped so as to define a distal portion which is configured to push aside, at least in part, native leaflets of the valve of the patient.

For some applications, the apparatus further includes:

a guide wire configured to be advanced, via the native atrioventricular valve, into a ventricle of the patient, and coupled to an inner wall of the patient's ventricle; and

a valve support guide member tube coupled to the guide wire,

and a distal portion of the valve support guide member is configured to loop through the valve support guide member tube, such that, in response to the valve support guide member being pushed distally, portions of the valve support guide member are pushed to respective commissures of the native valve.

For some applications, the prosthetic valve is shaped so as to define one or more protrusions configured to ensnare one or more native leaflets of the native valve of the patient.

For some applications, the protrusions are disposed in a sinusoidal configuration such that the protrusions conform with a saddle shape of the patient's native annulus.

For some applications, the protrusions are configured to prevent the native leaflets from interfering with a left ventricular outflow tract of the patient, by sandwiching the leaflets between the protrusions and the prosthetic valve support.

For some applications, the valve support includes:

a first end that is configured to be placed on an atrial side of a native atrioventricular valve of a patient; and

a second end that is configured, during a first period, to be disposed inside the patient's atrium, above the first end of the valve support,

the valve support being at least partially invertible in a manner in which, during a second period, the second end of the valve support is disposed at least partially inside a ventricle of the patient, below the first end of the valve support.

For some applications, the valve support includes an annular element and a generally cylindrical element coupled to the annular element, the generally cylindrical element being configured to push aside native leaflets of the native valve, and the cylindrical element has first and second ends and a cylindrical body that is disposed between the first and second ends.

For some applications, the sealing element includes a balloon disposed underneath the annular element and configured to facilitate sealing of an interface between the annular element and the native valve.

For some applications, the apparatus further includes one or more prosthetic valve guide members, the prosthetic valve guide members being configured to facilitate advancement of the prosthetic valve therealong and toward the valve support.

For some applications:

the first end of the cylindrical element is coupled to the annular element,

during a first period, the second end of the cylindrical element is disposed above the annular element in a manner in which the body of the cylindrical element is disposed above the annular element, and

the cylindrical element is invertible in a manner in which, during a second period, the second end of the cylindrical element is disposed below the annular element and the body of the cylindrical element is disposed below the annular element.

For some applications:

during the first period, the second end of the cylindrical element is disposed in an atrium of a heart of the patient and the annular element is positioned along an annulus of the native valve,

the prosthetic valve is advanceable along the one or more prosthetic valve guide members into a ventricle of the heart of the patient, and

There is further provided, in accordance with some applications of the present invention, apparatus, including:

a prosthetic valve support configured to be advanced toward a native atrioventricular valve of a patient and placed at the native valve;

a prosthetic valve configured to be coupled to the valve support, the prosthetic valve being shaped so as to define first and second sets of one or more protrusions, each set of protrusions configured to ensnare a respective native leaflet of the native valve of the patient, the first set of protrusions being disposed within a first circumferential arc with respect to a longitudinal axis of the prosthetic valve, on a first side of a distal end of the prosthetic valve, the second set of protrusions being disposed within a second circumferential arc with respect to the longitudinal axis of the prosthetic valve, on a second side of the distal end of the prosthetic valve, the first and second sets being disposed so as to provide first and second gaps therebetween at the distal end of the prosthetic valve, at least one of the gaps having a circumferential arc of at least 20 degrees; and

one or more valve guide members configured to be delivered to one or more commissures of the native valve, and to guide the valve such that the first and second circumferential arcs are aligned with respective leaflets of the native valve and such that the first and second gaps are aligned with respective commissures of the native valve.

For some applications, the at least one of the gaps has a circumferential arc of at least 60 degrees.

For some applications, the first circumferential arc defines an angle of between 25 degrees and 90 degrees about the longitudinal axis of the prosthetic valve.

For some applications, the second circumferential arc defines an angle of between 25 degrees and 90 degrees about the longitudinal axis of the prosthetic valve.

For some applications, the first circumferential arc defines an angle of between 45 degrees and 75 degrees about the longitudinal axis of the prosthetic valve.

For some applications, the second circumferential arc defines an angle of between 45 degrees and 75 degrees about the longitudinal axis of the prosthetic valve.

There is additionally provided, in accordance with some applications of the present invention, a method, including:

determining an area defined by an annulus of a native atrioventricular valve of a patient;

selecting a prosthetic valve to be placed in the native valve by determining that the valve defines a cross-sectional area that is less than 90% of the area defined by the annulus; and

deploying the prosthetic valve at the native valve,

For some applications, selecting the prosthetic valve includes selecting a prosthetic valve having a material disposed on an outer surface thereof.

For some applications, selecting the prosthetic valve includes selecting a prosthetic valve having a material that prevents tissue growth disposed on an outer surface thereof.

For some applications, selecting the prosthetic valve includes selecting a prosthetic valve having a material that promotes tissue growth disposed on an outer surface thereof.

There is further provided, in accordance with some applications of the present invention, apparatus including:

a valve support for receiving a prosthetic valve, the valve support including:

- a first end that is configured to be placed on an atrial side of a native atrioventricular valve of a patient; and
- a second end that is configured, during a first period, to be disposed inside the patient's atrium, above the first end of the valve support,
- the valve support being at least partially invertible in a manner in which, during a second period, the second end of the cylindrical element is disposed at least partially inside a ventricle of the patient, below the first end of the valve support.

For some applications, the valve support includes a flexible wireframe covered by a fabric.

For some applications, the valve support is collapsible for transcatheter delivery and expandable to contact the native atrioventricular valve.

For some applications, the valve support defines a surface that is an inner surface of the valve support during the first period, and an outer surface of the valve support during the second period, and the apparatus further includes a sealing material that is disposed on the surface, such that during the second period the sealing material facilitates sealing between the valve support and the native valve.

For some applications, the first end includes a coupling element configured to couple the valve support to tissue of the native valve on the atrial side of the native valve.

For some applications, the first end is shaped to define barbs that are configured to couple the valve support to tissue of the native valve on the atrial side of the native valve

For some applications, the valve support includes:

an annular element configured to be positioned along a native annulus of the native atrioventricular valve; and

a flexible generally cylindrical element configured to be positioned in the native atrioventricular valve of the patient and to push aside native leaflets of the native valve, the first end of the cylindrical element defining the first end of the valve support, and the first end of the cylindrical element being coupled to the annular element.

For some applications, the apparatus further includes one or more valve support guide members configured to be delivered to one or more commissures of the native atrioventricular valve of the patient, and the one or more valve support guide members are configured to facilitate advancement of the valve support toward the native valve.

For some applications, the apparatus further includes:

a guide wire configured to be advanced, via the native atrioventricular valve, into a ventricle of the patient, and coupled to an inner wall of the patient's ventricle; and

a valve support guide member tube coupled to the guide wire,

For some applications, the apparatus further includes one or more prosthetic valve guide members reversibly couplable to the cylindrical element in a vicinity of the second end of the cylindrical element, the prosthetic valve guide members being configured to facilitate advancement of the prosthetic valve therealong and toward the valve support.

For some applications, the apparatus further includes the prosthetic valve, and the prosthetic valve is couplable to the valve support.

For some applications:

during the first period, the second end of the cylindrical element is disposed in an atrium of a heart of the patient and the annular element is positioned along an annulus of the native valve,

the prosthetic valve is advanceable along the one or more prosthetic valve guide members into a ventricle of the heart of the patient, and

For some applications, the apparatus further includes one or more sealing elements configured to facilitate sealing of an interface between the prosthetic valve support and the native valve.

For some applications, the sealing element includes a balloon disposed circumferentially around a surface of the prosthetic valve support.