NeuroFluidics™ Line
Mainly focused on the creation of neurological disorder models, the NeuroFluidics™ line offers products with a variety of architectures and related applications, ranging from axonal growth to physiological loop creation.
DuaLink™
Enhanced fluidic isolation
3 compartments, connected by microchannels technology: 2 for cell culture and 1 for fluidic isolation
8 or 16 microfluidic chips per NeoBento™
DuaLink™ Ultra
Enhanced fluidic isolation, axonal projection and time to results
3 compartments, connected by microchannels technology: 2 for cell culture and 1 for fluidic isolation
8 or 16 microfluidic chips per NeoBento™
DuaLink
Enhanced fluidic isolation
3 compartments for cell co-culture connected by microchannels technology
8 or 16 microfluidic chips per NeoBento™
DuaLink Ultra
Enhanced fluidic isolation, axonal projection and time to results
3 compartments for cell co-culture connected by microchannels technology
8 or 16 microfluidic chips per NeuroBento™
DuaLink™ MEA
Functional fluidic isolation
3 compartments, connected by microchannels technology and crowded on a MicroElectrod Array (MEA) plate: 2 for cell culture and 1 for fluidic isolation
8 or 16 microfluidic chips per NeoBento™
DuaLink™ Shift
Synapse isolation
3 compartments for cell co-culture connected by microchannels technology
8 or 16 microfluidic devices per NeoBento™
DuaLink™ Shift MEA
Functional fluidic isolation
3 compartments for cell co-culture, connected by microchannels technology and crowded on a MicroElectrod Array (MEA) plate
8 or 16 microfluidic chips per NeoBento™
DuaLink™ Delta Ultra
Enhanced growth kinetics
3 compartments for cell co-culture connected by microchannels technology
8 or 16 microfluidic chips per NeoBento™
DuaLink MEA
Functional fluidic isolation
3 compartments for cell co-culture, connected by microchannels technology and crowded on a MicroElectrod Array (MEA) plate
8 or 16 microfluidic chips per NeuroBento™
DuaLink Shift
Synapse isolation
3 compartments for cell co-culture connected by microchannels technology
8 or 16 microfluidic devices per NeoBento™
TriaLink™
Bilateral connectivity (one to one) by microchannels technology
3 compartments for independant cell tri-culture
8 or 16 microfluidic chips per NeoBento™
TriaLink™ Ultra
Multilateral connectivity (one to many) by microchannels technology
3 compartments for independant cell tri-culture
8 or 16 microfluidic chips per NeoBento™
DuaLink Delta
Enhanced growth kinetics
3 compartments for cell co-culture connected by microchannels technology
8 or 16 microfluidic chips per NeuroBento™
TriaLink
Bilateral connectivity (one to one) by microchannels technology
3 compartments for independant cell tri-culture
8 or 16 microfluidic chips per NeoBento™
TriaLink™ MEA
Functional bilateral connectivity (one to one) by microchannels technology
3 compartments for independant cell tri-culture crowded on a MicroElectrod Array (MEA) plate
8 or 16 microfluidic chips per NeoBento™
PentaLink™
Basal Ganglia Loop
5 3D-Deposition Chamber of different size connected by microchannels technology
4 or 8 microfluidic chips per NeoBento™
TriaLink Ultra
Multilateral connectivity (one to many) by microchannels technology
3 compartments for independant cell tri-culture
8 or 16 microfluidic chips per NeoBento™
TriaLink MEA
Functional bilateral connectivity (one to one) by microchannels technology
3 compartments for independant cell tri-culture crowded on a MicroElectrod Array (MEA) plate
8 or 16 microfluidic chips per NeoBento™
PentaLink™ MEA
Functional Basal Ganglia Loop
5 3D-Deposition Chamber of different size connected by microchannels technology and crowded on a MicroElectrod Array (MEA) plate
4 or 8 microfluidic chips per NeoBento™
PentaLink
Basal Ganglia Loop
5 3D-Deposition Chamber of different size connected by microchannels technology
3 or 6 microfluidic chips per NeoBento™
PentaLink MEA
Functional Basal Ganglia Loop
5 3D-Deposition Chamber of different size connected by microchannels technology and crowded on a MicroElectrod Array (MEA) plate
3 or 6 microfluidic chips per NeoBento™
