A computer-implemented method for collecting data within a facility is disclosed. The method includes receiving, by a computer system, perioperative data from a plurality of surgical devices located within the facility, the perioperative data associated with a plurality of surgical procedures performed in the facility; determining, by the computer system, procedural context data associated with the plurality of surgical procedures based at least in part on the perioperative data; aggregating, by the computer system, the perioperative data according to the procedural context data; and determining, by the computer system, trends associated with the surgical procedures performed in the facility according to the perioperative data and the procedural context data.

Surgical systems are disclosed. Surgical systems can include evacuation systems for evacuating smoke, fluid, and/or particulates from a surgical site. A surgical evacuation system can be intelligent and may include one or more sensors for detecting one or more properties of the surgical system, evacuation system, surgical procedure, surgical site, and/or patient tissue, for example.

Surgical systems are disclosed. Surgical systems can include evacuation systems for evacuating smoke, fluid, and/or particulates from a surgical site. A surgical evacuation system can be intelligent and may include one or more sensors for detecting one or more properties of the surgical system, evacuation system, surgical procedure, surgical site, and/or patient tissue, for example.

A method of adjusting a staple parameter of a surgical stapling instrument is disclosed. The method includes determining, by a control circuit of the surgical stapling instrument, a first stroke length for a first staple driver of the surgical stapling instrument to drive a first row of staples of a circular stapling head assembly of the surgical stapling instrument; detecting, by the control circuit, a malformed staple in the first row of staples; adjusting, by the control circuit, the staple parameter, based on the detection of the malformed staple; and determining, by the control circuit, a second stroke length for a second staple driver of the surgical stapling instrument to drive a second row of staples of the circular stapling head assembly.

A method includes receiving one or more signals indicative of a position of a distal-end assembly of a medical probe within an organ of a patient. Based on the received signals, an inner volume that is confined within the distal-end assembly is determined. An anatomical map of the organ is updated, to denote the inner volume of the distal-end assembly as belonging to an interior of the organ.

A computer-implemented method for collecting data within a facility is disclosed. The method includes receiving, by a computer system, perioperative data from a plurality of surgical devices located within the facility, the perioperative data associated with a plurality of surgical procedures performed in the facility; determining, by the computer system, procedural context data associated with the plurality of surgical procedures based at least in part on the perioperative data; aggregating, by the computer system, the perioperative data according to the procedural context data; and determining, by the computer system, trends associated with the surgical procedures performed in the facility according to the perioperative data and the procedural context data.

A cryosurgical instrument having a cryosurgical probe, at least one electrode configured to generate products of electrolysis, and a protective member coupled to at least a portion of an exterior surface of the cryosurgical probe effective to substantially isolate the cryosurgical probe from the products of electrolysis is disclosed. Methods of providing combined cryosurgical treatment and electrolysis with the cryosurgical instrument are disclosed. A system having the cryosurgical instrument, a cryogenic power supply, an electrolysis power supply, and a controller configured to generate a cryogenic signal and an electric signal is disclosed. Methods of producing the cryosurgical instrument by selecting a cryosurgical probe, coupling at least one electrode to the cryosurgical probe, and fastening the protective member to at least a portion of an exterior surface of the cryosurgical probe are disclosed. Cryosurgical probe protective devices are also disclosed.

A cryosurgical instrument having a cryosurgical probe, at least one electrode configured to generate products of electrolysis, and a protective member coupled to at least a portion of an exterior surface of the cryosurgical probe effective to substantially isolate the cryosurgical probe from the products of electrolysis is disclosed. Methods of providing combined cryosurgical treatment and electrolysis with the cryosurgical instrument are disclosed. A system having the cryosurgical instrument, a cryogenic power supply, an electrolysis power supply, and a controller configured to generate a cryogenic signal and an electric signal is disclosed. Methods of producing the cryosurgical instrument by selecting a cryosurgical probe, coupling at least one electrode to the cryosurgical probe, and fastening the protective member to at least a portion of an exterior surface of the cryosurgical probe are disclosed. Cryosurgical probe protective devices are also disclosed.

A method of compressing tissue during a surgical procedure is disclosed. The method comprises obtaining a surgical instrument comprising an end effector, wherein the end effector comprises a first jaw and a second jaw, establishing a communication pathway between the surgical instrument and a surgical hub, and inserting the surgical instrument into a surgical site. The method further comprises compressing tissue between the first jaw and the second jaw, determining a location of the compressed tissue with respect to at least one of the first jaw and the second jaw, communicating the determined location of the compressed tissue to the surgical hub, and displaying the determined location of the compressed tissue on a visual feedback device.

A method for adaptive control of surgical network control and interaction is disclosed. The surgical network includes a surgical feedback system. The surgical feedback system includes a surgical instrument, a data source, and a surgical hub configured to communicably couple to the data source and the surgical instrument. The surgical hub includes a control circuit. The method includes receiving, by the control circuit, information related to devices communicatively coupled to the surgical network; and adaptively controlling, by the control circuit, the surgical network based on the received information.