Abstract: Apparatuses, systems, and methods for displaying a cooperative overlays based on interacting instruments are disclosed herein. In one aspect, a method for displaying cooperative overlays includes communicatively coupling a first augmented reality display device to a surgical hub; generating, by the first augmented reality display device, a first intraoperative display of a surgical field; displaying, by the first intraoperative display, a first data overlay based on operation of a first surgical instrument; interacting the first surgical instrument with a second surgical instrument; and displaying, by the first intraoperative display, an indicator of the interaction based on the interaction between the first and second surgical instruments.

Abstract: Apparatuses, systems, and methods for displaying interactive overlays for multiple users are disclosed herein. In some aspects, a system for displaying interactive overlays for multiple users can include a surgical hub configured to receive a plurality of data streams related to a surgical procedure and a first augmented reality display device communicably coupled to the surgical hub. In one aspect, the first augment reality display device is linked to a first user. In another aspect, the first augmented reality display device displays a first interactive overlay customized for the first user based on at least one of the plurality of data streams.

Abstract: A surgical system is disclosed including an imaging device, a display configured to show a livestream of a surgical field of a surgical procedure, and a control system operably coupled to the imaging device and the display. The livestream is captured by the imaging device. The control system is configured to overlay, on the livestream, information associated with the surgical procedure, detect an occurrence of a triggering event, and adjust the overlaid information based on the occurrence of the triggering event.

Abstract: An augmented reality display system used during a surgical procedure is disclosed. The system includes an imaging device to capture a real image of a surgical area during the surgical procedure. An augmented reality display presents functional overlay data associated with critical operations of a surgical instrument being actively visualized and interactions of the surgical instrument with tissue in the surgical area. The functional data is overlaid onto the real image of the surgical area. The functional data overlay is a combination of aspects of the critical operations of the surgical instrument and the interaction of the surgical instrument with the tissue in the surgical area. A processor receives functional data from the surgical instrument, determines the overlaid data related to the functional aspect of the surgical instrument, and combines the aspect of the tissue in the surgical area with the functional data received from the surgical instrument.

Abstract: Various methods are disclosed. One method includes reading an RFID card that is associated with a surgical instrument when the RFID card is located proximal to an RFID reader and initiating a wireless pairing process with the surgical instrument by the header module. Another method includes receiving an accessory at an accessory port of a modular energy system, communicating via a flexible serial communication interface coupled between a processor and the accessory port, the flexible serial communication interface configured to support multiple communication protocols, and detecting, by a presence detection circuit coupled between the accessory port and the processor, presence of the accessory connected to the accessory port. Other methods include a flexible serial bus power configuration method for a modular energy system and a remote power control interface method for a modular energy system.

Abstract: Systems, methods and devices for initiating pairing of wireless surgical instruments to a modular energy system are disclosed herein. In various aspects, a modular energy system includes an a radio frequency identification (RFID) reader that is configured to read an RFID card that is uniquely associated with a surgical instrument. When the RFID reader reads the RFID card, the RFID reader initiates a wireless pairing process with the surgical instrument. Initiating the wireless pairing process may include causing the module energy system to wirelessly search for the surgical instrument and causing a display screen to display instructions for wirelessly pairing the surgical instrument.

Abstract: Aspects of the present disclosure include control systems of an electrosurgical system for managing the flow of fluid, such as saline, and rates of aspiration or suction, in response to various states of conditions at a surgical site. The control system(s) may monitor and adjust to impedance at the surgical site, temperature of the surgical tissue, and/or RF current of electrodes, and may account for certain undesirable conditions, such as the electrodes sticking. The control systems may include various automatic sensing scenarios, while also allowing for several manual conditions.

Abstract: An interactive control unit is disclosed. The interactive control unit includes an interactive touchscreen display, an interface configured to couple the control unit to a surgical hub, a processor, and a memory coupled to the processor. The memory stores instructions executable by the processor to receive input commands from the interactive touchscreen display located inside a sterile field and transmit the input commands to the surgical hub to control devices coupled to the surgical hub located outside the sterile field.

Abstract: An interactive control unit is disclosed. The interactive control unit includes an interactive touchscreen display, an interface configured to couple the control unit to a surgical hub, a processor, and a memory coupled to the processor. The memory stores instructions executable by the processor to receive input commands from the interactive touchscreen display located inside a sterile field and transmit the input commands to the surgical hub to control devices coupled to the surgical hub located outside the sterile field.

Abstract: Disclosed is a surgical instrument having a housing, an end-effector, and a user interface. The end-effector includes a clamp arm and an ultrasonic blade configured to couple to an ultrasonic transducer and to a pole of an electrical generator. The clamp arm includes a clamp jaw pivotally movable about a pivot point, an electrode defining a surface configured to contact tissue and apply electrical energy to the tissue in contact therewith and configured to couple to an opposite pole of the electrical generator. The user interface includes a first activation button switch to activate a first energy source and a second button switch to select an energy mode for the activation button switch.

Abstract: Various ultrasonic instruments are disclosed. The ultrasonic instruments include structures configured to indicate the cutting length of the instruments, detect when grasped tissue has extended beyond the cutting length of the instrument, and prevent tissue from extending beyond the cutting length. Several techniques for each types of structures are disclosed.