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Vevo 770 System

The Vevo 770 High-Resolution In Vivo Micro-Imaging System provides an entry-level platform for the small animal researcher

The Vevo® 770 system provides an entry-level platform for the small animal researcher.  The Vevo 770 system enables the visualization and quantification of small animal anatomical targets, hemodynamics and therapeutic interventions with resolution as low as 30 microns. Because it is non-invasive, longitudinal monitoring and quantification of phenotypes, therapeutic regimes can be monitored in the same animal over time.

  • High Frequency RMV™ Scanheads
    • 30 micron resolution
    • Frame rates up to 240 fps
    • Wide selection of RMV Scanheads for a variety of applications
  • Expandable Imaging and Processing Options
    • Power Doppler for blood flow quantification & anatomical identification
    • M-Mode single line acquisition allowing for high-temporal resolution of cardiovascular functional
    • Anatomical M-Mode for adjustable anatomical orientation in M-Mode imaging
    • 3D Imaging & Volume Analysis
    • Contrast Imaging for perfusion and molecular endothelial cell surface marker analysis
    • Advanced measurements & quantification
  • Open architecture data management, flexible image output options
  • Mobile - true plug & play for any lab

Available Imaging options for the Vevo 770 system

  • B-mode (2D) imaging for anatomical visualization and quantification (included in the base package)
  • M-mode for visualization and quantification of wall motion in cardiovascular research, single line acquisition allows for the very high-temporal (1000 fps) resolution necessary for analysis of LV function
  • Anatomical M-Mode for adjustable anatomical orientation in reconstructed M-Mode imaging
  • Pulsed-Wave Doppler (PW) for quantification of blood flow
  • Power Doppler for detection and quantification of blood flow in small vessels not visible in B-mode
  • Tissue Doppler for quantification of myocardial tissue movement; for example in assessing diastolic dysfunction and myocardial strain
  • MicroMarker™ Contrast Imaging for quantification of relative perfusion & molecular expression of endothelial cell surface markers
  • 3D Imaging for anatomical and vascular visualization, when combined with either B-mode, Power Doppler, or Contrast Imaging; allows for quantification of volume and vascularity within a defined anatomical structure
  • Digital RF Mode for the acquisition and exportation of radio frequency (RF) data in digital format for further analysis