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14 June 2026
Flow State
Cells and tissues grown in the lab can be a bit like a bathtub in a showroom: a fair representation, but of limited use until they’re properly plumbed in. A new development aims to solve this with a platform to grow human blood vessel networks, connected to tiny pumps (dubbed Vascularized In Vitro Organ Systems or VIVOS), which provide lab-grown tissues with a more realistic approximation of vascular flow. The vessels can integrate with a broad range of lab-grown mini organs including lung and cerebral organoids (pictured, brain cells in green and yellow, vascular network labelled red). They allow direct study of how blood flow impacts cells, and the team observed how mechanical forces in the flow cause changes in lining cells that result in vessel networks reshaping. The researchers also modelled vascular malformation in a condition called hereditary haemorrhagic telangiectasia, illustrating its potential for direct disease investigations as well as supporting more realistic lab-grown environments.
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