We've updated our Privacy Policy to make it clearer how we use your personal data.

We use cookies to provide you with a better experience. You can read our Cookie Policy here.


PerkinElmer Introduces New Microplates for High Content Screening

Listen with
Register for free to listen to this article
Thank you. Listen to this article using the player above.

Want to listen to this article for FREE?

Complete the form below to unlock access to ALL audio articles.

Read time: 1 minute

PerkinElmer Inc. has announced the launch of its CellCarrier™ Ultra 384-well microplates, designed specifically for high content screening (HCS). The improved plate design results in higher quality image data and more robust results from HCS applications (such as phenotypic screening and three-dimensional disease model studies).

This combination of capabilities provides researchers with the ability to obtain greater insights into disease and can help accelerate the discovery of new and more effective treatments.

“PerkinElmer’s depth of expertise in HCS instruments and consumables enables us to develop innovative solutions for scientists who want to measure changes in cells in an unbiased, statistically significant way - using physiologically relevant disease models that are indicative of human physiology.” said Brian Kim, President, Life Sciences & Technology, PerkinElmer. “Innovations such as these microplates equip scientists with the tools to interrogate diseases more accurately in order to develop new and more effective treatments.”

The CellCarrier™ Ultra 384-well microplates are designed for enhanced performance in high content imaging applications where the imaging surface is critical for generating high resolution images and quality data.

The plates are black and precisely engineered to have an extremely flat surface for efficient imaging. They are made using cyclic olefin, a plastic that has glass-like optical properties, to provide a clearer image.

Additional features of the microplates include better well access when using water immersion, high numerical aperture objectives with an ultra-low plate bottom, an improved lid design that reduces evaporation, corner spacers that avoid damaging the imaging surface when stacking, and a choice of different coatings to suit specific applications.

These microplates are part of PerkinElmer’s total solution for high content imaging, which includes: the Operetta® High Content Imaging System, Opera® Phenix™ High Content Screening System, Columbus™ Image Data Management and Analysis System, and HC Profiler.™