Master microfluidic technology by optimizing conditions for living tissue cultures
Experiment Score
0
Time Elapsed
00:00
Health Rating
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Select an organ model and configure parameters to begin
50 µL/min
5,000 cells/mm²
5% (Physioxia)
37.0°C (Optimal)
Microfluidic Chip v2.0Liver-on-Chip
Input Channel • Media + Nutrients
Culture Chamber • Seeding Cells...
Output Channel • Waste + Metabolites
Experiment Progress0%
Cell Viability
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Perfusion
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Tissue Function
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Shear Stress
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--:--Microfluidic system initialized. Select organ type and configure culture parameters.
Your Mission: You're a biomedical engineer running organ-on-chip experiments. Each organ type has ideal conditions—find the perfect balance!
Key Parameters:
• Flow Rate: Higher flow delivers more nutrients but increases shear stress on delicate cells
• Temperature: Human cells thrive at 37°C. Deviations cause stress and reduce viability
• Oxygen: Most organs function at 3-8% O₂ (physioxia), not atmospheric 21%
Pro Tip: Each organ has different optimal settings. The liver loves moderate flow, while the heart needs higher perfusion rates!