Molecular Devices will be exhibiting its SpectraMax Paradigm and ImageXpress Micro XL with MetaXpress during MipTec 2012 on 24-27 September.
The group will be located at booth D33 at Congress Center Basel in Basel during MipTec 2012.
It will also be hosting a High Content Screening Industry Symposium on Wednesday 26th September at 13:15, which will bring together both customers and those with an interest in High Content Screening.
At this symposium users will learn how Molecular Devices’ new developments in high content analysis can accelerate your path to drug discovery.
The group will present examples of novel multi-parametric assays using the ImageXpress Micro System and the new analysis tools in the MetaXpress 5.0 Software, to address meaningful areas of drug discovery and toxicity testing such as GPCR screening, hepatotoxicity, and neuronal development.
It will also showcase the new innovative software, which provides step-by-step assistance for designing customised, reusable, and distributable analysis algorithms for a variety of challenging assays.
MetaXpress 5.0 High Content Image Acquisition and Analysis Software has been designed to improve the ease and speed of custom image analysis using the ImageXpress Micro and Ultra Systems.
The new software enables user-created analysis to be run on MetaXpress PowerCore Software, which harnesses the speed of parallel processing and instantly cuts analysis time from hours to minutes.
An interactive tool incorporated into the software allows users to create custom analysis easily, without resorting to dedicated programming expertise.
MetaXpress 5.0 also features object click-to-find, allowing scientists to rapidly identify objects of interest within their images.
The SpectraMax Paradigm Multi-Mode Microplate Detection Platform is the only user upgradeable microplate reader on the market that allows for real-time system configuration by the user in less than two minutes.
The TUNE Cartridge is the group’s latest breakthrough optical technology that combines free wavelength selection with up to 10X greater sensitivity than other monochromator-based systems.
