CytoViva

History

Products

• The patented enhanced darkfield illumination system, which replaces the standard microscope condenser, provides up to 10x improved signal-to-noise optical images of nanoscale samples over standard darkfield microscopy. The system incorporates oblique angle, pre-aligned Kohler illumination. The resulting high signal-to-noise image enables direct observation of nanoscale sample elements.
• The dual mode fluorescence module is a transmitted light fluorescent technique that enables real time observation of both fluorescent and non-fluorescent sample elements. This is accomplished through the proportionate mixing of fluorescence excitation light and full spectrum light.
• The hyperspectral microscope system integrates hyperspectral imaging onto the microscope to capture spectral image files. These spectral image files can be used to spectrally characterize sample elements such as nanoparticles, pathogens or subcellular materials. Image analysis software enables mapping sample elements based upon their unique spectral fingerprint. In its most general form, hyperspectral microscopy can be used to determine the location of nanoscale materials within a sample. Analysis methods include identifying and mapping materials in composites, conducting mean spectral analysis, and comparisons of comparable materials.

Applications

• Identifying and mapping Ag, Au and other nanoparticles, in cells, tissue or other composite matrix
• Characterizing drug loads and other functional groups added to nanoparticles
• Confirming the presence of carbon nanotubes in tissue and cells
• Detecting airborne carbon nanotubes and other airborne nanomaterials
• Identifying liposomes used as drug delivery vectors
• Mapping quantum dots and fluorescently tagged particles and subcellular structure
• Bacteria, virus and other pathogen detection
• Plant pathology
• Subcellular structure characterization
• Live cell imaging