ABOUT US
We Know Bioprocessing
Already well established as a global leader for liquid-, cell- and sample- handling products, Eppendorf entered the bioprocess market in 2007 through the acquisition of New Brunswick™ Scientific. This strategic move not only added 70 years of New Brunswick experience with autoclavable and sterilizable-in-place fermentors and bioreactors, it also allowed Eppendorf to add an array of lab products such as shakers, freezers, and incubators to its already comprehensive portfolio of products.
In 2012, Eppendorf further expanded its bioprocess expertise and product offerings by acquiring DASGIP®, a pioneer in the development and production of benchtop and small scale parallel bioreactors, and information technology (IT) systems. Ideally-suited for high throughput and process development work, the DASGIP portfolio further expanded the Eppendorf bioprocess portfolio.
With a comprehensive offering of single-use and traditional products for the growth of mammalian, microbial, insect, plant and algae cells, and working volumes of 60 mL – 2,400 L, the Eppendorf bioprocess portfolio can satisfy the demands of process development through production.
Download the Bioprocess Family Brochure
Eppendorf
Eppendorf is a leading life science company that develops and sells instruments, consumables, and services for liquid-, sample-, and cell handling in laboratories worldwide. Its product range includes pipettes and automated pipetting systems, dispensers, centrifuges, mixers, spectrometers, and DNA amplification equipment as well as ultra-low temperature freezers, fermentors, bioreactors, CO2 incubators, shakers, and cell manipulation systems. Consumables such as pipette tips, test tubes, microtiter plates, and single-use bioreactor vessels complement the range of highest-quality premium products.
Eppendorf products are most broadly used in academic and commercial research laboratories, e.g., in companies from the pharmaceutical and biotechnological as well as the chemical and food industries. They are also aimed at clinical and environmental analysis laboratories, forensics, and at industrial laboratories performing process analysis, production, and quality assurance.
Eppendorf was founded in Hamburg, Germany in 1945 and has more than 2,930 employees worldwide.
The company has subsidiaries in 25 countries and is represented in all other markets by distributors.
VIDEOS/WEBINARS
The upstream bioprocess contributes significantly to product quality and manufacturing efficiency. This webcast presents strategies for inline process analytics aimed at automated feed control.
Here, we detail techniques for the scale-up of an antibody production workflow using CHO cells and illustrate how novel scale-up assist software supports scale-up strategy design.
In this panel discussion, industry experts discuss scale-up challenges from economical, operational, and application-related points of view.
How process parameters can be monitored and controlled in a perfusion process to cultivate anchorage-dependent cells using packed-bed bioreactors or microcarrier spin filters in cell-based vaccine production.
The Covid-19 pandemic lead to a strong increase of vaccine development projects and new vaccine manufacturing approaches. In this panel discussion, experts from Eppendorf and ContiVir share their thoughts on how they are “rethinking vaccine development”.
Due to the current Covid-19 pandemic, vaccines and vaccine development are frequently discussed topics. Listen to the talk of Dr. Jörg Schwinde, explaining everything you need to know about viruses, vaccines and vaccine development.
A next-generation bioprocess control station, designed as a universal platform capable of meeting the ever changing needs of all segments of the biotech and pharmaceutical sciences.
A bioreactor/fermentor control station for heat-blanketed and water-jacketed glass vessels and single-use vessels from 250 mL to 40 L.
A cell culture impeller designed for cell-free harvesting of secreted protein within the media.
This mini bioreactor system is a premium tool that helps streamlining process development.
This webcast reviews a research example for process development with the human tumor cell line H157, cultivated in stirred-tank mini bioreactors as 3D cell aggregates.
CONTACT INFORMATION
Eppendorf, Inc
100 Crossing Blvd, Suite 110
Framingham, MA 01702
UNITED STATES
Phone: 800-645-3050
PRODUCTS
- SciVario® twin Bioprocess Controller
- BioFlo® 320 Bioprocess Control Station
- Single-Use Bioreactor Controller System
- Single-Use Vessels For Cell Culture
- Ultralight Weight Design: Research plus Pipette
- Fully Autoclavable, Ergonomic, And Intuitive Pipette: Reference®
- Liquid Handling Pipette: Reference® 2
- Electronic Pipettes: Xplorer® And Xplorer® plus
- Serological Pipets: Easypet® 3
- Photometer With UV And Vis Measurements: BioSpectrometer®
- Benchtop SIP Bioreactor Systems: CelliGen® 510
- Scale-Up Seamlessly: SIP Fermentation Systems
- Fermentation & Cell Culture Software: New Brunswick™ BioCommand®
- Single-Use Fermentation Vessel
NEWS
APPLICATION NOTES & WHITE PAPERS
- Optimal Bioreactor Inoculum Preparation In Shake Flasks With Automated Seed Inoculation, Conditioning And Online Monitoring
- A Guide To Pichia Pastoris Fermentation In Single-Use Stirred-Tank Bioreactors
- Seamless Integration Of Glucose Control Using Raman Spectroscopy In CHO Cell Culture
- Dissolved Oxygen Control PID Tuning For Cell Culture Applications
- Microaerobic Fermentation Of Lactobacillus Acidophilus Within Gut Microbiome Physiological Conditions By BioFlo Bioprocess Control Stations
- Bioreactors And Fermentors: Tools For Resolving Cultivation Bottlenecks
- Guide To Bioprocess Modes: Batch, Fed-Batch, Continuous Fermentation
- Controlled, Large-Scale Manufacturing Of hiPSC-Derived Cardiomyocytes In Stirred-Tank Bioreactors
- Production Of Human iPSC-Derived Cortical Neurospheres In A Mini Bioreactor System
- CHO Cell Cultivation In Mini, Parallel Bioreactor Systems
- It’s Not Just About Size: Talking About Shake Flasks And Bioreactors
- It’s A Matter Of Volume: Bioprocess Scalability
- Perfusion: Making The Most Out Of Your Working Volume
- High-Density Vero Cell Perfusion Culture Single-Use Vessels
- Parallel CHO Cell Cultivation In Single-Use Bioreactors
- A Generic Biomass Soft Sensor And Its Application In Bioprocess Development
- Setup Of A Microbial Hyaluronic Acid Production Process
- High-Density Escherichia coli Fermentation And Protein Production
- Simple Transfer Of An Itaconate Production Process
- Push-Button Simplicity: Automatic Fermentation With Auto Culture
- Scale-Up Of E. coli Fermentation From Small To Pilot Scale
- Determination Of kLa Values Of Single-Use Bioreactors
- One Bioreactor System For The Bioproduction Of 2 High-Demand Chemicals
- High-Density Fermentation For Renewable Chemicals Production
- Tackling The Challenge Of Scalability
- Role Of Interconnectivity In Enabling Improved Bioprocess Quality
- Maximizing Cell Growth And Isobutanol Production
- Adapting A High Cell Density Fed-Batch Process With Contract Manufacturing Organization (CMO)
- Cultivation Of Human CAP Cells: Evaluation Of Scale-Down Capabilities
- Successfully Cultivate Hybridoma Cells In High Densities
- Achieve High-Density Cell Culture With A Stirred-Tank Bioreactor
- Comparing Glass And Single-Use Bioreactors For Growth And Production Of Secreted Proteins
- Comparing Single-Use Bioreactors To Reusable Bioreactors For Production Of Recombinant Proteins
- Optimization Of Bacillus sacchari Fermentation And Scale Up
- Simulating Process Limitations In Microbial Cultivation
- A QbD Approach To Upstream Bioprocess Interrogation And Intensification
- Scalability Of Parallel E. coli Fermentations In Single-use Bioreactors
- Amino Acid Fermentation: Evaluation of Scale-Down Capabilities Using DASbox® Mini Bioreactors
- A Comparative Study On Small Scale E coli Cultivation
- Controlled Cultivation of Stem Cells – Factors to Consider When Thinking of Scale-Up
- Advanced Biofuel Development Using Parallel Bioreactor Systems