Thermo Scientific Galileo LIMS is a purpose-built Laboratory Information Management System (LIMS) that allows bioanalytical laboratories to design, calculate and graph in vitro ADME/Tox experiments in a single application.
Product Detail
Galileo is fully scalable to multi-site, enterprise-wide use to promote standardization, providing the benefits of rapid deployment, minimal customization and low risk. Galileo's ability to perform a wide variety of screening and definitive assays allows better screening of compounds' ADME properties to lower drug development costs. Galileo also has the ability to handle large volumes of compounds with data graphing and visualization, so you can maximize compound throughput with high quality results.
The Galileo system is designed to conduct permeability (Papp), enzyme inhibition (IC50, Ki and mechanism-based inactivation) assays, metabolic stability, enzyme kinetics, and protein binding experiments. Galileo is a template-driven LIMS system in which the experiments are defined up-front simply by applying a design template to the test compound. The templates allow one-click definition of the experimental design, the conditions in each incubation, and the assay parameters. A complete set of powerful calculations are built into the LIMS engine.Key Features
Interfaces to laboratory instruments
Configurable assay setup and management
Privilege-controlled password-protected security system
Oracle 10g and Windows 2003 and XP compatible
Benefits
Automated results flagging further enables high throughput data review and acceptance
Conforms to 21 CFR Part 11 Electronic Records and Electronic Signatures regulations
Centralized data repository for in vitro data
Graphical gallery and tabular views allow rapid data review and acceptance of results
Offers standardized way to conduct studies by the sharing of templates and protocols
Ideal for: Support for key in vitro experiment types:
Permeability (Papp)
Enzyme inhibition (IC50, Ki and mechanism-based inactivation) assays
Metabolic stability and profiling
Km Vmax using 8 different models
Protein binding (equilibrium dialysis and ultrafiltration)
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