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Neurovascular Unit on a Chip
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A human astrocyte (green) interacting directly the brain endothelium (red)
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In vitro Blood Brain Barrier on Chip: pericytes closely interacting with the brain endothelium
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Affordable Barrier-on-Chip system made of double-sided tape
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Stem-cell derived BBB endothelium in a chip
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Human primary astrocytes intermingled with pericytes
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Human stem cell-derived neurons on a multi array electrode
The Lab
Our research group is focused on In Vitro Neural Models and Hybrid Bioelectrical Systems. The aim of the research is to understand neuronal interactions with other neural and neurovascular cells, specifically in terms of metabolic function and neuronal activity. The core technology is based on human primary and stem cell-derived neural cells combined with fluidic and electronic device construction.
News
- Wrapping Up 2025/2026: Milestones at Herland Lab July 13, 2026
- New preprint on NeuroEnergetics-on-Chip (NEoC) July 1, 2026
- Herland Lab at EUROoCS 2026 in Braga June 29, 2026
- Herland Lab at SMILS 2026 in Uppsala and CB@S 2026 in Solna June 18, 2026
- NORDVASC3D consortium by NordForsk June 12, 2026