KODAK Molecular Imaging Software Sentinel SuperPro Dongle Clone
KODAK Molecular Imaging Software Sentinel SuperPro Dongle Clone
Introducing our regulative Edition of Molecular Imaging (MI) package to be used in digital imaging systems forever science analysis and drug discovery applications.The regulative Edition package supports compliance with U.S. Food and Drug Administrations Code of Federal laws.
Title twenty one, half eleven Electronic Records; Electronic Signatures [21 CFR half 11]. KODAK MI package, regulative Edition has all the features of MI package with side tools and advanced CFR safety features. Original information files are maintained and firmly preserved, and a whole audit path of file modifications is unceasingly caterpillar-tracked. The versatile package additionally includes a web-based application interface that allows any variety of users worldwide to collaborate, search image databases, and share information and analysis results from any pc on the net.
Introducing our Regulatory Edition of Molecular Imaging (MI) Software for use in digital imaging systems for life science research and drug discovery applications.
The versatile package additionally includes a web-based application interface that permits any range of users worldwide to collaborate, search image databases, and share information and analysis results from any pc on the net.
The computer code is meant to perform digital capture and analysis for a large vary of optical molecular imaging applications, cherish dielectrolysis gels, supermolecule blots, plate assays and tiny animal (in vivo) studies, among others.
“This refined however easy, cross-platform digital imaging computer code delivers unexampled skillfulness for tens of thousands of shoppers,” aforesaid Shahram Hejazi, PhD, President, Carestream Molecular Imaging. “Since this new unleash delivers innovative new options for each in vitro and in vivo applications, users will simply migrate between differing kinds of experiments and applications.”
An important new capability provided by this unleash is its ability to correct spatial non-uniformity across the image field, delivering up to a 30-fold improvement in field uniformity. spatial non-uniformity has historically restricted the derivation of quantitative information and productivity-enhancing automation tools for fluorescent image capture.