Vevo F2 LAZR-X20
Advanced Photoacoustic Imaging for more Comprehensive Data
Multi-modal Imaging for Advanced Tissue Characterization
Experience the Vevo F2 LAZR-X20, our most powerful, and customizable multi-modal in vivo imaging platform.
Customize imaging depth and resolution
- Flexibility to image at low frequency for improved Imaging depth (up to 9 cm)
- Image at ultra-high frequency for superior resolution (down to 30 microns)
Customize light delivery
- Interchangeable fiber optics that facilitate application-specific light delivery
Open platform, acoustics engineering capabilities
- Plane-wave imaging possibilities
- Obtain pre-beamformed individual channel data
The hybrid Vevo F2 LAZR-X20 allows users to visualize real-time oxygen saturation and molecular imaging, co-registered with high resolution anatomy. Explore the possibilities!
- Superior resolution (down to 30 µm)
- Customizable touch-screen interface
- Ergonomic design (compact and portable)
- Wider range of animal models to be used in translational research
The multi-modal Vevo F2 LAZR-X20 is the ultimate solution for advanced tissue characterization with high anatomical accuracy.
See and measure endogenous and exogenous agents in the body with an expanded wavelength range
Choose the energy level that suits your needs
Visualize data with ease - featuring enhanced PA image quality
Want to learn more?
From Our Experts
New Features of the LAZR-X20
Kristiina Aasa, PhD, Product Marketing Manager and Cassidy Rose, Ultrasound System Developer of FUJIFILM VisualSonics go over what's new with the Vevo LAZR-X20 and why it can help further advance your research through photoacoustic imaging.
Explore our Applications
Oncology
Tumor hypoxia assessment
Tumor angiogenesis assessment
Biodistribution of molecular probes
Cardiology
Cardiac hemodynamics including ischemia and oxygen saturation
Vascular malformations
Cell tracking in the myocardium
Molecular Biology
Characterization of nanoparticles and dyes
Sentinel lymph node mapping
Whole-body biodistribution and pharmacokinetics
Neurobiology
Cerebral hemodynamics
Detection of blood-brain-barrier (BBB) disruption
Label-free detection and assessment of stroke
Gallery
Mouse Scapular
PA-Mode 3D unmixing of a mouse scapular, highlighting the back muscles and lipids. Captured using a UHF29x transducer.
Shear Wave Elastography: NAFLD/MASLD Mouse - Velocity
Liver in a NAFLD/MASLD Mouse showing Velocity (m/s) through Shear Wave Elastography scanned using a UHF29x transducers on a Vevo F2 system.
Shear Wave Elastography: NAFLD/MASLD Mouse - Stiffness
Liver in a NAFLD/MASLD Mouse showing Stiffness (kPa) through Shear Wave Elastography scanned using a UHF29x transducers on a Vevo F2 system.
Shear Wave Elastography: Control Mouse - Velocity
Liver in a Control Mouse showing Velocity (m/s) through Shear Wave Elastography scanned using a UHF29x transducers on a Vevo F2 system.
Shear Wave Elastography: Control Mouse - Stiffness
Liver in a Control Mouse showing Stiffness (kPa) through Shear Wave Elastography scanned using a UHF29x transducers on a Vevo F2 system.
Nanoparticle distribution in tumor
3D rendered high-resolution ultrasound (greyscale) and spectrally unmixed photoacoustic (red, blue and gold) image of a subcutaneous tumor showing nanoparticle distribution (yellow) as well as oxygenated (red) and deoxygenated (blue) hemoglobin signal.
Biodistribution of photoacoustic contrast agent and signals from oxy and deoxyhemoglobin
Whole body biodistribution of photoacoustic contrast agent Angiostamp800TM (green), along with signals from oxy (red) and deoxyhemoglobin (blue).
Presentation
The Future of Preclinical Photoacoustics
Kristiina Aasa, PhD, Product Marketing Manager from FUJIFILM VisualSonics goes in-depth with the value of ultrasound and photoacoustic brings to your preclinical research.
Insight
The Photoacoustic Effect
Our unique photoacoustic Imaging technology is an in vivo hybrid imaging modality. How does Photoacoustics work? Watch and learn.
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