celena-x

The CELENA® X High Content Imaging System is an integrated imaging system designed for rapid, high content image acquisition and analysis. Customizable imaging protocols, image-based and laser autofocusing modules, and a motorized XYZ stage simplify well plate imaging and slide scanning. The integrated CELENA® X Cell Analyzer software processes images and data for quantitative analysis. Analysis pipelines can be put together and reused to identify cellular or subcellular objects, process images for optimal data collection, and make various measurements. The CELENA® X is as flexible as it is powerful, with interchangeable objectives and filter cubes to accommodate a wide range of fixed and live cell imaging applications.

Fully Automated Plate And Slide Imaging

· Automated vessel handling and scanning · Motorized XYZ stage, filter cube stage, and objective turret

Laser Autofocus

· Rapid and reproducible focusing · Minimized phototoxicity and photobleaching

Live Cell Assay Support

· Onstage incubation system for a variety of experiments in physiological and non-physiological conditions

Four Imaging Modes

· Fluorescence imaging in four channels, brightfield, color brightfield, and phase contrast imaging

Powerful, Easy-To-Use User Interface

· Simple setup of imaging protocols · Seamless integration of imaging and data analysis processes

Customizable High Content Analysis

· Create and customize image analysis projects · Quantitatively analyze multiple image-based phenotypes

Create Your Own Imaging And Analysis Workflows With The CELENA® X

Imaging

· Raw images · Metadata

Image Analysis

· Morphology of individual cells and organelles · Spatial distribution of targets · Multiple measurements per cell · Differentiation of multiple phenotypes

Data Analysis

Analyzed images · Result files · Graphs (coming soon)

Abundant Applications

The CELENA® X Cell Analyzer software is incredibly powerful and its ability to batch process makes it ideal for high content analysis. The powerful and flexible software allows for the creation and customization of workflows that can be used for the simplest fixed cell assays to more complicated, time-lapse live cell assays.

Cell counting

Cytotoxicity_BF

Transfection efficiency

Versatile And Customizable For Your Cell Imaging Needs

Vessel Holder Selection Guide

A collection of vessel holders are available to accommodate various flasks, dishes, plates, and slides.

Vessel Holder Selection Guide

Objective Selection Guide

Download our objective selection guide to see the Olympus objectives we recommend for the CELENA® X.

Objective Selection Guide

LED Filter Cube Selection Guide

Download our LED filter cube selection guide to find which filter cubes fit your needs the best.

LED Filter Cube Selection Guide

What Do Our Customers Have To Say?

Testimonials

(5.0)

Peter Davis

Great to use, inexpensive - watch out big microscopy companies...
The Celena-X is so easy to use, it has huge flexibility and it is oh so affordable making the 'big name brands' look like a rip off!

ATA Scientific

(5.0)

David Benz

Perfect combination of high content and high quality imaging.
The speed of image acquisition is outstanding and the images generated are of high quality. Together with the easy-to-use software, it is a great product.

Institut für Zellbiologie und Immunologie Stuttgart

Where The CELENA® X Has Been Cited

Citations

Primary cilia and the reciprocal activation of AKT and SMAD2/3 regulate stretch-induced autophagy in trabecular meshwork cells.

2021. Shim MS, Nettesheim A, Dixon A, Liton PB. Proceedings of the National Academy of Sciences of the United States of America 118(13):e2021942118.

Cathepsin B Localizes in the Caveolae and Participates in the Proteolytic Cascade in Trabecular Meshwork Cells. Potential New Drug Target for the Treatment of Glaucoma.

2021. Nettesheim A, Shim MS, Dixon A, Raychaudhuri U, Gong H, Liton PB. Journal of Clinical Medicine 10(1):78.

Indirubin-3'-monoxime induces paraptosis in MDA-MB-231 breast cancer cells by transmitting Ca 2+ from endoplasmic reticulum to mitochondria.

2021. Dilshara MG, Neelaka Molagoda IM, Prasad Tharanga Jayasooriya RG, Choi YH, Park C, Kim GY. Archives of Biochemistry and Biophysics 698:108723.

Revascularization and limb salvage following critical limb ischemia by nanoceria-induced Ref-1/APE1-dependent angiogenesis.

2020. Park IS, Mahapatra C, Park JS, Dashnyam K, Kim JW, Ahn JC, Chung PS, Yoon DS, Mandakhbayar N, Singh RK, Lee JH, Leong KW, Kim HW. Biomaterials 242:119919.

Synthesis and Properties of CurNQ for the Theranostic Application in Ovarian Cancer Intervention.

2020. Freidus LG, Kumar P, Marimuthu T, Pradeep P, Pillay V, Choonara YE. Molecules (Basel, Switzerland) 25(19):4471.

Resources

Downloads

CELENA® X

Brochure

2022-04-07 | 2 MB