Embodiments of systems and methods for fixing soft tissue are disclosed herein. In some embodiments, soft tissue may be fixed to an attachment surface (such as bone, other soft tissue, other implants, or allograft or xenograft materials) by providing a helical suture in the soft tissue, wherein the soft tissue has a longitudinal axis along which the soft tissue undergoes tension under normal physiological conditions, and wherein a longitudinal axis of the helical suture in the soft tissue is oriented parallel to the longitudinal axis of the soft tissue; and securing the helical suture to an attachment surface.

A suturing device is provided that includes a handle with a rod extending therefrom and a needle member into which the rod is inserted to engage therewith. A suture is attached to an outer surface of the needle member. The needle member includes expandable fins formed at a proximate end thereof that expand after the needle member is passed through a tissue to prevent a backward movement of the needle member in a suturing procedure.

In a method for providing a double loop stitch, a needle assembly having a first needle portion and a second needle portion that is removably connected to the first needle portion is provided. Opposing ends of a thread are connected to the needle portions, forming a loop that is placed around a sewing material. The needle assembly is inserted through the sewing material at an insertion point. The thread is then partially pulled through the sewing material at the insertion point such that a pair of loops of thread, separated by the insertion point, remain adjacent a first face of the sewing material. The needle portions are then separated and are passed around opposite sides of the sewing material from adjacent a second face back adjacent the first face. Each needle portion is then passed through one of the loops. The loops are then cinched and locked in place.

Suture passer systems for tissue suspension and tissue compression are described. The system can include a shaft and a needle, wherein the needle is freely rotatable with respect to the shaft. The suture may include an overmolded segment. Methods of placing one or more implants, sutures, fastener, bone anchors and other devices are also described. The methods include moving tissue, including the superior pharyngeal constrictor muscle, palatopharyngeal arch, and palatoglossal arch. The methods include hyoid bone suspension.

A positioning and retrieval device manipulated by carrying element coupled to an handle and driven by an actuator that allows for axial movement and rotational movement of a capturing portion on the carrying element.

A delivery system comprises two or more needles including at least a first needle comprising a distal tip configured to pierce a valve leaflet of a heart, two or more leaflet anchors, each of the two or more leaflet anchors configured to be delivered via one of the two or more needles, and a shaft comprising a first interior lumen configured to slidably receive the two or more needles, the shaft having a first opening into the first interior lumen at a distal end of the shaft, the first opening configured to allow at least the first needle to exit the shaft.

A suture assembly, including a button having two apertures and a suture defining a lumen and forming a double loop, formed by a double trap formed in the suture, opposed to the button, and in which a first portion of the suture is threaded through the lumen of the double trap and a second portion of the suture is also threaded through the lumen of the double trap, so that two portions of suture are positioned together in the double trap. The first portion of the suture, after emerging from the double trap, is threaded through the lumen again, thereby forming a second trap, increasing resistance of the double loop to expansion, the double loop being threaded through the apertures of the button, the suture having two suture ends that are threaded through the button apertures and accessible on a side of the button opposed to the double loop.

According to one aspect, a medical device including a needle configured for use in suturing tissue is described. The needle may include a cylindrical body having a longitudinal axis extending between first and second ends of the cylindrical body. The needle may also include a lumen extending through the cylindrical body transverse to the longitudinal axis. The needle may further include a first end portion at the first end of the cylindrical body. The first end portion may include a sharp point configured to pierce tissue. An outer surface of the cylindrical body may define a first recess in communication with an opening of the lumen and configured to receive an end of a suture.

A device to assist in securing a holding a portion of a suture during an intra-abdominal suturing procedure, the device including an elongated tubular body, a handle, an inner member element, and a push button. The inner member element may include at least one grasping element that expands as the at least one grasping element is extended beyond a distal end of the elongated tubular. The device may include a spring disposed between a portion of the push button and a proximal portion of the inner member element to allow the at least one grasping element to retract into the elongated tubular body in a proximal direction.

Apparatus and methods to reduce ventricular volume are disclosed. The device takes the form of a transventricular anchor assembly, which presses a portion of the ventricular wall inward, thereby reducing the available volume of the ventricle. The anchor assembly is deployed using a curved introducer that may be inserted into one ventricle, through the septum and into the opposite ventricle. Barbs or protrusions along a tension member of the anchor assembly combined with a mechanical stop and a sealing member hold the device in place once deployed.