An intravascular emboli capture and retrieval system for intravascular embolism protection and embolism removal or maceration. Guidewire mounted proximally and distally located multiple opening filters are deployed within the vasculature and used to part, divide and macerate embolic debris and to capture such embolic debris within the confines thereof. A deployable flexible preformed memory shaped capture sleeve is alternatively used to collapse one or more filters and embolic debris therein for subsequent proximal withdrawal from the vasculature.

Particulate alloplastic bone replacement material and methods have a multitude of particles, wherein the particles have a core and at least six pins extending from the core, wherein the pins each have at least one connecting element, and wherein the pins are deformable elastically such that, upon multiple particles being pressed together, the connecting elements of different particles interlock with and/or snap into each other and the particles that are interlocked with and/or snapped into each other form an open-pored body of particles that are interlocked with and/or snapped into each other.

A method of removing clot from a vessel, including delivering a clot retrieval device across the clot, wherein the clot retrieval device includes an inner body having a collapsed delivery configuration and an expanded deployed configuration; and an outer body extending along a longitudinal axis and at least partially overlying the inner body. The outer body includes a first scaffolding section, a second scaffolding section hingedly connected distal of the first scaffolding section; the first and second scaffolding sections of the outer body being expandable to a radial extent which is greater than the radial extent of the inner body in the deployed configuration to define a clot reception space between the inner and outer bodies. The method also includes expanding the clot retrieval device; and urging, by the expanding of the first and second scaffolding sections, at least a portion of the clot therebetween.

An implantable device includes an adjustable spacer and at least one anchor. The adjustable spacer is configured to be positioned between native heart valve leaflets to reduce regurgitation therebetween. The adjustable spacer can comprise a first side and a second side opposite the first side. Each side can be adjustable between a first width and a second width. Each side can be independently moved between the first width and the second width. The adjustable spacer can be made from a sponge material.

Apparatus and methods are described herein for use in the delivery of a prosthetic mitral valve. In some embodiments, an apparatus includes an epicardial pad configured to engage an outside surface of a heart to secure a prosthetic heart valve in position within the heart. The epicardial pad defines a lumen configured to receive therethrough a tether extending from the prosthetic valve. The epicardial pad is movable between a first configuration in which the epicardial pad has a first outer perimeter and is configured to be disposed within a lumen of a delivery sheath and a second configuration in which the epicardial pad has a second outer perimeter greater than the first outer perimeter. The epicardial pad can be disposed against the outside surface of the heart when in the second configuration to secure the prosthetic valve and tether in a desired position within the heart.

Gluteal implants and gluteal implant systems are described herein, as are methods of manufacturing and implanting the same. In certain embodiments, the gluteal implant includes a body having a convex upper surface, a concave lower surface, and an edge, the edge being formed by the intersection between the convex upper surface and the concave lower surface. The body can take on various shapes, including a truncated ovoid shape, a truncated approximate ovoid shape, a truncated substantially ovoid shape, a truncated ellipsoid shape, a truncated approximate ellipsoid shape, or a truncated substantially ellipsoid shape, among others. In certain embodiments, the gluteal implant system includes first and second gluteal implants that have the same or different shaped bodies. In certain embodiments, the gluteal implants and gluteal implant systems are implanted in a buttock region.

Disclosed herein are flexible prosthetic components that are designed to be snap-fit to bone of a patient. The prosthetic components each have an outer articular surface and an inner bone contacting surface opposing the outer articular surface. The bone contacting surface has an anterior surface and an opposing posterior surface configured to contact corresponding anterior and posterior surfaces of the patient's bone. At least one of the anterior and posterior surfaces includes one or more protrusions extending outwardly therefrom. The anterior and posterior surfaces of the prosthetic components may flex toward and away from one another such that the one or more protrusions may snap-fit into corresponding recesses in the bone. The bone of the patient may be resected to include planar surfaces or resurfaced to include a curved surface corresponding to the respective bone contacting surface of the prosthetic components.

The present invention discloses a ring contraction device and a mounting method thereof, and relates to the field of medical instruments. The ring contraction device includes a plugging piece, a hemostatic disc, a puncture tube and a push rod. One end of the push rod penetrates through an inner cavity of the puncture tube and extends to the outside of the inner cavity of the puncture tube. The push rod is configured to push out the plugging piece in the puncture tube to be propped open. The hemostatic disc is further arranged at a pull wire to be connected to the plugging piece. A distance between the plugging piece and the hemostatic disc can be effectively adjusted through the pull wire, so as to achieve a ring contraction effect. The ring contraction device has a reasonable structure.

A heart valve prosthesis including a frame, the frame including a plurality of struts designed to extend from an upstream side of a natural heart valve to a downstream side of the natural heart valve, and a plurality of connectors attached to the plurality of struts, wherein the plurality of connectors are arranged as arcs connecting the struts, the arcs having two ends, each end attached to one of the struts, and a peak pointing from a center of the frame circumferentially outward and toward the upstream side of the frame, and the plurality of connectors are arranged as at least two rows, each row circumnavigating the center lumen of the frame. Related apparatus and methods are also described.

A filter comprises an inner, anchoring basket arranged concentrically inside an outer, alignment basket. The anchoring basket comprises a plurality of anchoring struts terminating in barbs. The alignment basket includes a plurality of alignment struts, which terminate downstream of the anchoring struts. A lumen is provided through hubs of the filter so that the filter can be deployed over a guidewire.