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
Theranostics: From Mice to Men and Back
Jun 25, 2024
Recorded webinar
Presenters: Prof. Dr. Ken Herrmann and Prof. Dr. Katharina Lückerath – Moderator: Hannah Notebaert
Orion 2024 AACR poster: 17-plex single-step stain and imaging of cell Lung Carcinoma
Jun 21, 2024
RareCyte Orion is a benchtop, high resolution, whole slide multimodal imaging instrument. A combination of quantitative...
Automated Purification of Viral DNA and RNA from Biological Samples usingZymo Research Quick-DNA/RNA
Jun 14, 2024
The Quick DNA/RNA Viral MagBead Kit from Zymo has been automated with the Cybio FeliX pipetting robot from Analytik...
DNA Amplicon Library Preparation for Illumina® Sequencing
Jun 12, 2024
The precision of temperature control, efficient heating and cooling rates, and excellent temperature homogeneity across...
X-RAD 320 for irradiation therapy during quantifying study for in vivo collagen reorganization
Jun 5, 2024
Quantifying in vivo collagen reorganization during immunotherapy in murine melanoma with second harmonic generation...
Exosome-Mediated Delivery of Small Molecules, RNA & DNA for Development of Novel Cancer Therapeutics
Jun 3, 2024
Disha Moholkar of University of Louisville's Gupta Lab
Tuesday, June 11, 2024, 6:30 PM...
Emulate in vivo conditions – introduce shear flow to your experiments with BioFlux system
May 27, 2024
Most research is still conducted in vitro without the presence of flow. We use the BioFlux System to give you the...
High-frequency Ultrasound System For Preclinical Imaging
May 13, 2024
The Prospect T1 is an innovative high-frequency ultrasound system designed specifically for in vivo preclinical imaging...
April 2024 publication revealing benefits of using intravital microscopy in trascriptomics studies
May 7, 2024
Transcriptional activation of Bmal1 drives the inflammatory activity of monocytes by modulating mitochondrial unfolded...
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...
Jan 10, 2024
Using two-photon intravital imaging (IVM) and single cell transcriptome analysis, this study analyzed the in vivo behavior of engrafted MSCs and their dynamic interplay with the vasculature in injured bladders at the single-cell level. Two-photon IVM longitudinally monitored engrafted MSC in the bladder of live animals for 28 days after transplantation. The engrafted MSCs (green) were found to interact with the bladder vasculature (red) and progressively integrate as perivascular cells. Single cell analysis of the engrafted MSCs showed their pericyte nature. Among the genes characterizing the engrafted MSCs, FOS and CDK1 significantly modulated the in vitro core functions of MSCs and determined the in vivo engraftment and therapeutic potency of MSCs in the injured bladder. MSC; Mesenchymal stem cells, FOS; Fos Proto-Oncogene, CDK1; cyclin dependent kinase-1.
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/