A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.
A 3D Human Blood-brain Barrier Model in a High Throughput Platform for Disease Modeling and Drug Development
A high-throughput 3D model: This BBB-on-a-chip system uses perfused primary human brain microvascular endothelial cells to replicate barrier integrity, transporter function, and cytokine-induced disruption, enabling compound screening and mechanistic studies of the blood-brain barrier.