A vascular filter system comprises a vascular filter (1), a clamp device (50), and a delivery catheter (51). The filter (1) comprises filter elements (6). When used without the clamp device (50), the filter elements (6) move from a closed state to an open state upon elapse of a predetermined period of time. In the closed state the filter elements (6) capture thrombus passing through the inferior vena cava (2). The delivery catheter (51) is employed to deliver the clamp device (50) to the filter (1) after the filter (1) has been deployed in the inferior vena cava (2). The clamp device (50) engages with the filter elements (6) of the filter (1) to clamp the filter (1) in the closed state beyond elapse of the predetermined period of time. Because of the presence of the clamp device (50), the filter elements (6) are no longer free to move from the closed state to the open state upon elapse of the predetermined period of time. In this manner the period of time in which the filter (1) captures thrombus is extended either temporarily or permanently.

Graft materials and devices for surgical breast procedures, as well as methods of making graft devices, are described.

A device for the reconstruction of the rotator cuff including a flat element having at least two opposite ends and adapted to be connected to at least one of the damaged tendons of the rotator cuff of a patient at the ends; the flat element being entirely made of biodegradable and resorbable material.

A nerve scaffold, including a membrane material and a degradable metal wire. The degradable metal wire is enclosed in the membrane material. The membrane material is biodegradable material, and includes three-dimensional pore structure. The degradable metal wire is horizontally and vertically distributed in the nerve scaffold.

The invention relates to endovascular medical implant devices and materials of composition for forming these devices to provide improved mechanical properties and biodegradability. The devices include a combination or integration of superelastic material, biodegradable metal and, thin film nitinol and/or biodegradable polymer. A structural frame is formed of individual elongated pieces composed of biodegradable metal. These pieces are joined together by connector pieces composed of superelastic material. At least a portion of the structural frame has deposited thereon the thin film nitinol and/or biodegradable polymer. The structural frame of the device is collapsible for insertion in a delivery tube and, recoverable for deployment and placement in a vascular location of a patient body.

A vascular filter system comprises a vascular filter (1), a clamp device (50), and a delivery catheter (51). The filter (1) comprises filter elements (6). When used without the clamp device (50), the filter elements (6) move from a closed state to an open state upon elapse of a predetermined period of time. In the closed state the filter elements (6) capture thrombus passing through the inferior vena cava (2). The delivery catheter (51) is employed to deliver the clamp device (50) to the filter (1) after the filter (1) has been deployed in the inferior vena cava (2). The clamp device (50) engages with the filter elements (6) of the filter (1) to clamp the filter (1) in the closed state beyond elapse of the predetermined period of time. Because of the presence of the clamp device (50), the filter elements (6) are no longer free to move from the closed state to the open state upon elapse of the predetermined period of time. In this manner the period of time in which the filter (1) captures thrombus is extended either temporarily or permanently.

A vascular filter device (1) has a support (2) for engaging the wall of a blood vessel. A filter has filter elements (5) having proximal segments (10) connected to the support (3) and distal segments at least temporarily restrained at a distal apex (7) by a holder when in a filtering closed position. At least one filter element (5) extends radially outwardly with respect to a device longitudinal axis when unconstrained. The filter element may extend in a curve with a concave portion facing radially outwardly in an unconstrained configuration.

Described here are systems, devices, and methods for delivery of an implant to a bodily cavity. The implant may include a hub and a plurality of legs, and may be moveable between a low-profile and expanded configuration. The systems may include a crimping device having a crimping member with a plurality of arms. The plurality of arms may engage the plurality of legs of the implant, and may move the legs to move the implant to the low-profile configuration. In some instances a delivery device may aid in crimping and/or delivery of the implant.

The present invention relates to methods of repairing an inguinal hernia defect including . . . a first portion forming a partial spherical cap surface shaped and dimensioned . . . a second portion extending from an inferior edge of the first portion . . . characterized in that the piece further includes: a third portion forming an arched part extending longitudinally in the inferior direction from a medial inferior corner of the first portion, the arched part extending radially substantially in the front direction, the third portion being intended to face the medial inferior area of the inguinal anatomy, and introducing the prosthesis into a patient.

A shape memory material-based minimally invasive implantation with multi-axis curl self-expanding structure, and an implant having said structure: the implant comprises an actuating member, and the implant has a first shape and a second shape, the second shape having a larger area than that of the first shape; the implant is provided with a plurality of curling portions, and the actuating member may cause a curling portion to expand along a curling axis thereof, thereby transforming the implant from the first shape to the second shape. Different self-expanding structures may be designed by using the elasticity and memory effect of shape memory materials. Deploying functional modules, such as a circuit, a battery, a sensor, an energy collector and the like, on the structures may achieve more functions.