Discover

Back to filter

Related topics

Pretargeted delivery of PI3K/mTOR small-molecule inhibitor–loaded nanoparticles

Spectral Instruments Imaging

Jun 23, 2021

Overactivation of the PI3K/mTOR signaling has been identified in non-Hodgkin’s lymphoma....

Top 10 Pharma companies have chosen CYTEK for their flow cytometry facility

Cytek Biosciences

Jun 21, 2021

6 of Top 10 Pharma Companies (Based on total group revenues) have chosen CYTEK - full...

Elevated NSD3 histone methylation activity drives squamous cell lung cancer

Spectral Instruments Imaging

Jun 8, 2021

This work identifies NSD3 as a principal 8p11-12 amplicon-associated oncogenic driver in...

A subset of cytotoxic effector memory T cells enhances CAR T cell efficacy in a model of pancreatic

Tonbo Biosciences

May 21, 2021

Tonbo Biosciences flow cytometry reagents & antibodies are manufactured with the highest...

IncuCyte webinar recording: How to measure Immune Cell Killing of Tumor Cells effectively

Sartorius

May 19, 2021

Immuno-oncology (IO) has transformed cancer treatment. The number of treatments in the IO...

White Paper: Immunophenotyping Rare Immune Cells with Laminar Wash AUTO System

Curiox

May 18, 2021

The Laminar Wash (LW) AUTO system consists of a wall-less plate and a laminar flow cell...

Show all topics (10)

Tracking of mesenchymal stem cells with fluorescence endomicroscopy imaging

Mar 9, 2017

In this work, you will find how to use the fluorescence endomicroscopy as a novel imaging tool to track MSCs in vivo. MSCs were fluorescently labeled and injected into a rat model of radiation-induced lung injury via endotracheal (ET) or intravascular (IV) administration. The results show that MSCs were visible in the lungs with fluorescence endomicroscopy. Together with automatic cell counting algorithm to quantify the number of detected cells in each condition there was observed a significantly higher number of detected cells in ET injection compared to IV and a slight increase in the mean number of detected cells in irradiated lungs compared to control, although the latter did not reach statistical significance. Fluorescence endomicroscopy imaging is a powerful new minimally invasive and translatable tool that can be used to track and quantify MSCs in the lungs and help assess their potential in organ repair.

Read more

Scientific paper
Application

Brand profile

Mauna Kea Technologies

Mauna Kea Technologies manufactures Cellvizio Lab, confocal probe based imaging system, providing cellular-level images with minimal invasiveness for longitudinal studies.

Related products

Cellvizio, a fiber based microscope for observing in real time at cellular scale, features simultaneous, co-registered dual band excitation and detection

show detail

We supply and support Life-Science Technologies in the territory of Central and Eastern Europe.

Czech Republic

Slovakia

Hungary

Poland

Croatia

Slovenia

Serbia

Romania

Bulgaria

Latvia

Lithuania

Estonia

Russia

Ukraine

Belarus

Turkey