Imaging technologies designed for clarity and confidence
Gain clearer insight, stronger datasets, and the flexibility to adapt as your research evolves.
At MILabs, imaging technologies are designed around one goal: helping researchers see biological processes with greater clarity, depth, and confidence. Each technology is engineered to deliver exceptional performance on its own, while also integrating seamlessly into multimodal workflows. This allows researchers to build the imaging configuration they need today and expand capabilities over time without compromising data quality or workflow efficiency.
Explore the benefits of MILabs technology
MILabs supports both molecular and anatomical imaging, giving researchers the ability to align functional signals with structural context and generate richer, more reliable datasets.
Multimodality without compromise
Combine imaging technologies in one integrated workflow and generate aligned datasets with less complexity. MILabs multimodal platforms allow researchers to combine molecular and anatomical imaging methods within a single system and software environment. Each modality maintains its full performance while contributing to a unified workflow. This flexibility supports deeper insight, more efficient studies, and greater confidence in data interpretation as research questions evolve.
Explore MILabs imaging technologies
Integrated molecular imaging workflows
Extend molecular imaging capability within a single platform to support multi-isotope studies and aligned datasets across complex research workflows.
Molecular imaging with ultra-high resolution SPECT
Capture faint molecular signals and resolve small structures with industry-leading resolution, sensitivity, and dynamic performance.
Molecular imaging with the largest energy range VECTor
With VECTor, you benefit from true broadband molecular imaging, supporting quantitative imaging from low-energy SPECT tracers up to 511 keV PET imaging and high-energy isotopes up to 1 MeV.
High-performance anatomical CT
Add precise structural context with ultra-fast, low-dose CT imaging designed for in vivo research and high-throughput studies.
Optical imaging for functional and dynamic studies
Visualize fluorescence, bioluminescence and Cherenkov signals with high sensitivity, from 2D screening to quantitative 3D and 4D optical tomography.
Automated 3D autoradiography
Generate ultra-high-resolution, quantitative 3D tissue datasets that complement in vivo imaging and strengthen translational insight.