Abstract: A staple cartridge comprising staples that are lubricated before they are loaded into the staple cartridge and after they have been loaded into the staple cartridge is disclosed.

Abstract: A surgical instrument end effector includes a first jaw, a second jaw, a staple cartridge, and a retention cap. The second jaw including an anvil having a plurality of staple forming pockets. The first and second jaws are operable to clamp and staple tissue positioned therebetween. The staple cartridge is configured for receipt within the first jaw. The staple cartridge includes a cartridge body, a lower tray, and a plurality of staples. The cartridge body and the lower tray are configured to couple together. The retention cap is configured to fasten to a proximal end of the cartridge body and to engage the lower tray. The retention cap is further configured to fix the position of the lower tray relative to the cartridge body.

Abstract: A surgical stapling instrument includes an anvil defining a plurality of staple forming pockets and a stapling head assembly configured to drive a plurality of staples against the staple forming pockets of the anvil. The stapling head assembly comprises a coupling member configured to actuate the anvil relative to the stapling head assembly, a firing assembly configured to drive the plurality of staples against the staple forming pockets of the anvil, and a deck member. The deck member includes a deck surface extending radially between an inner circular edge and an outer circular edge, and a plurality of staple openings extending through the deck surface. The plurality of staple openings define at least one cross shape.

Abstract: 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.

Abstract: 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.

Abstract: A surgical stapling instrument includes an anvil defining a plurality of staple forming pockets and a stapling head assembly configured to drive a plurality of staples against the staple forming pockets of the anvil. The stapling head assembly comprises a coupling member configured to actuate the anvil relative to the stapling head assembly, a firing assembly configured to drive the plurality of staples against the staple forming pockets of the anvil, and a deck member. The deck member includes a deck surface extending radially between an inner circular edge and an outer circular edge, and a plurality of staple openings extending through the deck surface. The plurality of staple openings define at least one cross shape.

Abstract: A surgical staple comprising a substrate and one or more coatings which delay the bioabsorption of the substrate. The coating can be selected so as to affect the environment surrounding the staple once the staple is implanted in the patient. The effect on the environment can cause the bioabsorption to occur within a desired time frame.

Abstract: A staple cartridge comprising staples that are lubricated before they are loaded into the staple cartridge and after they have been loaded into the staple cartridge is disclosed.

Abstract: Packaging assemblies for storing and shipping surgical staple cartridges containing bio-absorbable staples.

Abstract: A surgical staple comprising a substrate and one or more coatings which slows the bioabsorption of the substrate. The coating can be selected so as to affect the environment surrounding the staple once the staple is implanted in the patient. The effect on the environment can cause the bioabsorption to occur within a desired time frame.

Abstract: Staple cartridges comprising absorbable staples having sufficient mechanical properties to be deployed into patient tissue, clench the patient tissue, and then dissolve within a desired time frame.

Abstract: Staple cartridges including bioabsorbable staples are disclosed. The staples are configured such that they are bioabsorbable within a desired time frame.

Abstract: Staple systems and methods for implementing the staple systems are disclosed.

Abstract: A method and apparatus of adaptively controlling a surgical stapling instrument are disclose. The method includes identifying a staple cartridge type, configuring the surgical stapling instrument based on the identified staple cartridge, and adaptively controlling, by a control circuit, operation/functionality of the surgical stapling instrument based on the configuration of the surgical stapling instrument loaded with the identified staple cartridge type. The apparatus includes a control circuit including a microcontroller and a memory coupled to the microcontroller. The memory stores machine executable instructions that when executed by the microcontroller cause the microcontroller to execute the above method.

Abstract: A system, method, and device for displaying relevant augmented reality (AR) content to a surgical staff members without over-saturating the augmented display with virtual elements. The surgical staff members (e.g., doctors, nurses, surgeons, technicians, etc.) require AR content that is delicately balanced between displaying helpful information without distracting the surgeon. A surgical hub receives a plurality of inputs related to surgical environment and displays only necessary information to allow the surgeon to provide effective care to the patient, based on a determined trigger event.

Abstract: A surgical instrument end effector includes a first jaw, a second jaw, a staple cartridge, and a retention cap. The second jaw including an anvil having a plurality of staple forming pockets. The first and second jaws are operable to clamp and staple tissue positioned therebetween. The staple cartridge is configured for receipt within the first jaw. The staple cartridge includes a cartridge body, a lower tray, and a plurality of staples. The cartridge body and the lower tray are configured to couple together. The retention cap is configured to fasten to a proximal end of the cartridge body and to engage the lower tray. The retention cap is further configured to fix the position of the lower tray relative to the cartridge body.

Abstract: A depth limiter that is configured to couple with first and second trocar cannulas having different diameters. The depth limiter includes first and second body portions. First and second body portions each include first and second gripping surfaces. The first and second body portions are pivotably coupled together and are movable between an open configuration and a closed configuration. In the open configuration, the first and second body portions are configured to allow for axial movement of the depth limiter relative to the first and second trocar cannulas. The first gripping surfaces of the first and second body portions are configured to restrict axial movement of the depth limiter relative to the first trocar cannula in the closed configuration. The second gripping surfaces of the first and second body portions are configured to restrict axial movement of the depth limiter relative to the second trocar cannula in the closed configuration.