A surgical system, method, and apparatus for suturing a first anatomical structure to a second anatomical structure of a subject includes an endoscope tube for being advanced through a lumen of the first anatomical structure to a surgical site near the second anatomical structure. A manipulator arm extends through the endoscope tube to the surgical site, and includes a first concentric tube manipulator with an end effector configured to grasp and manipulate a suture at the surgical site. A needle arm extends through the endoscope tube to the surgical site, and includes a second concentric tube manipulator with a needle tip configured to pierce the tissue of the first and second anatomical structures. The needle arm is also configured to grasp the suture and to retract and pull the suture through the pierced tissue so that the suture extends through and forms stitching that stitches together the first and second anatomical structures.

A system and method for compensation of angular distortions in a system utilizing light emitters and light sensors disposed on non-parallel jaws may include determining a first point at a first side of a region of interest and a second point at a second side of the region of interest, determining a linear curve including the first and second points, and utilizing the linear curve to remove the angular distortion from the region of interest between the first and second points. A system and method for compensation of angular distortions may alternatively include modeling a non-pulsatile illumination pattern according to the intensities of individual emitters, comparing the pattern according to the model against a non-pulsatile illumination pattern detected using the light sensors, and varying the intensities of the individual emitters based on the comparison until angular distortion has been removed.

A surgical system includes a shaft having a distal end and a proximal end, the proximal end including a grip, a sensor attached to the distal end of the shaft, at least one visual indicator disposed at the distal end of the shaft, and a controller coupled to the sensor and the at least one visual indicator, the controller actuating the at least one visual indicator according to a signal received from the sensor.

A surgical device comprising a first jaw member, a second jaw member, a clamping member and a clamp apparatus is disclosed. The clamping member is slidably positioned to translate at least partially through the first jaw member. The clamping member engages the first jaw member and the second jaw member, and has a knife blade for cutting tissue. A flange of the clamping member is configured to engage a cam surface to pivot the second jaw member with respect to the first jaw member from an open position toward an approximated position. The clamp apparatus is movable from a retracted position to an advanced position for preventing a gap between proximal portions of the first jaw member and the second jaw member from exceeding a predetermined distance. The clamping member and the clamp apparatus are separately movable.

Navigation and tissue capture systems and methods for navigation to and/or capture of selected tissue using the innate electrical activity of the selected tissue and/or other tissue are described. In the context of left atrial appendage closure, the systems and methods can be used to navigate to the left atrial appendage and capture/control the appendage while a closure instrument (suture, clip, ring) is placed over the appendage and tightened down or a closure method (ablation, cryogenic procedures, stapling, etc.) is performed to close the left atrial appendage. The use of innate electrical activity for navigating devices may be used in connection with other tissues and/or areas of the body.

A surgical instrument includes a housing, a shaft extending therefrom, an end effector assembly supported by the shaft, a movable handle, and a drive assembly. The drive assembly includes a translatable drive member for actuating the end effector assembly, and a torsion spring including first and second legs. The first leg is configured to translate through the housing in response to movement of the movable handle relative to the housing. The second leg is configured to translate through the housing in cooperation with the first leg to move the drive member longitudinally when a force acting on the drive member is less than a threshold force, and to remain in fixed position, thereby tensioning the torsion spring and retaining the drive member in fixed position when the force acting on the drive member is equal to or exceeds the threshold force.

A surgical instrument with a rotatable and articulatable end effector. The end effector includes first and second jaws that are movable between an open position and a closed position by an axially movable drive member. The end effector is coupled to an elongate shaft such that the end effector is rotatable relative to the shaft about a shaft axis when the drive member is rotated. A releasable lock system is provided to selectively lock the end effector in a desired rotary position.

A loading fixture for use with an endoscopic stitching device includes a needle and a loading portion configured to receive jaws of the endoscopic stitching device. The loading portion includes a shuttle configured to detachably support the needle thereon. The shuttle is transversely slidable such that the needle supported on the shuttle engages at least one of the jaws of the endoscopic stitching device. The loading portion further includes guides to position the jaws of the endoscopic stitching device therebetween and a biasing member configured to bias the shuttle toward one of the guides.

A medical device includes a link, a first tool member, a second tool member and a third tool member, which each have a proximal end portion movably coupled to the link and a distal end portion. The distal end portion of the first tool member can engage a first object and be associated with a first medical function, the distal end portion of the second tool member can engage a second object and be associated with a second medical function, and the distal end portion of the third tool member can engage the first object or the second object and be associated with the first and/or second medical function. Each of the first, second and third tool members can move relative to the link independent of movement of the each of the other tool members.

A push-to-close actuated, dual-action, spaced pivot, assembly for jaws, blades, and forceps devices. The assembly is structured for use with a push rod, cable, or solid wire forceps actuator surgical instrument. A jaw receiving body of the assembly is adapted to receive a wide variety of types of jaws performing different surgical functions. Two separate moving jaws each pivot about a separate spaced pivot pin, on opposite sides of the jaw body centerline. A handle with a pushing actuating rod provides a pushing motion to a drive rod, cable, or solid wire within a cable sheath to push a connected yoke in the assembly to push against the jaws to close the jaws together.