IntraVital Microscopy is a technique that enables you to directly observe the movement of live cells that make up living tissue in vivo.
Automated microscopy and Spatial Proteomics
Automated microscopy and image analysis
Discover
Related topics
Omics Studies of Tumor Cells under Microgravity Conditions
May 6, 2024
It is important for the analysis of data from space experiments to distinguish unspecific stress reactions from...
Column-Free CD14+ Monocyte Isolation using 50nm Superparamagentic Beads on MARS® Bar
Apr 25, 2024
The MARS® Bar Magnetic Separation Platform is a closed and automated isolation for cell therapy development and...
Spatial and temporal profiling of the complement system uncovered novel functions of the alternative
Apr 24, 2024
Mounting evidence implicated the classical complement pathway (CP) in normal brain development, and the pathogenesis of...
The chicken chorioallantoic membrane as a low-cost, high-throughput model for cancer imaging
Apr 4, 2024
Here, we assessed the chicken chorioallantoic membrane (CAM) as an alternative to mice for preclinical cancer imaging...
A microthrombus-driven fixed-point cleaved nanosystem for preventing post-thrombolysis recurrence
Apr 3, 2024
A thrombin-responsive and fixed-point cleaved Fu@pep-CLipo was developed for highly efficient and precise thrombolysis...
Multiplexed tissue imaging using the Orion platform to reveal the Spatial Biology of Cancer
Mar 27, 2024
In this webinar Prof. Sandro Santagata, will reveal how Orion high-plex imaging and the use of this data, is valuable...
Mar 22, 2024
Mission Bio’s Tapestri Tool May Hold the Key to Informing Treatment Options for Multiple Myeloma.
A 19-color single-tube Full Spectrum Flow Cytometry for the detection of Acute Myeloid Leukemia
Mar 13, 2024
This recent publication in Cytometry Part A describes the development and comprehensive workflow of a single-tube,...
18F-labeled somatostatin analogs for somatostatin receptors (SSTRs) targeted PET imaging of NETs
Mar 11, 2024
A novel 18F-radiolabeled somatostatin analogue, [Al18F]NODA-MPAA-HTA, was synthesized and evaluated for positron...
Discover Yokogawa CellVoyager CQ1: Benchtop High-Content Analysis System
Mar 8, 2024
Unlike flow cytometers, the CellVoyager CQ1 confocal quantitative image cytometer does not require pretreatment such as...
Jun 27, 2023
Using in vivo two-photon time-lapse imaging of PGUSG larvae, we were able to monitor the synapse behaviour on developing RGC axonal arbors over hours, days or even weeks. We then developed methods to simultaneously image both pre- and post-synaptic compartments at putative synaptic connections in vivo. Finally, using reverse genetic manipulation on PGUSG larvae, we showed
that miR-132 plays a role in developmental synaptogenesis.
Read and download
Article was published in Nature, on 19 September 2018. Authors: Xu-fei Du, Bing Xu, Yu Zhang, Min-jia Chen & Jiu-lin Du. (2018) 8:14077 | DOI:10.1038/s41598-018-32409-y
Related technologies: IntraVital Microscopy
Get more info
Brand profile
IntraVital Microscopy is a technique that enables you to directly observe the movement of live cells that make up living tissue in vivo.
More info at:
https://www.ivimtech.com/