A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
The blood-brain barrier (BBB) is essential for maintaining a stable environment for the central nervous system (CNS). However, BBB dysfunction, inflammation, and immune cell infiltration contribute to neurological diseases such as multiple sclerosis, stroke, and neurodegenerative disorders. Our innovative 3D human BBB-on-a-Chip model provides a high-throughput, physiologically relevant platform for studying neuroinflammation and drug permeability.Key Features of the Model3D perfusable BBB model – Mimics human vascular physiologyHigh-throughput screening – Supports 40 BBBs-on-chips in parallelGravity-driven microfluidic system – Enables continuous flow without pumpsCompatible with automated systems – Integrates with pipetting robots for high-throughput studies
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.
A High-Throughput Human BBB-on-a-Chip Model for Neurological Drug Discovery of Anti-Inflammatory and Barrier Restoring Agents
A high-throughput 3D BBB-on-a-Chip model that replicates human vascular physiology to study neuroinflammation, barrier integrity, and drug permeability—enabling scalable screening of anti-inflammatory and BBB-restoring therapies.