Corporate Banner
Satellite Banner
Stem Cells, Cellular Therapy & Biobanking
>
Scientific Community
 
Become a Member | Sign in
Home>Products>This Product
  Products


ImageXpress Ultra Confocal High Content Screening System

Product Description
A true point-scanning confocal microscope reliably automated as a turnkey solution for high-throughput imaging that streamlines the work flow required to conduct almost any cell-based screening project.
Leveraging Molecular Devices' 10-year commitment to quality high content imaging systems, the ImageXpress® Ultra HCS System is a fast, reliable, research-grade point scanning confocal solution that streamlines high-throughput imaging and hit selection in a fully integrated environment. Utilizing the best X, Y, and Z positioning available, the system precisely locates and identifies sub-cellular features such as clathrin coated pits or tiles together high resolution images to quantify neuronal length. Rapid positioning in combination with the laser autofocus option furnishes users with intuitive tools to quantify heterogeneous multi-parametric responses, improving the high content screening workflow.

The system's optical mechanical calibration routines are fully automated and transparent to end-users, allowing you to start your previously configured experiment in a few minutes without the need for any user driven calibration routines. Once running, you can confidently walk away from the instrument when doing fully integrated 24/7 screens and be confident that you will get the same high quality confocal data from the first to the last well of your screening campaign.
Product ImageXpress Ultra Confocal High Content Screening System
Company Molecular Devices Product Directory
Price Request a quote
More Information View company product page
Catalog Number Unspecified
Quantity Unspecified
Company Logo

Molecular Devices Product Directory
1311 Orleans Drive Sunnyvale, CA 94089-11361 United States

Tel: 1-800-635-5577
Fax: 1-408-548-6439
Email: om@moldev.com



Scientific News
Common Cell Transformed into Master Heart Cell
By genetically reprogramming the most common type of cell in mammalian connective tissue, researchers at the University of Wisconsin—Madison have generated master heart cells — primitive progenitors that form the developing heart.
Improving Regenerative Medicine
Lab-created stem cells may lack key characteristics, UCLA research finds.
Muscles on-a-Chip
This study may help explain why stem cell-based therapies have so far shown limited benefits for heart attack patients in clinical trials.
3-D Printed Lifelike Liver Tissue for Drug Screening
A team led by engineers at the University of California, San Diego has 3D-printed a tissue that closely mimics the human liver's sophisticated structure and function. The new model could be used for patient-specific drug screening and disease modeling.
Therapeutic Approach Gives Hope for Multiple Myeloma
A new therapeutic approach tested by a team from Maisonneuve-Rosemont Hospital (CIUSSS-EST, Montreal) and the University of Montreal gives promising results for the treatment of multiple myeloma, a cancer of the bone marrow currently considered incurable with conventional chemotherapy and for which the average life expectancy is about 6 or 7 years.
Cat Stem Cell Therapy Gives Humans Hope
By the time Bob the cat came to the UC Davis veterinary hospital, he had used up most of his nine lives.
Bile Acid Supports Production of Blood Stem Cells
A research group at Lund University has been able to show that bile acid is transferred from the mother to the foetus via the placenta to enable the foetus to produce blood stem cells.
New Biomarker to Assess Stem Cells Developed
A research team led by scientists from UCL have found a way to assess the viability of 'manufactured' stem cells known as induced pluripotent stem cells (iPSCs). The team's discovery offers a new way to fast-track screening methods used in stem cell research.
Tricked-Out Immune Cells Could Attack Cancer
New cell-engineering technique may lead to precision immunotherapies.
Edited Stem Cells Offer Hope of Precision Therapy for Blindness
Findings raise the possibility of treating blinding eye diseases using a patient's own corrected cells as replacement tissue.

Skyscraper Banner

Skyscraper Banner
Go to LabTube
Go to eposters
 
Access to the latest scientific news
Exclusive articles
Upload and share your posters on ePosters
Latest presentations and webinars
View a library of 1,800+ scientific and medical posters
2,900+ scientific and medical posters
A library of 2,500+ scientific videos on LabTube
4,200+ scientific videos
Close
Premium CrownJOIN TECHNOLOGY NETWORKS PREMIUM FOR FREE!