Watch Nanolive’s webinar “Label-free quantification of cell metabolism: focus on mitochondria and lipid droplets dynamics”

Nanolive is delighted to announce that you can now watch the replay of our webinar with the topic “Label-free quantification of cell metabolism: focus on mitochondria and lipid droplets dynamics“.

In this webinar, Dr. Emma Gibbin-Lameira, Communications Specialist at Nanolive will:

  • Show time-lapse footage of mitochondrial swelling and dysfunction following perturbation.
  • Introduce a cell metric called granularity and discuss whether changes in this measurement could be a signal of stress preceding cell death.
  • Present a fully quantitative analysis of lipid droplet dynamics in unperturbed cells, starting at the population level and finishing at level of an individual lipid droplet. Correlations between lipid droplet characteristics and other cell morphological traits (e.g. dry mass) will also be featured for the first time.

The new analyses presented promise to open an entirely new and uncharted field of quantitative biological dynamics applicable for both academia and biotech/pharma, that are only possible using label-free technology.

 

Read our latest news

EVE Analytics for the 3D Cell Explorer-fluo

EVE Analytics for the 3D Cell Explorer-fluo

Continuous, multiplexed live cell data, multi-parametric readout EVE Analytics’ user-friendly interface offers a segmentation and analysis solution specific to Nanolive’s content rich data which can deliver meaningful metrics with the highest biological relevance....

Nanolive microscopes

Get a quote >

Image CX-A

CX-A

Automated live cell imaging: a unique walk-away solution for long-term live cell imaging of single cells and cell populations

Learn more >

Image 3D CELL EXPLORER-fluo

3D CELL EXPLORER-fluo

Multimodal Complete Solution: combine high quality non-invasive 4D live cell imaging with fluorescence

Learn more >

Image 3D CELL EXPLORER

3D CELL EXPLORER

Budget-friendly, easy-to-use, compact solution for high quality non-invasive 4D live cell imaging

Learn more >