A surgical stapling instrument includes an anvil and a stapling head assembly. The anvil defines staple forming pockets. The stapling head assembly includes a body, a coupling member, a firing assembly, and a staple deck. The coupling member is configured to actuate relative to the body to thereby acuate the anvil relative to the body. The firing assembly is configured to drive staples against the staple forming pockets of the anvil. The staple deck is defined by an outer arched perimeter and an inner arched perimeter fixed to the body. The staple deck defines staple openings. At least one non-tangential staple opening in the of staple openings extends along a longitudinal axis in a non-tangential relationship with a closest tangent line of the inner arched perimeter or the outer arched perimeter.

A surgical instrument. The surgical instrument has a force delivery system which communicates a changing force to a user of the surgical instrument when a limit of a surgical function is reached. A sensor senses position of a moving element to communicate a signal to the force delivery system. In various embodiments, the system generates a vibratory force to signal the user.

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 kit includes a stapling device and a securing ring. The stapling device includes a reload including a trocar member and an anvil assembly including an anvil and an anvil shaft detachably couplable to the trocar member of the reload for unitary movement. The securing ring is selectively securable about the anvil shaft. The securing ring has an annular profile defining an aperture. The securing ring includes first and second portions and an intermediate portion. The first and second portions adjustably overlap each other. The first portion includes a first tab. The second portion includes a hook. The intermediate portion includes a second tab and defines slots to receive the hook of the second portion. When the first and second tabs are displaced relative to each other, the aperture is transitionable from a first state having a first diameter to a second state having a second diameter.

Technologies are generally provided for a tissue removal device for removing tissue protrusions extending from a wall of intestines. The tissue removal device may be a bell shaped tube configured to slide over an inflamed diverticulum that has been inverted to extend into interior space of the colon. The tissue removal device run be slid over the inverted diverticulum with a portion of the tissue removal device having a widest diameter oriented near the colon wall and a portion having a narrowest diameter oriented near a tip of the diverticulum. A pressure gradient may be induced along the walls of the tissue removal device such that the point of highest pressure at the narrowest opening may cause the walls of the diverticulum to be pinched together to induce necrosis and removal of the diverticulum, while promoting healing of the colon walls over the region of decreasing pressure.

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.

Methods and apparatuses for applying tensile force to one or more tissue regions within a body. Illustratively, an implant ball including a spherical side wall is received within a tubular organ, and tensile sutures extend through the implant ball for applying a tensile force to facilitate elongation of the tubular organ.

The present invention relates to an egg-shaped stapler for intestinal anastomosis, the stapler including: an anvil head having an oval bottom inner circumferential surface; a rear head which has an oval bottom inner circumferential surface that comes into contact with the bottom inner circumferential surface of the anvil head and which includes a staple receiving port for receiving a staple along the oval bottom inner circumferential surface thereof; and a handle part, one end of which is coupled to the rear head and the other end of which extends backwards so as to operate at least one of the anvil head and the rear head.

The invention provides systems, devices, and methods for the delivery, deployment, and positioning of magnetic compression devices at a desired site so as to improve the accuracy of anastomoses creation between tissues, organs, or the like.

A method for deforming a staple comprising a base, a first staple leg, and a second staple leg, wherein the base, the first staple leg, and the second staple leg are positioned within a common plane prior to being deformed, the method comprising positioning the first staple leg within a first cup of a staple pocket, the first cup comprising a first inner surface, applying a first compressive force to the first staple leg to bend the first staple leg toward the base and the second staple leg, contacting the first inner surface with the end of the first staple leg to bend the end of the first staple leg toward a first side of the base, and deforming the first staple leg such that the end of the first staple leg crosses a mid-line of the staple defined between the first staple leg and the second staple leg.