A robotic surgical system comprising a surgical robot, a surgical instrument, a motor, and a current sensor is disclosed. The surgical instrument comprises an end effector, a firing assembly, and a lockout mechanism. The firing assembly comprises a firing member movable from an unfired position to a fired position during a firing stroke and a sled movable from a proximal position to a distal position. The lockout mechanism is configured to prevent the firing stroke when the sled is not in the proximal position. The motor is operably coupled with the firing member and couplable with a supply of current. When the current through the motor exceeds a threshold value the firing member is prevented from completing the firing stroke. The threshold value corresponds to the current through the motor when the lockout mechanism is activated. The motor is de-energized when the current through the motor exceeds the threshold value.

A laparoscopic instrument is placed into the abdomen without the creation of a skin incision. The laparoscopic instrument includes a shaft that does not exceed 1.6 mm in diameter. The shaft has a beveled end and is inserted into an abdomen similar to the placement of a needle, without use of a scalpel. Operating instruments are introduced into the abdomen through the umbilical port using a docking device, and are then docked to the beveled end of the shaft after the shaft is introduced through the abdomen. Multiple types of operating instruments can be placed on the beveled end of the shaft during the surgical procedure. Each operating instrument is docked with a holster during introduction into and withdrawal from the umbilical port and is removed from the holster only when in use. When removed from the holster it is locked to the shaft and cannot be dropped.

Disclosed herein are various systems and methods for facilitating control of a tool or tools. The systems can allow a user to control multiple degrees of freedom. One such system allows a user to control multiple degrees of freedom of two tools simultaneously. Another such system allows a user to control multiple degrees of freedom with a single hand. Frames and rails for supporting and/or constraining movement of a tool or tools are also described herein.

A surgical instrument is disclosed. The instrument includes an end effector comprising a moveable cutting instrument to cut an object and a motor coupled to the end effector. The motor actuates the cutting instrument in response to a current therethrough, causing the cutting instrument to move between a proximal-most position and a distal-most position. The instrument includes an interlock coupled to the end effector and to the motor to prevent actuation of the cutting instrument based on the current through the motor.

Devices and methods for delivering end effectors through surgical trocars are described herein. In one embodiment, a surgical end effector loading device is provided that includes a housing having a distal-facing first portion configured to couple with a proximal end of a surgical trocar, and an elongate second portion protruding distally from the first portion. The second portion can include a lumen formed therein and can be configured to extend into a working channel of the surgical trocar when the housing is coupled thereto. The device can also include at least one mating element coupled to the housing and configured to interface with a complementary mating element of the surgical trocar to restrict movement of the housing relative to the trocar, as well as an end effector retainer coupled to the housing and configured to selectively couple a surgical end effector to the housing.

A surgical instrument for use with a robotic system that has a control unit and a shaft portion that includes an electrically conductive elongated member that is attached to a portion of the robotic system. The elongated member is configured to transmit control motions from the robotic system to an end effector.

A surgical access port comprises an instrument guide. The instrument guide comprises a proximal end, a distal end, a plurality of instrument guide channels between the proximal and distal ends, and an outside surface that fits closely to an inner wall surface of a cannula into which the instrument guide is inserted. The instrument guide also comprises a first guide channel opening defined along a length of a first guide channel of the plurality of instrument guide channels. The instrument guide also comprises a second guide channel opening defined along a length of a second guide channel of the plurality of instrument guide channels. The instrument guide also comprises an insufflation channel defined between the first and second guide channel openings. The insufflation channel extends from a position between the proximal and distal ends of the instrument guide to the distal end of the instrument guide.

Apparatus and methods are described allow the techniques of endoscopic and laparoscopic surgery to be combined into a minimally invasive hybrid surgical technique called NOTES-assisted laparoscopic surgery. Manual and robotic-controlled versions of a modular laparoscopic tool are described having a small diameter shaft that is delivered laparoscopically to a surgical site. Larger diameter working tips are delivered through a NOTES delivery tube inserted to the surgical site through a natural orifice and joined to the shaft of the modular laparoscopic tool. Larger diameter working tips improve the effectiveness of the modular laparoscopic tools and the number and size of laparoscopic ports used can also be reduced.

A replaceable staple cartridge for use with a surgical instrument is disclosed. The replaceable staple cartridge is stored in a packaging prior to being attached to the surgical instrument. The packaging includes a first layer, a second layer, and an RFID system. The first layer and the second layer form a seal around the replaceable staple cartridge. The RFID system includes an RFID tag and an insulator. The RFID tag includes an integrated battery, a tag antenna, and an RFID chip including stored information. The insulator electrically decouples the integrated battery from the RFID chip. The insulator is configured to detach from the integrated battery when the seal is broken between the first layer and the second layer. The RFID tag becomes active and transmits the stored information to an RFID scanner of the surgical instrument when the insulator is detached from the integrated battery.

A device retention assembly includes a delivery system and a device retention mechanism retaining the delivery system. The device retention mechanism includes a tray, a base coupled to the tray, and retaining flanges pivotally coupled to the base. The delivery system is enclosed within an opening defined by the base and retaining flanges. A key locks the device retention mechanism in the closed position retaining the delivery system. The key must be removed to unlock the device retention mechanism to release the delivery system.