Cell Media Formulation

Optimize cell culture media for biologics production

Discover how to gain deeper insights into the conditions that maximize cell health and product yield

50%

time savings from data automation

Improved

accuracy and consistency in media formulation

88%

fewer wet lab experiments

Centralized data

Automatically collect and harmonize data from media preparation processes and cell culture assays, increasing efficiency and ensuring data integrity

Integrated workflows

Integrate workflows and centralize data to accelerate analysis and media formulation iterations

AI-driven insights

Use AI-ready data in predictive models to identify optimal media formulations and forecast their impact on cell growth, productivity, and viability

Manual data handling

Manually transcribing data from media preparation processes and cell culture assays compromises efficiency and data integrity

Disjointed workflows

Fragmented workflows and siloed data impede efficient data use and delay actionable feedback

Limited trending insights

Incompatible data formats and  insufficient context severely limit the ability to identify meaningful trends

Explore resources

Learn how to transform your scientific data into AI-based outcomes.

Leverage in silico models to optimize your cell culture media formulation 

Replatform

Automate data collection to eliminate manual consolidation, minimize human error, and ensure efficiency and consistent data outcomes

Engineer

Harmonize and standardize data to ensure reliable optimization outcomes and facilitate data comparison

Analytics

Streamline analysis and accelerate media formulation iterations with centralized, analytics-ready data

AI

Use advanced in silico models to predict optimal media formulations for a given cell line

Media Formulation Optimization

Scientists typically screen dozens to hundreds of formulations in the lab to find the most effective ones. The Tetra Cell Media Formulation Assistant leverages advanced AI models to predict the best formulations, cutting wet lab experiments by up to 88%.