Blood-Retina Chip research
Posted on: Thursday 25 January 2018
Researchers from Microelectronics Institute of Barcelona, Vall d’Hebron Research Institute, and Universitat Autònoma de Barcelona have developed a microfluidic chip that mimics the human blood-retinal barrier in the eye. The study, published in Lab on a Chip, sets out how the design of the device replicates the structure of the retina.
The device is composed of several parallel compartments that recreate the layered structure of the retina. In each compartment, a specific cell type is grown to replicate the different layers as closely as possible. For example, endothelial cells represent capillaries, neurons take the place of the neuroretina, and retinal pigmented epithelial cells make up the device’s external blood-retinal barrier.
The compartments are interconnected by microgrooves, allowing the exchange of signal molecules between cells, reproducing the sort of cellular communication seen in the body. Additionally, the device exposes endothelial cells to the mechanical conditions that they experience from the bloodstream. Rosa Villa, a scientist at the Spanish Council for Scientific Research, explained the importance of recreating these effects: “In cell cultures, where this condition is not reproduced, we could say the cells are ‘sleepy’ and do not react as they would do in real conditions”.
This work builds on a previous device developed by Villa’s team that emulates the blood-brain barrier.