Accelerate to discover

Back to filter

Related topics

STAT Protein Phosphorylation in CD4+ T Cells using the CellStream flow cytometer

Luminex

Jan 21, 2021

Cytokine-induced protein phosphorylation is a key cell signaling event within the immune system that modulates diverse...

Introducing Cytek cFluor, 14 Colors Immunoprofiling Kit

Cytek Biosciences

Jan 19, 2021

Cytek cFluor Immunoprofiling Kit allows for the identification of helper T cells, cytotoxic T cells, B cells, NK cells...

A Glimpse on physiological monitoring for the in vivo SKYSCAN Systems

Bruker Biospin

Jan 14, 2021

This past year has proven once again that in vivo imaging is an important aspect in the microCT world. For longitudinal...

Cytek full Spectrum flow Cytometry webinar: Part II – panel design and troubleshooting

Cytek Biosciences

Jan 11, 2021

In this session, we will continue to look at full spectrum flow cytometry and look at considerations for fluorescence...

Jan 21, 2021

CQ1 webinar : optimizing high-content imaging of 3D models for drug discovery

Yokogawa

Jan 7, 2021

In vitro spheroid models are fast becoming the de facto standard for drug discovery applications, largely due to their...

IncuCyte for in-vitro analysis of SARS-CoV-2 vaccine candidate

Sartorius

Jan 4, 2021

Watch this video to learn how researcher at Humane Genomics are utilizing the Incucyte platform for the in-vitro...

Cesium-137 versus X-ray irradiation preconditioning in immunodeficient NOG mice

Precision X-Ray

Dec 28, 2020

Radio-active sources have been used routinely for the preconditioning in humanized mouse models, but safety issues have...

Jan 21, 2021

EV imaging series: Using ONI super-resolution to characterize single-EVs

ONI

Dec 23, 2020

To date, researchers commonly use flow-based characterization methods, fluorescence imaging techniques and electron...

Show all topics (10)

Expert-led didactic versus self-directed audiovisual training of confocal laser endomicroscopy

Apr 16, 2018

Confocal laser endomicroscopy (CLE) allows mucosal barrier defects along the intestinal epithelium to be visualized in vivo during endoscopy. Training in CLE interpretation can be achieved didactically or through self-directed learning. This study aimed to compare the effectiveness of expert-led didactic with self-directed audiovisual teaching for training inexperienced analysts on how to recognize mucosal barrier defects on endoscope-based CLE (eCLE).
This randomized controlled study involved trainee analysts who were taught how to recognize mucosal barrier defects on eCLE either didactically or through an audiovisual clip. After being trained, they evaluated 6 sets of 30 images. Image evaluation required the trainees to determine whether specific features of barrier dysfunction were present or not. Trainees in the didactic group engaged in peer discussion and received feedback after each set while this did not happen in the self-directed group. Accuracy, sensitivity, and specificity of both groups were compared.

READ MORE:

Scientific paper
Application

Related technologies: Probe based confocal microscopy

Get more info

Miroslav Vecheta

Support specialist

Miroslav

Vecheta

+420 255 700 886

Send Message

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 Lab is a single band fiber based microscope for observing in real time at cellular scale

show detail

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