cover, <specify>
meditron pty ltd -
15571 - cover,
cover, <specify>
philips electronics australia ltd -
15571 - cover,
cover, ultrasonic probe, intraoperative
meditron pty ltd - 44714 - cover, ultrasonic probe, intraoperative - the cover allows use of the transducer in scanning and needle guided procedures for body surface, endocavity and intra-operative diagnostic ultrasound, while helping to prevent transfer of microorganisms, body fluids and particulate material to the patient and health care worker during reuse of the transducer. single use device.
drape, <specify>
ge healthcare australia pty ltd -
15775 - drape,
drape, instrument, single-use
boston scientific pty ltd - 45021 - instrument/equipment drape, single-use - used to cover a transducer during scanning and needle guided procedures
drape, instrument, single-use
ge healthcare australia pty ltd - 45021 - instrument/equipment drape, single-use - this device is made of natural or synthetic or a combination of materials and is intended to be used as a protective covering for instruments, typically those arranged on a surgical tray. this device is intended to be disposable.
drape, microscope
meditron pty ltd - 16474 - drape, microscope - sterile probe cover to cover ultrasound probe for external use
electromagnetic device tracking system
rqsolutions medical devices distribution support - 58183 - electromagnetic device tracking system - the device is intended to provide physicians with tools for electromagnetic tracking of instruments with respect to image data.
electromagnetic device tracking system fiducial marker
rqsolutions medical devices distribution support - 58246 - electromagnetic device tracking system fiducial marker - intended to provide physicians with tools for electromagnetic tracking of instruments with respect to pre-acquired or real-time image data. device is not intended for use in mr scanning.
gel, ultrasonic coupling
meditron pty ltd - 15321 - gel, ultrasonic coupling - the standoff is intended to control the distance (offset) between the transducer and body surfaces for optimal focusing by shifting the transducer, allowing improved visualization of near-field and superficial structures.