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Application Notes & Snapshots
Application Snapshot Booklet Biologics
Application Snapshot Booklet
Download our full collection of application snapshots, with focuses on biologics, CGT, and fermentation.
At-line spent media analysis is now a reality
To elevate process development decisions to real-time, researchers require new analytical platforms that simplify analysis and accelerate delivery of actionable intelligence.
Differences in fresh commercially available hybridoma media
Select the best CHO media from the start
Performing your own quick assays of the media you receive ensures consistency in the cell media fed to your cells.
Analyze media without removing your mAb on the Rebel
Identify variations in dry and liquid CHO media
Running a quick fresh media assay prior to feeding the culture ensures consistency of the media components when scaling up or during the transition between liquid-to-dry media blends.
Tease out variations in dry cell culture media
Running a simple media assay prior to feeding your cells can ensure that the composition of the media is what is expected.
Don’t sweat your cell media additives
Handle non-ionic surfactants in cell media samples with ease
Brochures & Flyers
REBEL Spent Media Analysis Kits
The REBEL Spent Media Analysis (SMA) kit is designed to give you all the consumable components needed to run your samples quickly and move your projects forward faster.
REBEL Brochure
The REBEL is a novel, dedicated cell culture media analyzer designed for rapid, easy, and efficient amino acid and nutrient analysis.
Podcasts
Posters
Empowering Process Optimization for a mAb-Expressing CHO Cell Line
Coupling miniature mass spectrometry (MS) with microchip capillary electrophoresis (CE) fulfills an unmet need: simple, rapid at-line nutrient quantitation.
Using CE-HPMS For Accelerated Process Development of a mAb-Expressing Cell Line
The coupling of miniature mass spectrometry (MS) to a microchip capillary electrophoresis (CE) platform provides a simple solution for at-line amino acid quantitation.
Rapid at line quantitation of key nutrients in cell culture media
This poster details the benefits of coupling of miniature mass spectrometry to a microchip capillary electrophoresis platform for characterizing cell media metabolites in fresh and spent media.
Quantitation of metabolites in classical and customized cell culture media by an integrated CE-MS Analyzer
Quantitation of metabolites in cell culture media by an integrated CE-MS analyzer for upstream process development
A Rapid Microfluidic Method for Molecular Weight Determination and Spent Media Analysis of an IgG1 Intact Protein in Growth Media
Rapid at line nutrient profiling from an ammonia stressed CHO cell line
Published Articles
Specification Sheets
Videos
Webinars
Harness the Power of At-Line Spend Media Analysis to Optimize a CHO mAb Fed-Batch Process
This webcast shares a data-driven and accelerated cell culture media screening as well as the selection in the Ambr15 microbioreactor system.
Multi-Component At-Line Cell Culture Media Analysis
In this talk, Graziella Piras discusses a data-driven and accelerated media screening, selection, and optimization experiment leveraging REBEL.
Biopharma 4.0: Finding Opportunities to Leverage New At-Line Data
Listen how REBEL users describe how they use better data acquisition, management platforms, and process modeling to implement process intensification.
Process Modeling with Researchers from Johns Hopkins University
Listen to a dynamic discussion on the highlights of a new peer-reviewed article exploring model-based approached to cell culture optimization
![[Webinar] Bioprocess 101: Cell Culture Media Analysis](https://908devices.com/wp-content/uploads/2022/01/9080151_Bioprocess101-Cell-Culture-Analysis_R1-300x300.jpg)
Ask the Expert: Bioprocess 101 – Cell Culture Media Analysis
Process Intensification: Do You Have All the Data You Need When You Need It?
The need for process intensification and implementation of Bioprocess 4.0 requires extensive real time data acquisition and process modelling. At line MS-based technologies presented here provide key cellular metabolic and protein quality data in real time to support process intensification and modelling.
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