Multi Dop T digital

Multi Dop T digital

Description

Review

Dynamic and extremely versatile.

Multi-Dop® T digital – this means cutting edge technology in an innovative, ergonomic and compact design. A new control concept renders operating the comprehensive performance range of the Doppler-system intuitive, fast, and safe at any time and in any situation.

Multi-Dop® T digital offers a comprehensive performance spectrum from routine tests and continuous monitoring all the way to the detection and differentiation of emboli. Like all DWL® Doppler systems, the Multi-Dop® T digital  provides all available options for a routine examination in the cerebral blood circulationand for intra-operative examinations directly on blood vessels. Ergonomic and intuitive access to all these features is provided via touch screen with tablet functionality and/or detachable wireless keyboard.

With the Doppler M-Mode it is possible to measure through the entire depth range and thus detect and analyse the clinically relevant Doppler signals in no time at all. Intensity, flow direction, and depth information are shown in real time while up to 9 Doppler spectra windows offer a simultaneous multi-depth display.
Combined with the fixations developed by DWL®, the Multi-Dop® T digital facilitates continuous monitoring and recording of the cerebral blood flow – before, during, and after surgery.

Using the specially developed DWL® software modules for detecting and differentiating microemboli, solid and gaseous emboli can be identified and in Doppler M-Mode observed as they pass through the different depths. Optional software modules for functional testing such as  CO2/VMR or Evoke-Flow for cerebral autoregulation examinations as well as a fully integrated CO2-Module are available upon request.

 

Features

  • Portable
  • High resolution 17.3 inches monitor
  • Wireless keyboard
  • Doppler frequencies: 2/2+2.5/4/8 MHz
  • M-Mode Doppler
  • Windows 8 system software
  • Drive backup software
  • WLAN-Bluetooth
  • Basic configuration
  • Remote support
  • Emboli detection and differentiation
  • CO2 vasomotor
  • Evoked flow