MIMETAS Publishes Breakthrough Study on 3D Blood–Brain Barrier Model with Unidirectional Flow

Oegstgeest, The Netherlands, February 17, 2026— Scientists at MIMETAS have published a new study describing a scalable, self-assembling human blood–brain barrier (BBB) model that combines physiological relevance withhigh-throughput capability. The study introduces a 3D brain microvasculature model under unidirectional flow, developed using the OrganoPlate® Graft 48 UF platformand supported by MIMETAS’ Uniflow technology.

The blood–brain barrier plays a critical role in maintainingcentral nervous system health, while also representing a major challenge fordrug development and to study neurological diseases. In this work, MIMETASscientists present a human in vitro BBB model composed of primary brainmicrovascular endothelial cells, pericytes, and astrocytes, which self-organizeinto perfusable vascular networks that remain viable for at least 14 days.

Unlike many existing BBB-on-a-chip systems, the modelsupports gravity-driven, unidirectional perfusion without pumps or syringes,better mimicking physiological cerebral blood flow. The system also enables 48BBB networks to be cultured in parallel on a single plate, making the systemsuitable for higher-throughput studies.

Comprehensive characterization showed that co-culture withpericytes and astrocytes significantly improves barrier function and vascular organization. Triculture networks exhibited smaller vessel diameters, increased branching, tighter barrier integrity, and stronger alignment with flow direction compared to endothelial monocultures. Functional assays confirmed robust perfusion, retention of high-molecular-weight tracers, and consistent unidirectional flow through the microvasculature.

This combination of physiological relevance, scalability, and ease of use positions the model as a powerful tool for studying BBB biologyin health and disease. Potential applications include drug permeability anddelivery studies, investigation of BBB dysfunction in neurological disorderssuch as stroke or neuroinflammation, and assessment of BBB-restorative therapies.