Non-invasive MRI mapping of tissue-CSF water exchange reveals glymphatic fluid movement in live human cortex
Wang, Z.; Hu, Z.; Jiang, D.; Song, J.; Gou, Y.; Shi, W.; Wu, J.; Xu, C.; Akinwale, O.; Hazel, K.; Pottanat, G.; Ge, Y.; Wisniewski, T.; Yedavalli, V.; Sair, H. I.; Burhanullah, M. H.; Rosenberg, P.; Lu, H.
Show abstract
Efficient metabolic waste clearance, via the postulated glymphatic system, is essential for neural homeostasis. However, direct visualization of tissue-cerebrospinal fluid (CSF) exchange remains limited, leading to ongoing debate in the neuroscientific field. The present work revealed evidence of tissue-CSF water exchange in the live human cortex, by employing a novel MRI technique demonstrating the flux of water molecules across the perivascular interface. We observed robust water exchange inside the cortical ribbon, which was more prominent than white matter and deep brain tissue. We validated that the signal originates from CSF and is independent of cerebral perfusion. Water exchange between tissue and CSF declined with age. Furthermore, we demonstrated for the first time that tissue-CSF exchange was impaired in Alzheimers disease (AD), in particular in regions where the perivascular space is clogged by anti-amyloid immunotherapy.
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