A mobile cart that holds a bag for receiving solid waste generated during a medical or surgical procedure. The cart includes a sensor that monitors whether or not an object containing metal is placed in the bag. A processor monitors the signal output by the sensor. If the sensor signal indicates that an object with a minimal amount of metal is placed in the bag, the processor momentarily asserts an audible alarm and continuously asserts a light alarm. The light alarm remains asserted until turned off. If, while the light alarm is on, the sensor signal indicates a second object with the minimal amount of waste is placed in the container, the processor again momentarily asserts the audible alarm. This provides notice that it may be necessary to investigate the contents of the bag to determine if not one but two or more objects were inadvertently discarded.

Embodiments of the disclosure include an uncovered ultraviolet light emitting panel for use in supporting instruments in an operating room. The panel fits inside an autoclave for sterilization and can be utilized without a sterile cover. In use, the panel irradiates surgical instruments and the nearby air continuously.

A surgical device comprising a staple cartridge, a clamping mechanism configured to clamp patient tissue, a firing member, a manual bailout, an electric motor, a power source, and a control unit is disclosed. The clamping mechanism comprises a first iaw and a second iaw. The firing member configured to engage the first jaw and the second jaw during a closure stroke. The second jaw is moved to the closed position during the closure stroke and the firing member is further configured to eject staples from the staple cartridge during a firing stroke. The manual bailout is configured to retract the firing member through a retraction stroke. The electric motor is configured to drive the firing member. The control unit is configured to monitor a parameter of the electric motor and control the amount of current supplied to the electric motor based on the parameter.

A surgical device comprising a staple cartridge, a clamping mechanism configured to clamp patient tissue, a firing member, a manual bailout, an electric motor, a power source, and a control unit is disclosed. The clamping mechanism comprises a first iaw and a second iaw. The firing member configured to engage the first jaw and the second jaw during a closure stroke. The second jaw is moved to the closed position during the closure stroke and the firing member is further configured to eject staples from the staple cartridge during a firing stroke. The manual bailout is configured to retract the firing member through a retraction stroke. The electric motor is configured to drive the firing member. The control unit is configured to monitor a parameter of the electric motor and control the amount of current supplied to the electric motor based on the parameter.

Various implementations include a device for holding and supporting a medical instrument in a position. For example, the medical instrument may include a percutaneous procedure apparatus, such as a needle (e.g., biopsy needle, anesthesia needle) or needle holder. In some implementations, the device holds and supports the percutaneous procedure apparatus and liberates the procedure operator's hands from direct beam exposure, which lowers the risk of complications and radiation exposure to patients and procedure operators. The device also increases the effectiveness of the procedure by holding and supporting the apparatus in the intended position.

A method and system for assembling sets of medical instruments and/or pharmaceutical products. The system includes a control system comprising or being connected to a database comprising data objects corresponding to available objects. An input area is provided to receive batches of unsorted medical instruments or pharmaceutical product containers, and an identification area having an identification unit. A temporary sorting area is also provided, including a plurality of storage positions provided with visual indications capable of visually indicating one of the storage position at a time, and an output area, possibly being overlapping with the input area, arranged to receive medical instruments and/or pharmaceutical products as assembled sets. The controller is arranged to receive information from the identification unit obtained when an item is arranged on the identification area, and to identify the item in the database.

The disclosure relates to a protective barrier for a surgical table containing a sterile field that may be used in a surgical facility to assist in maintaining the sterility of the sterile field. The sterile field may hold surgical instruments or equipment. The protective barrier may be efficiently stored, easily assembled by simply folding along various guides on the barrier, and enclosed one or three sides of the sterile field.

A method for controlling an output of an energy module of a modular energy system is disclosed. The modular energy system includes a header module, the energy module, and a secondary module communicably coupled together. The energy module configured to provide an output driving an energy modality deliverable by a surgical instrument connected thereto. The method includes causing the energy module to provide the output driving the energy modality delivered by the surgical instrument; sensing a parameter associated with the secondary module; receiving the parameter as sensed by the secondary module at the energy module; and adjusting the output of the energy module from a first state to a second state according to the received parameter.

A method for constructing a modular surgical system is disclosed. The method comprises providing a header module comprising a first power backplane segment, providing a surgical module comprising a second power backplane segment, assembling the header module and the surgical module to electrically couple the first power backplane segment and the second power backplane segment to each other to form a power backplane, and applying power to the surgical module through the power backplane.

A method for controlling an output of an energy module of a modular energy system. The energy module can comprise a plurality of amplifiers configured to generate a drive signal at a frequency range and a plurality of ports coupled to the plurality of amplifiers. The method includes determining to which port of the plurality of ports the surgical instrument is connected, selectively coupling an amplifier of the plurality of amplifiers to the port of the plurality of ports to which the surgical instrument is connected, and controlling the amplifier to deliver the drive signal for driving the energy modality to the surgical instrument through the port.