A surgical effector, a surgical tool, and a surgical robot are provided. The surgical effector includes a support part, a head part, a drive part, and a sealing member. The support part includes an inner cavity, the head part is at least partially movably arranged at a distal end of the support part, the drive part is slidably arranged in the inner cavity of the support part and is connected to a proximal end of the head part, the sealing member is connected to the drive part in a sealed manner at a first end thereof and is connected to the support part in a sealed manner at a second end thereof, and at least a part of the sealing member is deformable.

A surgical effector, a surgical tool, and a surgical robot are provided. The surgical effector includes a support part, a head part, a drive part, and a sealing member. The support part includes an inner cavity, the head part is at least partially movably arranged at a distal end of the support part, the drive part is slidably arranged in the inner cavity of the support part and is connected to a proximal end of the head part, the sealing member is connected to the drive part in a sealed manner at a first end thereof and is connected to the support part in a sealed manner at a second end thereof, and at least a part of the sealing member is deformable.

This disclosure includes soft-tissue fasteners for coupling an implant to soft tissue, bone fasteners for coupling an implant to bone, fastener-delivery apparatuses (e.g., tools) for delivering such soft-tissue fasteners and bone fasteners, fastener cartridges for use with certain of the fastener-delivery apparatuses. The present fasteners generally include at least one barbed shaft and an enlarged head spaced from a distal end of the shaft. Some of the present fasteners include two barbed shafts and an enlarged head spanning the two shafts. This disclosure also includes kits that comprise a plurality of fasteners (e.g., a plurality of soft-tissue fasteners, a plurality of bone fasteners, or both). Some of the present kits also include one or more of the present fastener-delivery apparatuses or tools; for example, a plurality of fasteners with a single, reloadable tool; a plurality of tools each pre-loaded with a fastener; and/or a plurality of cartridges each pre-loaded with a fastener and a common tool for use with the cartridges.

An apparatus for treating obesity in a human or animal mammal patient. The apparatus comprising a first volume filling device segment and a second volume filling device segment. The first and second volume filling device segments are adapted to be assembled into an implantable volume filling device of a controlled size. Each one of the first and second volume filling device segment comprises at least one interconnecting structure. The interconnecting structure of the second volume filling device segment is adapted to be formed fitted, such that the first and second volume filling device segment can be assembled into the volume filling device. The assembled volume filling device is adapted to be at least substantially invaginated by a stomach wall portion of a patient, with the outer surface of the device resting against the stomach wall, such that the volume of the food cavity is reduced in size.

A surgical stapling instrument includes a shaft assembly, an end effector at a distal end of the shaft assembly and having a first jaw with an anvil and a second jaw operable to cooperate with the first jaw to clamp tissue, and a cartridge inserted into the second jaw. The cartridge includes staples, a movable member translatable distally during a firing stroke to discharge the staples into tissue, a first sensor assembly configured to monitor a first condition of the cartridge, and a second sensor assembly configured to monitor a second condition of the cartridge. A first processor is coupled with the first and second sensor assemblies and is configured to receive first and second signals from the sensor assemblies, respectively, where each signal is indicative of the respective condition of the cartridge. The first processor is configured to selectively permit or restrict the firing stroke based upon the signals.

A surgical instrument includes a body, a shaft assembly, an end effector, an actuation assembly, and a bailout mechanism. The shaft assembly extends distally from the body. The end effector is disposed on a distal end of the shaft assembly and includes a first jaw and a second jaw. The actuation assembly includes a pusher member configured to move relative to the end effector to drive movement of the first jaw, the second jaw, or both the first jaw and the second jaw. The bailout mechanism includes a first elongate actuation element and a second elongate actuation element. A portion of the bailout mechanism is configured to selectively apply tension to the first elongate actuation element and the second elongate actuation element to move the pusher member. The first elongate actuation element is stronger in tension than the second elongate actuation element cable.

A surgical instrument includes a body, a shaft assembly, an end effector, a stapling assembly, and a drive system. The shaft assembly extends distally from the body. The end effector is disposed on a distal end of the shaft assembly and includes a first jaw and a second jaw. The stapling assembly is supported by one of the first jaw or the second jaw of the end effector. The drive system includes a shift mechanism configured to selectively modify a mechanical advantage of a drive input driven by a motor and used to power one or more functions associated with operation of the end effector.

A surgical instrument includes a shaft assembly, an end effector, a driving assembly, at least one motor, and a motor controller. The at least one motor is configured to actuate the driving assembly to deploy staples. The motor controller is in communication with the motor. The motor controller is configured to determine whether values of first and second trigger variables exceed predetermined thresholds. The motor controller is configured to modify at least one motor control parameter in response to determining that the values of the first and second trigger variables exceed the predetermined thresholds. The motor control parameters include a motion profile instituted by the motor controller for the motor, a waiting period during which power to the motor is reduced or stopped, or the predetermined threshold relating to current or force for proximal retraction to be different from the predetermined threshold relating to current or force for distal advancement.

A surgical instrument includes a shaft assembly, an end effector, a firing system, and a firing lockout assembly. The end effector is operatively coupled with the shaft assembly. The end effector includes first and second jaws. The first jaw includes an anvil. The second jaw is configured to removably receive an unspent staple cartridge. The firing system extends through at least a portion of the shaft assembly and the end effector. The firing lockout assembly is selectively coupled with the firing system. The firing lockout assembly is disposed proximal to the end effector. The firing lockout assembly is configured to allow actuation of the firing system in an unlocked configuration in response to the unspent staple cartridge being coupled with the second jaw; and inhibit actuation of the firing system in a locked configuration in response to the unspent staple cartridge being absent from the second jaw.

A method of operating a robotically controlled surgical instrument that includes an end effector, a driving assembly, and a lockout, the method includes inhibiting actuation of the driving assembly when the lockout is in a locked configuration in response to an unspent staple cartridge being absent from a first jaw of the end effector. The method also includes inserting the unspent staple cartridge into the first jaw of the end effector to switch the lockout to an unlocked configuration. The method also includes actuating the driving assembly to pivot the first jaw, which includes the staple cartridge, toward a second jaw of the end effector to at least one of staple or cut tissue with the end effector when the lockout is in the unlocked configuration.