A surgical device adapter for coupling an end effector to a handle assembly is disclosed. The surgical device adapter includes: a housing; a drive mechanism disposed within the housing and couplable to the handle assembly and the end effector; and a drive coupling assembly coupled to the surgical device adapter and selectively couplable to the handle assembly, the drive coupling assembly including a retraction assembly selectively couplable to the drive mechanism such that rotation of the drive coupling assembly about a longitudinal axis defined by the surgical device adapter and relative to the housing actuates the drive mechanism.

A surgical instrument and methods of use. The surgical instrument can include a control portion having a plurality of tubular shaft portions and a plurality of control rods. Each of the plurality of tubular shaft portions can have a diameter of less than or equal to about 2.5 mm. At least one of the plurality of control rods can extend through each of the plurality of shaft portions. The surgical instrument can also include a tool portion having a plurality of tool rods and a plurality of tool cables. Each of the plurality of tool cables can be connected to one of the plurality of control rods. Further, each of the tool rods can be removably connected to one of the plurality of control rods.

A surgical instrument is configured to compensate for battery pack and drivetrain failures. One method includes generating a firing sequence, determining whether a subset of rechargeable battery cells is damaged during the firing sequence, and stepping-up an output voltage of the battery pack to complete the firing sequence in response to a determination that a subset of the rechargeable battery cells is damaged. Another method includes generating a mechanical output to motivate a drivetrain to transmit a motion to a jaw assembly of the surgical instrument, activating a safe mode in response to an acute failure of the drivetrain, and activating a bailout mode in response to a catastrophic failure of the drivetrain. Another method includes driving a drivetrain, sensing and recording vibration information from the drivetrain, generating an output signal based on the vibration information, and determining a status of the surgical instrument based on the output signal.

A stapling device including a replaceable loading unit is provided. The loading unit includes an elongated body and a stapling assembly having a first jaw and a second jaw. The first jaw of the stapling assembly includes an anvil assembly. The second jaw of the stapling assembly includes a releasably mounted cartridge assembly having a detent connection with the stapling assembly. Also provided is a tool for removing facilitating the separation of a replaceable cartridge assembly from a loading unit.

An ultrasonic surgical device comprises a handle assembly, a shaft assembly, and a removable transducer module. The transducer module includes a waveguide, a locking mechanism, and an electronics assembly including at least one button. The handle assembly includes a trigger assembly configured to actuate the button(s) of the electronics assembly when the transducer module is coupled with the handle assembly. The shaft assembly engages the waveguide of the transducer module and is disposed at the distal end of the handle assembly. The distal end of the shaft assembly includes a harmonic blade. When assembled with the handle assembly, the transducer module is capable of providing ultrasonic energy to the harmonic blade.

An assembly tool for engaging an end effector assembly with a shaft of a surgical instrument includes first and second components configured to releasably engage one another to form a body having a lumen extending therethrough. One of the components configured for receipt of at least a portion of an end effector assembly of a surgical instrument. A block is operably coupled to the first or second component and is movable relative thereto between a blocking position, wherein the block inhibits engagement of a shaft of the surgical instrument with the end effector assembly, and an unblocking position, wherein the block is displaced to permit engagement of the shaft of the surgical instrument with the end effector assembly. The block is configured to move from the blocking position to the unblocking position upon insertion of the shaft of the surgical instrument into the body in proper orientation relative thereto.

A surgical end effector assembly includes a pair of jaw members, a knife defining a longitudinal slot, a pivot pin coupling the jaw members to one another, and a drive member including a drive pin that is engaged to the jaw members. The pivot pin and/or the drive pin extends through the longitudinal slot of the knife to couple the knife to the jaw members and/or the drive member. The end effector assembly is transitionable between a use position, wherein the knife and drive member are generally aligned with one another to facilitate releasable engagement of the end effector assembly with a surgical instrument, and a cleaning position, wherein the jaw members, knife, and drive member are fanned apart from one another to facilitate cleaning of the end effector assembly. Methods of disengaging and sterilizing end effector assemblies for reuse are also provided.

A surgical instrument includes a first power source and a second power source. The first power source is configured to deliver power to a surgical instrument at a first rate of discharge. The second power source is configured to deliver power to the first power source at a second rate of discharge. The first power source and the second power source are positioned within the surgical instrument. The first power source and the second power source are further configured to communicate with a control module. The control module may rely on power from the first power source to drive an end effector of the surgical instrument. The end effector may comprise a harmonic/ultrasonic blade, RF electrosurgical electrodes, powered cutting/stapling features, and/or various other types of components.

Two part laparoscopic tools and surgical methods using such tools are presented. The tools and methods enable use of multiple surgical tools each having wide tool heads to be used in a body cavity using a single wide trocar and one or more narrow incisions, thereby reducing surgical risk and enhancing patient comfort and shortening recovery time. Additional instruments for facilitating laparoscopic surgery are also presented.

A medical device including an elongate member having a proximal end, a distal end, and at least one lumen extending therebetween. The medical device may also include at least one proximal control member extending within the elongate member from the proximal end to the distal end of the elongate member, a coupling mechanism disposed adjacent a distal portion of the elongate member, and an end-effector removably coupled to the distal end of the elongate member, wherein the end-effector includes at least one distal control member extending proximally therefrom, and wherein the coupling mechanism is configured to removably couple the at least one distal control member to the at least one proximal control member.