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A model to evaluate the effects of microgravity on the structural and functional properties of the blood-brain barrier [BBBinSpace]
Abstract

Space is hostile to humans. Several environmental stressors – chiefly microgravity – impact astronaut health, hindering space exploration. The nervous system appears to be among the most affected apparatuses, the more so for the brain. The most obvious phenomenon is perhaps an upward redistribution of bodily fluids, which leads to increased intracranial pressure and ventricular size, with symptoms that may persist even after landing. But other factors are known or expected to contribute to brain pathology in space. Anatomically speaking, a notable brain structure is the blood-brain barrier (BBB), a selective boundary lining up the central nervous system. It covers microvessels surrounding the brain, regulating its physiological metabolism and protecting it from neurotoxins and pathogens. BBB leakage can cause metabolic disorders, anomalous fluid movement, and permeation of toxic compounds. In space, the physical alterations experienced by astronauts and the repercussion on their cognitive/behavioral skills suggest an involvement of the BBB. Even with several studies dedicated to endothelial cells in microgravity, however, little is known about endothelial cell response to reduced gravity when these compose a BBB. The paucity of space-apt models for the study of the BBB is likely among the causes of such void of knowledge. To aid future BBB research in space, we aim to develop an in vitro BBB mockup model usable in microgravity, which we will simulate via random positioning machine. Expectably, the device will allow the investigation of BBB adaptations to space per se, but will also open up the possibility of studying how microgravity influences brain treatment, such as drug delivery. Experience gathered aboard the International Space Station confirms brain-relevant pharmacokinetics, which include fundamental drug classes like anti-inflammatories and painkillers, to be especially relevant for a long-term human permanence in space.

Informazioni
Acronimo
ESA Ciofani 2023
Data inizio
01/03/2024
Data fine
28/02/2026
Role
Coordinator
Funds
European
Persone coinvolte
Gianni Ciofani
Gianni Ciofani
Smart Bio-Interfaces
Budget
Total budget: 180.000,00€
Total contribution: 90.000,00€
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