The present disclosure is directed to an electrosurgical apparatus for generating plasma in electrosurgical applications. The electrosurgical apparatus includes an end effector disposed on a distal portion of a tube of the electrosurgical apparatus. The end effector mixes ambient air with an inert gas to increase the production of radical species. In one aspect of the present disclosure, the end effector includes a cylindrical augmenter disposed over a distal end of the tube with one or more tilted vanes disposed between the cylindrical augmenter and the tube. In another aspect of the present disclosure, the end effector includes one or more tilted vanes disposed on an inner surface of a wall of the distal end of the tube. In another aspect of the present disclosure, the end effector includes one or more advection apertures on the wall of the distal end of the tube.

A method for sanitizing an electric motor is provided. The method includes setting operational parameters for the electric motor for destroying targeted microbes; and energizing the electric motor using the set operational parameters. Computer program products and an electric motor are disclosed.

A method for sanitizing an electric motor is provided. The method includes setting operational parameters for the electric motor for destroying targeted microbes; and energizing the electric motor using the set operational parameters. Computer program products and an electric motor are disclosed.

One aspect of the present disclosure can include a system for dispensing purified and sterilized fluid and/or solution. The delivery system can include a fluid reservoir, a sterilization and/or purification mechanism, a solution production mechanism, a dispensing mechanism, and a controller. The system can dispense the purified and sterilized fluid and/or solution on-demand.

Disclosed is an integrated intracavity gas circulation treatment device for a laparoscopic surgery, includes a filtering unit and a driving pump unit. The filtering unit is provided with an air inlet channel, the driving pump unit is installed in the filtering unit, and communicated with the filtering unit; and the driving pump unit is provided with an air exhausting channel. The device is capable of realizing integrated installation of the filtering unit and the driving pump unit, skillful in design, compact in structure, the device is simply and conveniently used and operated by a medical worker. In the whole surgery process, stability of an air pressure in the abdominal cavity is high, an effect of gas circulation filtering is good, surgery efficiency and quality are improved, and it is guaranteed that a contaminated and non-sterilizable work piece may not be repeatedly used, so real zero infection is achieved.

A method and device for high-pressure, high-temperature steam sterilization of endoscopes includes pressure resistant fittings to attach a steam generator to the ports of an endoscope. The method and device allows for high-pressure, high-temperature steam to circulate throughout the endoscope, exposing various surfaces to steam for sterilization. The method and device also allows for high-pressure, high-temperature steam to circulate selectively through the channels of the endoscope, selectively sterilizing the channels and allowing for use of this method with current high-level disinfection methods. The method and device also allows for movement of the scope elevator channel during the sterilization process, allowing for steam to reach the crevices around the elevator and other moving parts of an endoscope.

The present invention relates, in some embodiments thereof, to systems, devices and methods for decontaminating a surface of one or more vessels. In some embodiments, the systems and devices of the invention include a housing, and a wiping member disposed within the housing being configured to wipe off the surface of one or more vessels, thereby establishing a contaminant-free fluid passageway between vessels.

The present invention relates, in some embodiments thereof, to systems, devices and methods for decontaminating a surface of one or more vessels. In some embodiments, the systems and devices of the invention include a housing, and a wiping member disposed within the housing being configured to wipe off the surface of one or more vessels, thereby establishing a contaminant-free fluid passageway between vessels.

The present invention relates, in some embodiments thereof, to systems, devices and methods for decontaminating a surface of one or more vessels. In some embodiments, the systems and devices of the invention include a housing, and a wiping member disposed within the housing being configured to wipe off the surface of one or more vessels, thereby establishing a contaminant-free fluid passageway between vessels.

The present invention relates, in some embodiments thereof, to systems, devices and methods for decontaminating a surface of one or more vessels. In some embodiments, the systems and devices of the invention include a housing, and a wiping member disposed within the housing being configured to wipe off the surface of one or more vessels, thereby establishing a contaminant-free fluid passageway between vessels.