ImarisVantage - New Module for Imaris 7.4
ImarisVantage is the perfect analytical tool to create and present complex data sets visualized in Imaris. Its users can now produce informative plots in which your object data can be shown in multiple scalable dimensions overlaid with original 3D volume data.
With multiple views at your disposal, you can turn your 3/4D data into a dynamic gallery of individual objects or create an advanced time plot with your spots, surfaces, filaments and cells displayed interactively as they undergo temporal changes. Finally, you can use scatter plots of ImarisVantage to produce very detailed and customised views of your data in multiple dimensions with additional scale- and color-coding for better understanding of underlying connections between objects.
Go To ImarisVantage >>
Also in other Imaris modules:
More flexible tracing in FilamentTracer
Imaris FilamentTracer adds a new method of tracing to its extensive toolset. With AutoNetwork functionality users can now map out the entire filament connectome within the dataset saving time on recalculating alternative trace map. The addition of Waypoints to the tracing process means more customization analysis of dendrites or microtubules as defined waypoints can be placed in the image to make sure the trace follows that specific path.
Import super-resolution data into Imaris with XTensions
ImarisXT now features dedicated XTensions which will help users wishing to import their super-resolution data points into Imaris for visualization and analysis. Such datasets can now be imported into Imaris and processed to become a volume object. Following that transition, the users can visualize and analyze it just like any other volume data in Imaris by creating surfaces and measuring their parameters for more in-depth data mining. Building on the availability of ImarisXT for Mac OSX systems, user can now utilize these additional visualization and analytical tools in Imaris on Mac workstations.
Split cells without nuclear stain in ImarisCell
Closely clustered cells that do not have a clear, individual staining in nuclei may cause a problem during image analysis if they are wrongly assigned to be one pseudo-syncytial cell object. ImarisCell users can now split such closely apposed cells by cell seed point growth algorithm that ultimately separates cells into individual objects and lets the user progress with the analysis of features of distinct cells.