Organ-on-Chip & Advanced Microphysiological Models
Recreate physiological tissue microenvironments with microfluidic chips — vascularized tumors, BBB, immune co-culture, and multi-organ systems for predictive preclinical testing.
Next-Generation Preclinical Platforms
Our organ-on-chip platforms integrate microfluidics, tissue engineering, and real-time sensing to create physiologically relevant models that better predict human responses than traditional methods.
Vascularized Tumor-on-Chip
Tumor angiogenesis models with perfusable vascular networks.
Blood-Brain Barrier (BBB) Chip
Physiological BBB reconstruction; CNS drug permeability assessment; neuroinflammation and neurodegeneration modeling.
Immune-Tumor Microenvironment
Co-culture of tumor organoids with immune cells; CAR-T infiltration and killing assays; checkpoint inhibitor mechanism studies.
Barrier Organ Models
Intestinal (gut-on-chip), renal (kidney-on-chip), and pulmonary (lung-on-chip) barrier models.
PDOoC Integration
Patient-derived organoid integration onto microfluidic chips; personalized drug testing in physiologically relevant microenvironments.
Multi-Organ Systems
Linked organ chips for systemic drug metabolism, ADME profiling, and toxicokinetic studies.
Chip Integration Workflow
Chip Design
Selection or custom chip; microchannel design optimization; surface modification.
Cell Seeding
Organoid/primary cell loading; endothelial cell seeding for vascularization; co-culture establishment.
Perfusion Setup
Pump-free gravity-driven or syringe pump perfusion; flow rate optimization; dynamic culture initiation.
Drug Exposure
Concentration gradient generation; temporal dosing profiles; metabolite collection.
Real-Time Analysis
TEER measurement; time-lapse imaging; effluent sampling for biomarker analysis.
Elevate Your Preclinical Data
Let our engineering team design a custom organ-chip model for your therapeutic area.
Start Your Project