S.NEST ™
The S NEST exerts suction or expulsion pressure through the fluidic channels to enable homogenous reciprocating mixing The oxygen transfer tubes connected to the lid offer the cells a continuous oxygen supply to maintain a healthy environment.
High throughput microbioreactor with CO 2 incubator functions, shortens the process time for cell upscaling, provides a better microscale environment for cell growth, and brings more efficiency to cell line selection.
Product Applications
- Cell line development (CLD)
- High throughput clone selection
- Cell culture upscaling
The S NEST introduces suspension culture and late stage bioreactor conditions to the early stage cell line development pipeline, providing more growing space and oxygen than static cultures.
Key Features & Benefits
- Incubate up to four 24 or 96 well plates at once for maximum productivity and efficiency
- Customize the mixing level and increase cell growth with the S NEST s unique fluid control system
- Optical sensors at the bottom of the unit monitor pH and dissolved oxygen ( values through the entire cell culture process
- Valuable insights of pH/DO data throughout the culture period enable high throughput cell clone selection
- Reduce the amount of time required to process cells
- Cells show higher density and viability when processed in the S NEST compared to traditional incubation
The S NEST lid comes in 96 fluidic channel or 24 fluidic channel formats for respective well plates The patented condenser design in the fluidic channels effectively reduces liquid evaporation, and condensation collected at the surface of the condenser circulates back into the culture during every mixing.
The S NEST provides insightful graphs from pH and DO sensor
The high throughput microbioreactor with CO ² incubation capabilities to optimize your cell line development.
The S NEST exerts suction or expulsion pressure through the fluidic channels to enable homogenous reciprocating mixing The oxygen transfer tubes connected to the lid offer the cells a continuous oxygen supply to maintain a healthy environment.
Microbioreactors are miniature bioreactors for cell culture, tissue engineering, and drug development. They are used to grow small volumes of cells and are a cost effective alternative to traditional bioreactors.
