MENÚ
AR | ARS
AR | ARS
-
- Todas las centrífugas
- Centrífugas de sobremesa
- Centrífugas de suelo
- Centrífugas refrigeradas
- Microcentrífugas
- Centrífugas multipropósito
- Centrífugas de alta velocidad
- Ultracentrífugas
- Concentrador
- Consumibles para ultracentrífugas y centrífugas de alta velocidad
- Tubos de centrífuga
- Placas de centrífuga
- Gestión de muestras e información
-
- Todas las pipetas, dispensadores y manipuladores de líquidos automatizados
- Pipetas mecánicas
- Pipetas electrónicas
- Pipetas multicanal
- Pipetas y dispensadores de desplazamiento positivo
- Puntas de pipeta
- Dispensadores de botella
- Controladores de pipetas
- Accesorios para dispensadores y pipetas
- Pipeteo automatizado
- Consumibles para automatización
- Accesorios de automatización
- Servicios de manipulación de líquidos y pipetas
Sorry, we couldn't find anything on our website containing your search term.
Está a punto de abandonar este sitio.
Por favor, tenga en cuenta que su carro de la compra actual no ha sido guardado todavía y no podrá ser restablecido en el nuevo sitio ni cuando regrese. Si desea guardar su carro de la compra, inicie sesión en su cuenta.
Sorry, we couldn't find anything on our website containing your search term.
Webinar
Culture of 3D Cell Aggregates in Perfusion
- Células madre
Three-dimensional (3D) cell aggregates are of great interest for many applications, including disease modeling, drug toxicity assessment, and manufacture of stem cell-based products.
Stirred-tank bioreactors are promising culture systems for 3D cell aggregates, as they allow efficient establishment and maintenance of cell aggregates, process monitoring and control, and process scale-up to larger volumes. Furthermore, they can be operated in perfusion mode, which allows 3D cell aggregates to be sustained longer than in traditional batch cultures.
This webcast will review a research example for process development with the human tumor cell line H157, cultivated in stirred-tank mini bioreactors as 3D cell aggregates.
Learning Objectives:
Speaker:
Dr. Philipp Nold, Infield Application Specialist, Eppendorf Bioprocess Center, Juelich, Germany
This webcast will review a research example for process development with the human tumor cell line H157, cultivated in stirred-tank mini bioreactors as 3D cell aggregates.
Learning Objectives:
- Learn about the challenges and benefits of perfusion cultivation for stem cells and 3D cell models
- Gain insight on the impact of impeller geometry on cell growth and aggregate formation
Speaker:
Dr. Philipp Nold, Infield Application Specialist, Eppendorf Bioprocess Center, Juelich, Germany
Leer más
Dr. Philipp Nold, Infield Application Specialist, Eppendorf Bioprocess Center, Juelich, Germany