A device that, when implanted in the heart, closes the wound and complies with wall motion (i.e., expands and contracts with the myocardium).

Systems, devices and methods for occluding the left atrial appendage (LAA). The device excludes the LAA from blood flow. The implantable device is delivered via transcatheter delivery into the LAA and secured within the LAA. The implant comprises an expandable and compliant frame and an expandable and conformable tubular foam body. A delivery and tether retraction system includes a handle for controlling a pusher and tether. The pusher may be moved a distance away from the implant without changing the orientation of the implant, while the tether is still attached to the implant. Severing the tether and proximally retracting a control on the hand piece by a distance causes the severed end to advance distally by at least about twice that distance. A loader includes a conical portion with guides and a reservoir for submerging the foam prior to loading and delivery.

Systems, devices and methods for occluding the left atrial appendage (LAA). The device excludes the LAA from blood flow. The implantable device is delivered via transcatheter delivery into the LAA and secured within the LAA. The implant comprises an expandable and compliant frame and an expandable and conformable tubular foam body. A delivery and tether retraction system includes a handle for controlling a pusher and tether. The pusher may be moved a distance away from the implant without changing the orientation of the implant, while the tether is still attached to the implant. Severing the tether and proximally retracting a control on the hand piece by a distance causes the severed end to advance distally by at least about twice that distance. A loader includes a conical portion with guides and a reservoir for submerging the foam prior to loading and delivery.

Systems, devices and methods for occluding the left atrial appendage (LAA). The device excludes the LAA from blood flow. The implantable device is delivered via transcatheter delivery into the LAA and secured within the LAA. The implant comprises an expandable and compliant frame and an expandable and conformable tubular foam body. A delivery and tether retraction system includes a handle for controlling a pusher and tether. The pusher may be moved a distance away from the implant without changing the orientation of the implant, while the tether is still attached to the implant. Severing the tether and proximally retracting a control on the hand piece by a distance causes the severed end to advance distally by at least about twice that distance. A loader includes a conical portion with guides and a reservoir for submerging the foam prior to loading and delivery.

Systems, devices and methods for occluding the left atrial appendage (LAA). The device excludes the LAA from blood flow. The implantable device is delivered via transcatheter delivery into the LAA and secured within the LAA. The implant comprises an expandable and compliant frame and an expandable and conformable tubular foam body. A delivery and tether retraction system includes a handle for controlling a pusher and tether. The pusher may be moved a distance away from the implant without changing the orientation of the implant, while the tether is still attached to the implant. Severing the tether and proximally retracting a control on the hand piece by a distance causes the severed end to advance distally by at least about twice that distance. A loader includes a conical portion with guides and a reservoir for submerging the foam prior to loading and delivery.

The present invention provides methods and devices for grasping, and optional repositioning and fixation of the valve leaflets to treat cardiac valve regurgitation, particularly mitral valve regurgitation. Such grasping will typically be atraumatic providing a number of benefits. For example, atraumatic grasping may allow repositioning of the devices relative to the leaflets and repositioning of the leaflets themselves without damage to the leaflets. However, in some cases it may be necessary or desired to include grasping which pierces or otherwise permanently affects the leaflets. In some of these cases, the grasping step includes fixation.

A method for sealing a tissue opening includes inserting a trocar tube including a folded sealing device disposed within the trocar, and guiding the trocar tube through an opening in a myocardium into a patient's ventricle, the sealing device can include an elongated elastic member having a distal and a proximal end, a proximal umbrella shaped braiding extending radially from the elongated elastic member, the proximal braiding being positioned at the proximal end of the elastic member, wherein the proximal braiding includes a proximal disc disposed therein having a proximal disc thread disposed therethrough such that a user can pull the proximal braiding, and a distal umbrella shaped braiding extending radially from the elongated elastic member and being positioned at the distal end of the elastic member opposite to the proximal braiding.

A tissue anchor includes a plate having a top surface and a bottom surface, and an array of first pins coupled with the plate, whereby each first pin includes an elongated shaft having a lower end with a first barb facing away from the bottom surface of the plate. The plate has an array of second pin apertures that are offset from the first pins, whereby each second pin aperture has a diameter that extends from the top surface to the bottom surface of the plate. The tissue anchor includes an array of second pins extending through the second pin apertures, whereby each second pin has an elongated shaft having an upper end including a second barb facing away from the top surface of the plate and a lower end including a stop that is located below the bottom surface of the plate. The elongated shafts of the second pins have outer diameters that are smaller than the diameters of the second pin apertures for allowing the elongated shafts of the second pins to slide within the second pin apertures. The second barbs and the stops of the second pins have outer diameters that are larger than the diameters of the second pin apertures.

A medical device and system for modifying a left atrial appendage (LAA), as well as related methods, are provided. In accordance with one embodiment, a medical device includes a plurality of frame segments coupled with at least one ring member, the at least one ring member having an inner surface defining notches radially spaced therein, each of the frame segments configured to be positioned within one of the notches of the at least one ring member to collectively form a frame structure. Each frame segment includes a hub portion and at least one leg portion, the hub portion having an upper surface configured to be captured in one of the notches defined in the at least one ring member, and the at least one leg portion extending from the hub portion. With this arrangement, a tissue growth member is coupled to the frame segments.

A device for occluding an aperture in a body of a patient includes a frame that includes a plurality of elongate members and a hub component that includes a plurality of attachment members, wherein for each elongate member of the plurality of elongate members a first end of the elongate member is fixedly attached to an attachment member of the plurality of attachment members at an attachment region. The frame and the hub component together form at least one occlusive element. Each receptacle of the plurality of attachment members is configured to pivot with respect to the hub component, such that each attachment region is movable with respect to the hub component.