The present invention relates to a complex surgical device for carrying out an anastomosis in the intestine including: a—a protective device (5) comprising an anchor element consisting of a stent (1) and a flexible outer sheath (2), and b—an introducer (10) comprising at least a first deformable guide tube (12), characterized in that the downstream end of said outer sheath is connected to said first guide tube (12) or to a first connecting piece (11), said outer sheath (2) being folded inside said first deformable guide tube (12), said stent being held in radial compression inside said first deformable guide tube.

A loading unit for a circular stapling device includes a shell member, a staple pusher assembly operably disposed within the shell member, a knife pusher assembly operably disposed within the shell member, a trocar assembly operably disposed within the shell member, and a tissue retraction assembly disposed within the shell member between the knife pusher assembly and the trocar assembly. The shell member includes an elongate tubular portion. The trocar assembly includes a trocar member movable from an advance position and a retracted position. The tissue retraction assembly includes a tissue retractor.

A surgical circular stapler has a handle assembly, a shaft, a stapling assembly, a motor, a drive assembly, and a firing assembly. The shaft extends distally from the handle assembly. The stapling assembly is secured to a distal end of the shaft. Longitudinal translation of the firing assembly causes the stapling assembly to drive a plurality of staples in a circular array to secure two lumens of tissue together. The stapling assembly may further drive a blade to sever any excess tissue interior of the circular array of staples. The motor is operable to rotate the drive assembly to thereby translate the firing assembly. A resilient member biases the firing assembly proximally. Through cooperation between the firing assembly and the resilient member, the firing assembly is driven distally and proximally to complete a firing stroke in response to rotation of the drive assembly through a single revolution.

A surgical stapler apparatus or assembly comprises a surgical stapler device having an internal channel extending from a stapler actuating handle to a stapler head of the device and a gas insufflation device having a pressurized gas supply connected to the internal channel of the stapler device via an inlet port at a handle portion intersecting with the channel in order to supply pressurized gas to the channel as the stapler shaft is inserted into the lumen of a colon, rectum or the like. Pressurized gas travels along the channel and out of the stapler head at the distal end of the stapler device in order to inflate the lumen ahead of the advancing stapler head, easing insertion.

A surgical stapling device includes an anvil assembly and a shell assembly having a shell housing including a plurality of shell splines having an A-frame configuration. The shell splines include a triangular tip that defines an apex and is positioned to engage splines on an anvil shaft of the anvil assembly to properly align the anvil assembly with the shell assembly. The A-frame splines are spaced from each other to define primary channels that are dimensioned to receive the splines of the anvil assembly to properly align the anvil assembly with the shell assembly. The A-frame splines also define secondary channels that are positioned proximally of and in axial alignment with the apex of the A-frame splines. In situations in which an apex of the splines on the anvil assembly “crash” into the apex of the A-frame splines of the shell assembly, i.e., the apexes of the splines meet head on, the A-frame splines of the shell assembly are constructed to fracture to allow the splines of the anvil assembly to penetrate into the A-frame splines and pass into the secondary channels of the A-frame splines to properly align the anvil assembly with the shell assembly of the stapling device.

A powered handheld electromechanical surgical device includes a motor configured to drive extension and retraction of a drive component, a sensor configured to sense force exerted on the drive component during extension of the drive component, and a controller including a processor and a non-transitory computer-readable storage medium storing instructions that, when executed by the processor, cause the processor to receive the sensed force from the sensor, control a speed of the motor during extension of the drive component in accordance with the sensed force, determine a speed profile or a force profile during extension of the drive component, and control a speed of the motor during retraction of the drive component in accordance with the speed profile or the force profile.

A powered handheld electromechanical surgical device includes a motor configured to drive extension and retraction of a drive component, a sensor configured to sense force exerted on the drive component during extension of the drive component, and a controller including a processor and a non-transitory computer-readable storage medium storing instructions that, when executed by the processor, cause the processor to receive the sensed force from the sensor, control a speed of the motor during extension of the drive component in accordance with the sensed force, determine a speed profile or a force profile during extension of the drive component, and control a speed of the motor during retraction of the drive component in accordance with the speed profile or the force profile.

A gastroplasty method involves a staple line that terminates prior to reaching the gastroesophageal junction such that the bypassed portion of the stomach does not require resection. Additionally, bougies are taught that assist a physician in following the improved staple line of the present invention.

A gastroplasty method involves a staple line that terminates prior to reaching the gastroesophageal junction such that the bypassed portion of the stomach does not require resection. Additionally, bougies are taught that assist a physician in following the improved staple line of the present invention.

An end effector for a surgical instrument is provided that has different types of features for releasably retaining at least one adjunct material. The end effector has a first jaw having a cartridge and a second jaw having an anvil. The attachment feature includes a retaining filament having, an intermediate portion, and first and second ends disposed on opposed sides of the intermediate portion and having end features configured to mate with at least one jaw of the first and second jaws. The attachment feature is arranged to retain the adjunct material such that at least a part of the intermediate portion is disposed over the adjunct material and such that the first and second ends are spaced apart.