Patterned 3D Co-culture
Live Cell Monitoring
Easy-to-Use Platform
TECHNOLOGY
Capillary Force Guided 3D Liquid Patterning
-
Liquid capillary force guided selective patterning
-
Spontaneous Rail and wedge structure guided liquid and hydrogel 3D pattening
-
Lab on a chip 2018 (DOI: 10.1039/C8LC00336J)
Spontaneous 3D Liquid Patterning
A1-Impact/ C-Impact
APPLICATIONS
"3D Co-Culture of Multiple Cell Types"
1. Perfused 3D Blood Vessels Networks
Vascularized microphysiological system (Organ-on-a-Chip)
Vasculogenesis
Angiogenesis
2. 3D Neuronal Network and BBB Research
Axon (Cortical Neuron)
Blood-Brain-Barrier(BBB)
3D Neuronal Networks Formation
-
Cortical neuron bundle
-
Neuron-Astrocyte co-culture
-
Blood-Brain-Barrier (BBB) in vitro model
-
Drug for brain disorder research
3. Cancer Research and Immnuno Oncology (In revision)
NK cell - Cancer interaction Research (In revision)
Natural Killer Cells (NK cells)
-
Immune Cell 3D Migration
-
Cancer and immune cell interaction
-
Drug discovery and Biological research
C-IMPACT Platform
PRODUCTS
96 - IMPACT
T - IMPACT
S - IMPACT
Key Features
-
Reliable and easy-to-use
-
Microfluidic patterning in high throughput way
-
Compatible with any kind of extracellular matrix gels
-
Conformance to 96 well/384-well format (SBS format)
-
-
Multi-channel design for co-culture
-
Different mixture of cell types can be loaded on each lane
-
-
Require small amount of cells/hydrogels (~ 2 μL)
-
Compatible with conventional imaging system
CurioChips inc.
Since 2017
Contact
220 Bldg, 630-1 Rm, Seoul National University, Seoul, South Korea (08826)
Email:
Phone: +82-2-880-1702