Features: • The system is mainly used for the acquisition of neural structures, reconstruction of neurons, 3D imaging and morphological mapping. • The microscope system can be configured with brightfield, fluorescence or confocal systems as required. • Software Neurolucida: is a high-end scientific software designed for neuron mapping, reconstruction, anatomical mapping and morphometric applications. • Intuitive operation interface allows the operator to quickly get 3D images of neurons and brain areas.
Powerful analysis tools: Quantitative analysis of morphological measurements can be performed efficiently, accurately and conveniently.
• Accuracy: Neurolucida can automatically control the electric platform to obtain all the information of the nerve or brain slice, to achieve detailed information of each point of the 3D position. • Real morphological analysis: Neurolucida and NeuroExplorer can automatically analyze thousands of measurement parameters, especially its 3D automated analysis can truly realize 3D analysis, and has multiple data export formats. • Versatile: Neurolucida can meet the needs of research to the greatest extent, and is compatible with microscopes such as brightfield, fluorescence, confocal, and nuclear magnetic resonance. • Reliable analysis results: Neurolucida has been recognized by a large number of users for neural automated analysis.
BX53 working platform: manual neural rendering <br style="padding-bottom: 0px; margin: 0px; padding-left: 0px; padding-right: 0px; padding-top: 0px"> Under the new generation high-performance BX53 microscope Describe neural structures directly in real time; The description can include: cell bodies, dendrites, axons, and spines, which can express the actual length; All depictions can be edited again.
Turntable Confocal DSU System: Reconstructing Neural Tissue Directly from a Slide
‧The example on the right is an axon in cat corpus callosum
‧Axon continued the acquisition of 150 Z-axis sequences in multiple fields of view
‧If the range we are interested in is larger than the field of view, the electric platform will automatically move the slice to the corresponding position
‧X, Y, Z three-axis information is stored in the form of three-dimensional reconstruction
Read 3D reconstruction after reading Image Stacks file (tif), support offline neural tissue reconstruction after confocal FV1000 acquisition
Introduction of three modules
Solid Modeling Module
The Solid Modeling module provides you with advanced 3D image reconstruction display, so that your depiction can be expressed in 3D space.
Using this software in conjunction with the latest NVIDIA image capture card, Solid Modeling can real-time voxel overlay images and overlay the data you depict together into a three-dimensional model. The reconstruction of continuous slices can be flipped to any angle and redefine the use multiples. Structural data that has not been noticed in the past can be completely displayed; you can also use this module to visualize complex neural tree structures.
Solid Modeling uses different colors to display each reconstructed area, and provides the surface perspective function to display the internal structure. We provide different options to allow you to fine-tune and improve the displayed image. The final 3D image can be easily output. , Whether it is large poster output or dissertation data printing.
Please experience the benefits of Solid Modeling 3D images!
Image Stack module
• This module can input various bright field and fluorescent overlay images to Neurolucida
• Open Conjugate Pyramid – Type of objective lens (air, oil) – Enter the scale of XY (mm / pixel) – Enter the Z step – the virtual objective can be defined with the next image
• Read tif images or various appropriate formats (.lsm, pic).
AutoNeuron for automatic tracking
Automatically generate Neurolucida delineation models-automatically track all neural tissues and cell bodies-2D and 3D space depiction-record the thickness of all neural tissues-record Z-axis positions-record subnodes, endings
AutoNeuron can be used on single images or image stacks. Can be used on multi-channel RGB or color images.
Seeds can be implanted, automatically implanted, and edited and deleted;
Neurolucida can be used to delineate and determine the location of cells, detailing the area depicted. Easily output high-quality images for publication.
If you have any questions about this product, please ask questions or consult online customer service !