A surgical stapling device includes a tool assembly including a jaw assembly and an impedance assembly. The jaw assembly includes an anvil assembly and a cartridge assembly. The tool assembly supports an impedance assembly for measuring the impedance of tissue grasped within the jaw assembly.

The present disclosure relates generally to systems, medical devices, and methods for closing an opening in a target tissue using hydraulics and/or pneumatics. In some embodiments, a medical device may include an endoscopic device operable to close an opening in a target tissue, and an actuator operable with the endoscopic device, wherein the actuator includes a piston within a chamber. The piston may include a piston head engaged with an interior surface of the chamber, and a piston rod coupled to a tissue engagement component of the endoscopic device, wherein pressure from a fluid within the chamber actuates the tissue engagement component.

A method and device for controlling the compression of tissue include clamping tissue between a first clamping member and a second clamping member by driving at least one of the clamping members with an electric motor toward a predetermined tissue gap between the clamping members and, during the clamping, monitoring a parameter of the electric motor indicative of a clamping force exerted to the tissue by the clamping members. The method and device include, during the clamping, controlling the electric motor, based on the monitored parameter, to limit the clamping force to a predetermined maximum limit.

A tool assembly for a surgical stapling device includes a first jaw supporting an anvil. A second jaw supports a staple cartridge. A drive member is movable from a retracted position towards an advanced position to move the second jaw in relation to the first jaw from an open position to a clamped position. At least two first pivoting links are operably coupled to a first side of the first and second jaws. At least two second pivoting links are operably coupled to a second side of the first and second jaws. The pivoting links each pivot in response to longitudinal advancement of the I-beam to move the second jaw between the open position and the clamped position. The second surface of the cartridge assembly is maintained in substantially parallel alignment with the first surface of the anvil as the second jaw is moved between the open position and the clamped position.

A surgical instrument comprising an end effector including a first jaw and a second jaw rotatable relative to the first jaw is disclosed. One or both of the first jaw and the second jaw comprise an arrangement for maintaining the alignment between the first jaw and the second jaw. The alignment arrangement can also provide tactile feedback to the operator of the surgical instrument that the surgical instrument is reaching a fully-closed position during a closure stroke.

According to one aspect, a tissue fastening device may comprise a body configured to include a plurality of fasteners; an anvil rotatable relative to the body; and a tissue cutting device. The body may define a longitudinal channel configured to receive the tissue cutting device. The tissue fastening device may further comprise a fastener actuator configured to move proximally relative to the body to deploy the plurality of fasteners from the body; and an actuation wire coupled to the tissue cutting device and the fastener actuator. The actuation of the actuation wire may cause the fastener actuator to deploy at least one of the plurality of fasteners into tissue distally of tissue cut by the tissue cutting device.

A method of controlling motor velocity in a surgical instrument is disclosed. The surgical instrument includes a displacement member, a motor coupled to the displacement member, a control circuit coupled to the motor, a position sensor coupled to the control circuit, and a timer coupled to the control circuit. The method includes receiving a first position of a displacement member from a position sensor, starting a timer, advancing the displacement member to a second position by setting a motor velocity to a first velocity, receiving the second positon from the position sensor, stopping the timer when the displacement member reaches the second position, receiving elapsed time from the timer, wherein the elapsed time is the time taken by the displacement to move from the first position to the second positon, and controlling, by the control circuit, velocity of the motor based on the elapsed time.

Apparatus and methods are provided for performing a medical procedure, such as a laparoscopic appendectomy using a stapler apparatus including a reusable handle portion including a shaft include proximal and distal ends, a disposable end effector attached to the distal end of the shaft of the reusable handle carrying one or more staples. For example, the end effector may include first and second jaws movable relative to one another between open and closed positions, the first jaw carrying a cartridge which includes the one or more staples. A Doppler sensor, a cutting element, and, optionally, a thermal element are also provided on the end effector. The end effector is introduced into a patient's body, tissue is positioned/locked between the jaws, and a plurality of staples are deployed into the tissue. The Doppler sensor is used to confirm that blood flow has discontinued in the stapled tissue, and the cutting element is actuated to sever the stapled tissue.

Embodiments include a method of stapling including providing an end effector having a first jaw with an anvil, a second jaw with a cartridge retaining a plurality of staples, a first coupling that couples a first end of the first jaw to a first end of the second jaw, a second coupling including a rigid link that movably couples a second end of the first jaw to a second end of the second jaw, and a knife; inserting the end effector through a trocar; positioning the cartridge face; positioning the anvil face; operating the end effector to move the rigid link such that the first jaw is urged towards the second jaw; operating the end effector to urge the plurality of staples from the cartridge; and actuating the knife.

A surgical instrument for assessing a mechanical property of tissue under compression is disclosed herein comprising a handle; an elongated shaft distally disposed to the handle; an end effector distally disposed to the elongated shaft and comprising a first and a second jaw member pivotally engaged with each other to open and close when operated by the handle; a force gauge assembly comprising a compression head and a force transducer; an adjustable spacer assembly disposed on the first jaw member proximally to the force gauge assembly and comprising an adjustable spacer member and a spacer base; a control mechanism supported by the elongated shaft and disposed adjacent to the handle for producing an actuation force for controlling the adjustable spacer assembly; and at least one control link operably coupled with the control mechanism and the spacer base, and configured to transmit the actuation force.