A powered stapling device includes a circular stapling head assembly, an anvil, a trocar coupled to the anvil, and a motor also coupled to the trocar. The motor is configured to advance and retract the trocar. The device further includes a control circuit coupled to the motor, in which the control circuit is configured to determine a position of the trocar in one of a plurality of zones, and set an anvil closure rate based on the determined position of the trocar.

An end effector assembly suitable for use with a forceps includes opposing first and second jaw members pivotably mounted with respect to one another. The first jaw member includes one or more pivot holes defined therein configured to receive a portion of a pivot pin therein. The end effector assembly also includes an electrically-insulative hinge configured to electrically isolate the first and second jaw members from one another including one or more pivot-hole locators having an aperture defined therein. The electrically-insulative hinge is attached to the first jaw member such that the one or more pivot-hole locators align with the one or more pivot holes of the second jaw member.

An energy treatment instrument includes a held unit capable of being held, and an electric-receiver-side resonator including an electric receiver coil wound around a coil axis, and resonating at the same resonance frequency as an electric-supplier-side resonator, thereby electric power being supplied from an electric supplier coil to the electric receiver coil. The energy treatment instrument includes an energy generator generating energy for use in a treatment by using the electric power supplied to the electric receiver coil, and a magnetic member including a magnetic material and located distant from the coil axis of the electric receiver coil.

Tissue treatment systems include an actuator handle assembly coupled with a clamp assembly having a first jaw mechanism and a second jaw mechanism. A first jaw mechanism includes a first flexible boot, a first flexible ablation member coupled with the first flexible boot, and a first rotatable jawbone disposed within the first flexible boot. A second jaw mechanism comprises a second flexible boot, a second flexible ablation member coupled with the second flexible boot, and a second rotatable jawbone disposed within the second flexible boot.

Unitary endoscopic vessel harvesting devices are disclosed. In some embodiments, such devices comprise an elongated body having a proximal end and a distal end; an inflatable, coated or conditioned tip disposed at the distal end of the elongated body; and a cutting unit having a first cutting portion and a second cutting portion, the first cutting portion and the second cutting portion being moveable in a longitudinal direction relative to the elongated body to capture a blood vessel between the first cutting portion and the second cutting portion, and being rotatable relative to one another circumferentially about the tip to cut the captured blood vessel.

A surgical stapling instrument is disclosed. The surgical stapling instrument includes an end effector configured to clamp a tissue, a cutting member, a motor coupled to the cutting member, the motor configured to move the cutting member between a first position and a second position, and a control circuit coupled to the motor. The control circuit is configured to sense a parameter associated with clamping of the end effector or firing of the cutting member, or a combination of clamping of the end effector and firing of the cutting member, and control the motor to adjust a torque applied to the cutting member by the motor, a speed at which the motor drive the cutting member, or a distance to which the motor drives the cutting member according to the parameter, or any combination of adjusting the torque, the speed, and the distance.

A forceps includes an end effector assembly having first and second jaw members, each including a proximal flange and a distal jaw body defining a tissue-treating surface. The second jaw member is both proximally offset and spaced-apart from the first jaw member. One or more resilient bands extends between and interconnects the proximal flanges of the jaw members. The resilient band(s) is configured to bias the first and second jaw members towards an open position. The resilient band(s) is configured to flex in response to distal translation of the second jaw member relative to the first jaw member to thereby move the second jaw member relative to the first jaw member to a closed position for grasping tissue between the tissue-treating surfaces thereof. In the closed position, the second jaw member is disposed in an aligned orientation and is approximated relative to the first jaw member.

A matrix router with frequency switching is provided having an energy source electrically connected to a plurality of interface ports. A switching device is provided between the energy source and the plurality of switches. One of the plurality of interface ports includes a paired electrode interface port for the connection of a paired electrode device thereto. The paired electrode device has a first pair of opposed electrodes and a second pair of opposed electrodes for clamping on tissue. When the paired electrode device is operably connected to the paired electrode interface port and actuated, the switching device alternates energy such as bipolar RF from the first pair of opposed electrodes to the second pair of opposed electrodes.

An electrosurgical system comprising an electrosurgical device, including a first electrode, a second electrode, and an intermediate electrical element, where the first electrode, the second electrode, and the intermediate electrical element are configured to electrically communicate with a target tissue, and where the intermediate electrical element interposes the first electrode and the second electrode, the system also including a resistive voltage divider electrically connected to a first input conductor and a second input conductor, the resistive voltage divider comprising a first resistor and a second resistor, where the first resistor and the second resistor are electrically connected in series between the first input conductor and the second input conductor, and where the first electrode is configured to electrically connect to the first input connector, the second electrode is configured to electrically connect to the second input connector, and the at least one intermediate electrode is configured to electrically connect to at least one intermediate conductor electrically connected between the first resistor and the second resistor.

Surgical tissue fusion instrument having two gripping structures which are movable relative to each other, are designed for gripping and bringing together biological tissue sections, and are assigned heat-generating means designed in such a way that tissue fusion takes place between the biological tissue sections by heat being supplied in the area of the gripping structures. At least one gripping structure is assigned a fluid-conducting system, which is designed to supply at least one liquid or flowable additive to the tissue sections during a tissue fusion process.