Abstract: Various methods and devices are provided for allowing multiple surgical instruments to be inserted into sealing elements of a single surgical access device. The sealing elements can be movable along predefined pathways within the device to allow surgical instruments inserted through the sealing elements to be moved laterally, rotationally, angularly, and vertically relative to a central longitudinal axis of the device for ease of manipulation within a patient's body while maintaining insufflation.

Abstract: An interactive control unit is disclosed. The interactive control unit includes an interactive touchscreen display, an interface configured to couple the control unit to a surgical hub, a processor, and a memory coupled to the processor. The memory stores instructions executable by the processor to receive input commands from the interactive touchscreen display located inside a sterile field and transmit the input commands to the surgical hub to control devices coupled to the surgical hub located outside the sterile field.

Abstract: A method for adjusting control parameters of a clip applier using a surgical hub is disclosed. The method comprises gathering data during a first surgical procedure, evaluating the gathered data to determine the appropriate operation of a clip applier in a subsequent surgical procedure, gathering data during the operation of the clip applier in the subsequent surgical procedure, determining if the operation of the clip applier needs to be adjusted based on the data gathered during the subsequent surgical procedure, and adjusting the operation of the clip applier based on the data gathered during the subsequent surgical procedure.

Abstract: Some embodiments of the present invention include a suture anchor with both knotless and knotted suture attachment capabilities, as well as methods for loading the suture in knotless and knotted configurations. Some embodiments of the present invention include a suture anchor with an inner implant body with a spreader that slides in relation to an outer expandable collar, such that pushing the expandable collar distally with an inserter causes the spreader to expand the collar against the surrounding bone to secure the suture anchor in place. Such embodiments may also include a detachment or breakaway feature between the inserter and the suture anchor to permit separation after anchor deployment. Some embodiments of the present invention include methods for deploying such suture anchors and expanding the expandable collars and/or detaching the inserter tools. Embodiments of the present invention may be used in various orthopedic applications such as, for example, shoulder repair.

Abstract: Some embodiments of the present invention include a suture anchor with both knotless and knotted suture attachment capabilities, as well as methods for loading the suture in knotless and knotted configurations. Some embodiments of the present invention include a suture anchor with an inner implant body with a spreader that slides in relation to an outer expandable collar, such that pushing the expandable collar distally with an inserter causes the spreader to expand the collar against the surrounding bone to secure the suture anchor in place. Such embodiments may also include a detachment or breakaway feature between the inserter and the suture anchor to permit separation after anchor deployment. Some embodiments of the present invention include methods for deploying such suture anchors and expanding the expandable collars and/or detaching the inserter tools. Embodiments of the present invention may be used in various orthopedic applications such as, for example, shoulder repair.

Abstract: Some embodiments of the present invention include a suture anchor with both knotless and knotted suture attachment capabilities, as well as methods for loading the suture in knotless and knotted configurations. Some embodiments of the present invention include a suture anchor with an inner implant body with a spreader that slides in relation to an outer expandable collar, such that pushing the expandable collar distally with an inserter causes the spreader to expand the collar against the surrounding bone to secure the suture anchor in place. Such embodiments may also include a detachment or breakaway feature between the inserter and the suture anchor to permit separation after anchor deployment. Some embodiments of the present invention include methods for deploying such suture anchors and expanding the expandable collars and/or detaching the inserter tools. Embodiments of the present invention may be used in various orthopedic applications such as, for example, shoulder repair.

Abstract: An arthroscopic suture cutting device according to embodiments of the invention includes an outer tube; an inner rod including an outer surface and an aperture, a distalmost edge of a second distal opening located distally of a distalmost edge of a first distal opening, the inner rod can receive a suture extending through both distal openings; in a loading position, the inner rod extends distally of the outer tube to receive the suture; in an intermediate position, the distal openings are closer to the outer tube, such that the suture is permitted to slide through the aperture without release; and in a cut position, the distalmost edges of the distal openings are within the outer tube. Moving from intermediate position to cut position draws the suture between outer tube and inner rod, urging the inner rod radially toward the second distal opening, cutting the suture between the outer tube and the distalmost edge of the second distal opening.

Abstract: Some embodiments of the present invention include a suture anchor with both knotless and knotted suture attachment capabilities, as well as methods for loading the suture in knotless and knotted configurations. Some embodiments of the present invention include a suture anchor with an inner implant body with a spreader that slides in relation to an outer expandable collar, such that pushing the expandable collar distally with an inserter causes the spreader to expand the collar against the surrounding bone to secure the suture anchor in place. Such embodiments may also include a detachment or breakaway feature between the inserter and the suture anchor to permit separation after anchor deployment. Some embodiments of the present invention include methods for deploying such suture anchors and expanding the expandable collars and/or detaching the inserter tools. Embodiments of the present invention may be used in various orthopedic applications such as, for example, shoulder repair.

Abstract: A system for suture passage through a tissue according to embodiments of the present invention includes a suture snare, the suture snare comprising a resilient anchor element and a suture capture element, a substantially rigid passer tube, an actuator rod, a snare enclosure formed by the passer tube and actuator rod, the actuator rod movable to move the snare enclosure between a closed configuration which completely captures a portion of the suture snare and an open configuration which does not completely capture the portion of the suture snare, and a piercing tip configured to form a hole through the tissue, wherein at least one dimension of the resilient anchor element in an undeformed state is larger than a largest dimension of the hole, and the anchor element deforms during insertion of the resilient anchor element through the hole and substantially resumes its prior shape after passing through the hole.

Abstract: An arthroscopic suture cutting device according to embodiments of the invention includes an outer tube; an inner rod including an outer surface and an aperture, a distalmost edge of a second distal opening located distally of a distalmost edge of a first distal opening, the inner rod can receive a suture extending through both distal openings; in a loading position, the inner rod extends distally of the outer tube to receive the suture; in an intermediate position, the distal openings are closer to the outer tube, such that the suture is permitted to slide through the aperture without release; and in a cut position, the distalmost edges of the distal openings are within the outer tube. Moving from intermediate position to cut position draws the suture between outer tube and inner rod, urging the inner rod radially toward the second distal opening, cutting the suture between the outer tube and the distalmost edge of the second distal opening.

Abstract: A suture anchor for securing soft tissue to bone, including a body and a continuous suture loop. The body extends along a longitudinal axis between opposing first and second ends, and has an external threaded portion extending coaxial with the axis, and a bore extending from the second end towards the first end. The continuous suture loop is secured within the bore of the body so that at least a portion of the loop extends from the second end of the body to form an eyelet.

Abstract: A suture anchor for securing soft tissue to bone, including a body having opposing first and second ends, a longitudinal axis extending between the ends, an external threaded portion extending from the first end, and a bore extending from the second end towards the first end. The body also has a first pair of slots extending laterally outwardly from the bore and extending longitudinally to a predetermined first distance from the second end, and a second pair of slots extending laterally outwardly from the bore and extending longitudinally to a predetermined second distance from the second end. The anchor additionally includes an eyelet receivable within the first and the second pairs of slots of the body and having an opening for receiving a suture, and a spring biasing the eyelet into the bore.

Abstract: A suture anchor for securing soft tissue to bone including a body extending along a longitudinal axis between opposite ends, and at least one eyelet extending between lateral surfaces of the body for receiving a suture. The eyelet defines two entry/exit void regions and a central void region extending between the entry/exit void regions. Each entry/exit void region extends from one of the lateral surfaces of the body and has an axis forming an acute angle with the longitudinal axis of the body. Each entry/exit void region also has a surface comprising a segment of a conic surface extending about the axis of the entry/exit void region and tapering inward towards the longitudinal axis of the body. The central void region extends along an axis transverse to the longitudinal axis of the body.

Abstract: A suture anchor for securing soft tissue to bone including a body extending along a longitudinal axis between opposite ends, and at least one eyelet extending between lateral surfaces of the body for receiving a suture. The eyelet defines two entry/exit void regions and a central void region extending between the entry/exit void regions. Each entry/exit void region extends from one of the lateral surfaces of the body and has an axis forming an acute angle with the longitudinal axis of the body. Each entry/exit void region also has a surface comprising a segment of a conic surface extending about the axis of the entry/exit void region and tapering inward towards the longitudinal axis of the body. The central void region extends along an axis transverse to the longitudinal axis of the body.

Abstract: A suture anchor for securing soft tissue to bone, including a body and a continuous suture loop. The body extends along a longitudinal axis between opposing first and second ends, and has an external threaded portion extending coaxial with the axis, and a bore extending from the second end towards the first end. The continuous suture loop is secured within the bore of the body so that at least a portion of the loop extends from the second end of the body to form an eyelet.

Abstract: A suture anchor for securing soft tissue to bone, including a body having opposing first and second ends, a longitudinal axis extending between the ends, an external threaded portion extending from the first end, and a bore extending from the second end towards the first end. The body also has a first pair of slots extending laterally outwardly from the bore and extending longitudinally to a predetermined first distance from the second end, and a second pair of slots extending laterally outwardly from the bore and extending longitudinally to a predetermined second distance from the second end. The anchor additionally includes an eyelet receivable within the first and the second pairs of slots of the body and having an opening for receiving a suture, and a spring biasing the eyelet into the bore.

Abstract: A modular-design recorder consists of a "print engine," a drive assembly for moving a print medium, e.g., paper, through the print engine, and a chassis for supporting the engine and the assembly. The chassis includes two identical sets of mounting studs, one on either side, for the mounting of the drive assembly. The drive assembly consists of a motor, a gear train through which the motor rotates the roller, and a bracket for mounting the motor on the either side of the chassis in a number of different angular orientations. The motor attaches to one end of the bracket, such that it mounts facing either toward or away from the chassis. The opposite end of the bracket mates with the mounting studs on the selected side of the chassis. The print engine consists of a print head, a roller for advancing the paper past the print head and a deflector.