Elimination of intravascular thrombi prevents early mortality and reduces gliosis in hyper-inflammatory experimental cerebral malaria.

Kyle D WilsonLorenzo F OchoaOlivia D SolomonRahul PalSandra M CardonaVictor H CarpioPhilip H KeiserAstrid E CardonaGracie VargasRobin Stephens

Published in: Journal of neuroinflammation (2018)

These findings support the contribution of cytokines, coagulation, and leukocytes within the brain vasculature to neuropathology in malaria infection. Strikingly, localization of inflammatory leukocytes within intravascular clots suggests a mechanism for interaction between the two cascades by which cytokines drive local inflammation without considerable cellular infiltration into the brain parenchyma.

Keyphrases

oxidative stress
resting state
plasmodium falciparum
white matter
cerebral ischemia
coronary artery
peripheral blood
functional connectivity
subarachnoid hemorrhage
risk factors
multiple sclerosis
cardiovascular disease
brain injury
coronary artery disease