CELLBLOKS® NANOSTACKS™
Unlocking New Frontiers in Drug Discovery and Neurodegenerative Disorder Studies with CELLBLOKS® In-vitro Brain Models!

CELLBLOKS® Brain Models

Our advanced models provide a customizable and realistic representation of brain tissue, empowering researchers to explore a wide range of brain-related phenomena. With CELLBLOKS®, you can construct dynamic and multicellular co-culture systems that closely mimic the natural multicelluar structure of neuroal section. By integrating different cell types and fostering intercellular communication, our models enable the study of complex brain processes with remarkable fidelity.These brain models are designed to be assay-friendly, compatible with standard laboratory equipment and plate readers. This allows for seamless data collection and analysis, optimizing research efficiency and productivity. By harnessing our NANOBLOCKS™ approach, CELLBLOKS® Brain Models provide a versatile platform for investigating disease mechanisms, drug screening, permeability studies, and other crucial areas of brain research. The flexibility and realism of our models offer unprecedented insights into neurodegenerative disorders and pave the way for potential therapeutic breakthroughs.
Benefits

Physiologically relevant
Our advanced Brain-on-a-Chip model faithfully replicates the natural structure and function of the brain, providing a highly relevant platform for studying brain-related phenomena.

Comprehensive Cell Types
Our model includes key brain cell types, such as Neurons, Astrocytes, and Pericytes, enabling the exploration of intricate cell-cell interactions crucial to understanding brain processes.

Dynamic and Modular Design
Our brain model features a dynamic and modular design, allowing for flexible experimental manipulations and the integration of additional cell layers to create complex brain models.
Assay-Friendly
Compatible with plate readers and standard laboratory equipment, our brain model facilitates high-throughput screening and analysis, making it ideal for drug discovery and toxicity studies
Barrier Function
Our brain model allows the incorporation of brain microvascular endothelial cells, which form a functional blood-brain barrier, allowing for the study of barrier integrity, drug permeability, and the transport of substances across the brain.
Cost-Effective and Time-Efficient
With our brain model, you can generate high-quality data in a cost-effective and time-efficient manner, reducing the need for extensive animal studies and accelerating the pace of research and development.
Brain Models Available


3D Stack Differentiated Neurons Model
Experience the future of drug discovery and neurodevelopment studies with CELLBLOKS®, a powerful platform powered by differentiated SH-SY5Y cells and high-throughput capabilities. This industry-compliant technology enables precise prediction of adverse effects and assessment of drug responses in the nervous system. With its optimized design, CELLBLOKS® offers optimal functionality, user-friendliness, and compatibility, streamlining research and development processes. Discover where innovation meets effectiveness and unlock new possibilities in brain science with CELLBLOKS®.

3D Sack Nuro-Astrocyte Co-Culture Model
Unlock the intricate interactions between neurons and astrocytes with our Neuro-Astrocyte Models. By combining differentiated SH-SY5Y cells and astrocytes, these models offer a comprehensive representation of the brain's neural environment. Explore neuronal communication, synapse formation, and neuroinflammatory responses to gain valuable insights into neurodegenerative diseases, drug screening, and neurobiology research. Experience the complexity of the brain in vitro with CELLBLOKS® Neuro-Astrocyte Models.

3D Stack Nurovascular Unit Tri-Culutre Model
Explore the future of brain research with our innovative Neuro-Vascular Models. These advanced co-culture systems combine differentiated neurons, astrocytes, and endothelial cells to recreate the intricate neurovascular unit in a compact design. By incorporating endothelial cells, our models allow for the study of the blood-brain barrier's function and its impact on neurovascular health. With the ability to replicate natural neuronal behavior, our Neuro-Vascular Models offer valuable insights into neurodegenerative diseases, drug screening, and neurobiology research. Discover new frontiers in brain science with our cutting-edge Neuro-Vascular Models
.