A method of implanting and securing an implantable flow connector in a body of a patient for providing communication of a first space within the body of the patient with a second space within the body of the patient. The method includes providing a flow connector having a lumen having a first orifice and a second orifice, inserting a retention device into the first space within the body, subsequently inserting the flow connector through an opening in the retention device so the second portion of the flow connector extends into the first space within the body and placing the second space within the body over the retention device.

The invention relates in general to the field of heart surgery. In the surgical field, instruments are used in order to examine the interior of living organisms and/or to use for operative interventions. These also include implants for the production of the functionality of a heart. The invention relates to such an implantable device and a method for eliminating regurgitation in the area of the heart. The implantable device is an annuloplasty ring with a large number of tissue anchors. An unfolded annuloplasty ring is positioned in the cavity of a body element in order to constrict a bodily opening. Using the minimally-invasive technique, each tissue anchor of the annuloplasty ring is intravascularly inserted in advance into a precise position on the edge of the mitral valve annulus. The annuloplasty ring that is configured in the shape of an arc or circle is mounted and fastened to the thus anchored fastening means in order to influence in size and shape the septal and lateral annulus of the mitral valve and to close the gap between the anterior and posterior cusps in the valve.

A system for implanting a repair device onto a native valve of a natural heart to repairing the native valve of a patient during a non-open-heart procedure. The system includes a paddle and a gripping member. The paddle is movable between an open position and a closed position. The gripping member has a weakened portion and a barbed portion. The barbed portion is configured to secure the gripping member to valve tissue of the native valve of the patient. A gripper control mechanism is configured to move the gripping member between an open position and a closed position. The gripper control mechanism comprises a suture removably attached to the gripping member at a first connection point and a pushing member configured to engage the gripping member at a second connection point. The weakened portion is between the first and second connection points. The pushing member is configured to push on the gripping member and the suture is configured to pull on the gripping member to flex the weakened portion and pivot the barbed portion.

The present invention describes a surgical stapler, a surgical staple arrangement and a method for approximate of muscular or aponeurotic structures. More precisely, the surgical staple comprises stapling structures associated to an alignment structure, in one of its embodiments the stapling structures holds at least a staple arrangement, approximating it rectilinearly clamping the staple arrangement, the surgical staple arrangement comprises a male and a female portion comprising a plurality of clamping structures that associate to each other and the method discloses steps for approximating muscular or aponeurotic structures and keep them together by the usage of and staple arrangement. The present invention is situated in the field of medical science, medical device and surgical stapler.

A surgical stapling device includes a tool assembly having an anvil assembly and a staple cartridge, the anvil assembly is movable in relation to the staple cartridge between spaced and clamped positions. The anvil assembly includes a housing defining a recess and a mesh material positioned within the recess. The staple cartridge includes a body defining a plurality of staple receiving slots. Each of the staple receiving slots supports a staple. The staple receiving slots are aligned with the recess when the anvil assembly and the staple cartridge are in the clamped position such that the plurality of staples are ejected and penetrate into the mesh material when the tool assembly is fired. Each of the plurality of staples includes a backspan and a leg extending from each end of the backspan. Each of the legs includes a locking structure that is configured to mesh or interlock with the mesh material of the anvil assembly upon penetration of the mesh material by the legs of the staples to obstruct withdrawal of the legs from the locking material.

Suturing clips which may be guided to a heart by a trans-vascular/trans-septal approach, and yet operate to close the left atrial appendage (LAA) from a position located entirely within the LAA are described. Arms of suturing clips constructed of a superelastic alloy are expanded from a catheter delivery system, anchored within the LAA and/or ostium of the LAA, and then collapsed again to a suturing configuration. Collapse is optionally by a reverting mechanism, wherein arms are constrained to collapse back in a direction reverse to their original expansion; or by an everting mechanism, wherein arm portions move past their expanded position to close with each other on an opposite side of their original position. In some embodiments, delivery systems include further elements to assist in clip placement at the LAA, for example a spreader for spreading the LAA, and/or a stopper for preventing deep intrusion to the LAA.

Disclosed are embodiments of a method for occluding a left atrial appendage (LAA) and other cavities or openings within a body. Some embodiments of the method can include an implant configured to be deployed within the LAA or other cavity, configured to be expanded or moved against a wall portion of the LAA or other cavity, and configured to twist at least a portion of the LAA or other cavity when the implant is rotated. Thereafter, one or more securing elements, staples, sutures, or other fasteners can be implanted in the gathered tissue to hold the tissue in the gathered state, thereby occluding the opening of the LAA or other cavity. In some embodiments, the opening of the LAA or other cavity can be occluded by elongating or otherwise reshaping the opening using an implant device, and securing the opening in the occluded state.

A fastener cartridge can comprise a support portion, a tissue thickness compensator positioned relative to the support portion, and a plurality of fasteners positioned within the support portion and/or the tissue thickness compensator which can be utilized to fasten tissue. In use, the fastener cartridge can be positioned in a first jaw of a surgical fastening device, wherein a second jaw, or anvil, can be positioned opposite the first jaw. To deploy the fasteners, a staple-deploying member is advanced through the fastener cartridge to move the fasteners toward the anvil. As the fasteners are deployed, the fasteners can capture at least a portion of the tissue thickness compensator therein along with at least a portion of the tissue being fastened.

A tissue closure system includes an endoscope having first and second lumens therethrough, first and second control elements disposed within the first and second lumens, respectively, and a tissue engaging portion integral with a distal end of the endoscope. The tissue engaging portion includes a tissue acquisition assembly and a tissue closure assembly. The tissue acquisition assembly is controllable via the first control element, and the tissue closure assembly controllable via the second control element. The tissue engaging portion includes a tissue grasping portion for engaging first and second target tissue portions disposed adjacent an opening in target tissue. The tissue closure assembly is configured to pierce the target tissue, and to hold the first and second target tissue portions together to close the opening in the target tissue.

A suture clip is comprised of a length of suture material with a male clip on one side and a female clip on the other side. The male clip may contain ratchets that, when engaged with the female clip, hold it in place and allow the male clip to adjustably lit within the female clip or even through it to tighten the suture when the male and female clips are engaged. The suture clips are configured to be used in a suture clip applicator that contains paired and opposing needles configured to hold the male clip on one side and the female clip on the other side and to cause the engagement of male and female clips and form a continuous loop through the suture material to enable the closure of fascia or other body tissues.