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Lymphatic network drainage resolves cerebral edema and facilitates recovery from experimental cerebral malaria

Michael Haley, Ruben Barroso, Dhifaf A. Jasim, Megan Haigh, Jack Green, Ben Dickie, Alister Craig, David Brough, Kevin N. Couper

2024Cell Reports12 citationsDOIOpen Access PDF

Abstract

While brain swelling, associated with fluid accumulation, is a known feature of pediatric cerebral malaria (CM), how fluid and macromolecules are drained from the brain during recovery from CM is unknown. Using the experimental CM (ECM) model, we show that fluid accumulation in the brain during CM is driven by vasogenic edema and not by perivascular cerebrospinal fluid (CSF) influx. We identify that fluid and molecules are removed from the brain extremely quickly in mice with ECM to the deep cervical lymph nodes (dcLNs), predominantly through basal routes and across the cribriform plate and the nasal lymphatics. In agreement, we demonstrate that ligation of the afferent lymphatic vessels draining to the dcLNs significantly impairs fluid drainage from the brain and lowers anti-malarial drug recovery from the ECM syndrome. Collectively, our results provide insight into the pathways that coordinate recovery from CM.

Topics & Concepts

Lymphatic systemCerebrospinal fluidPathologyCerebral MalariaInterstitial fluidEdemaMedicineChoroid plexusCerebral edemaMeningesCentral nervous systemAnesthesiaSurgeryMalariaInternal medicinePlasmodium falciparumCerebrospinal fluid and hydrocephalusNeonatal and fetal brain pathologyMosquito-borne diseases and control
Lymphatic network drainage resolves cerebral edema and facilitates recovery from experimental cerebral malaria | Litcius