A cardiac valve delivery system includes a lead configured to be inserted through a venous system to a heart, the lead having a distal end with a myocardial attachment apparatus, and a transcatheter prosthesis element configured to be delivered along the lead. The transcatheter prosthesis is configured with an anchoring element located on the outside rim of the prosthesis, configured to fix the transcatheter prosthesis in place along the lead. The prosthesis is also movable along the lead and steerable towards the appropriate angulation with the lead.

A prosthetic heart valve and delivery system adapted to facilitate transapical or transfemoral implantation of a prosthetic heart valve, the delivery system comprising an elongated sheath or shaft have one or more loop stabilization wires adapted to circumscribe and crimp a metallic stent, the loop stabilization wires releasable with retraction of an engagement pin to expand the metallic stent and anchor the same in native tissue within the circulatory system of a patient.

An adjustable midurethral sling is provided. The adjustable midurethral sling includes a midurethral sling, a frame, an adjustment suture, a housing, two end parts, tunnel opening hooks, outlets, and tunnel opening hook insertion holes. The adjustable midurethral sling is used in a surgical treatment of an involuntary leakage, wherein the involuntary leakage is defined as a urinary incontinence in cases of an abdominal pressure increase as a result of coughing, sneezing etc.

A transapically-implanted mitral valve flexible closure plate blocking body comprising: a flexible closure plate (7), a left and right guide wire (8), a guide ring (13) and a fixation plug (12). The fixation plug (12) is fixedly implanted at a cardiac apex (4) of the heart, the flexible closure plate (7) is located at an anterior and posterior leaflet junction of the heart, the left and right guide wire (8) respectively pass through a hook (6) on the same side, are fixedly connected to the flexible closure plate (7) in the upper portion on the same side, and respectively pass through a guide ring (13) fixedly connected in the lower portion of the flexible closure plate (7) on the same side, and are fixedly connected to the fixation plug (12). An implantation method thereof is also provided.

A luminal stent, including a tubular body and a skirt sleeved on the tubular body. One end of the skirt is a fixed end, and the fixed end is sealedly connected to the outer surface of the tubular body; the other end of the skirt is a free end; on a section passing through the central axis of the tubular body, the ratio of the distance between the fixed end and the free end located on the same side of the central axis of the tubular body to the vertical distance between two points of the free end on both sides of the central axis of the tubular body along the radial direction of the skirt is less than 1/2.

An implantable cerclage sacrocolpopexy medical device includes an elongate strip of flat, flexible material extending longitudinally from a first end to an opposite second end; a surgical needle attached to the first end of the elongate strip; and a loop at either the first end or the second end of the elongate strip. The medical device is positioned circumferentially around the cervix. The end of the elongate strip opposite the end having the loop is passed through the loop and attached to the sacrum or sacrospinous ligament.

A heart valve prosthesis that can be quickly and easily implanted during a surgical procedure is provided. The prosthetic valve has a base stent that is deployed at a treatment site, and a valve component configured to quickly connect to the base stent. The base stent may take the form of a self- or balloon-expandable stent that expands outward against the native valve with or without leaflet excision. The valve component has a non-expandable prosthetic valve and a self- or balloon-expandable coupling stent for attachment to the base stent, thereby fixing the position of the valve component relative to the base stent. The prosthetic valve may be a commercially available to valve with a sewing ring and the coupling stent attaches to the sewing ring. The system is particularly suited for rapid deployment of heart valves in a conventional open-heart surgical environment. A catheter-based system and method for deployment is provided.

Implants for the treatment of pelvic support conditions and methods of implementing the same. The implants comprise relatively soft, flexible bodies and relatively strong arms extending in predetermined orientations therefrom. Methods and devices for placing the implants minimize trauma to the pelvic floor and provide well-anchored support to pelvic organs without interfering with sexual or other bodily functions.

A self-adjusting device configured to be placed in contact with tissue/organ and apply mechanical force to the tissue/organ to achieve an improvement of functioning of the tissue/organ. The self-adjusting capabilities can be carried out by three functional subsystems that can be packaged either in a single, integrated system or in separate modules. A sensing subsystem senses the tissue/organ and sends at least one type of sensing signal characteristic of functioning of the tissue/organ to a controlling subsystem. The controlling subsystem processes the signal with an algorithm to determine if a configuration of the device needs to be changed or a force applied to the tissue/organ needs to be changed. An actuating subsystem can be controlled by the controlling subsystem to affect the configuration/force change when needed. A feedback loop is provided to keep the controlling subsystem up to date as to the state of the actuating subsystem.

Devices, systems and methods for altering functioning of a tissue/organ by application of force thereto. In one preferred embodiment, a device for reducing or preventing regurgitation of blood through a valve of a heart is provided. A device may include a main body having a segment adapted to apply force to a surface of tissue/organ and a member that applies counterforce to the force applied by the segment. Kits are provided in which devices having varying lengths and widths can be selected for the best fit for a particular location of treatment. A width sizing instrument may be provided. A length sizing instrument may be provided. A separate sleeve and/or pad may be provided which may be first anchored to the tissue/organ before fixing the device thereto.