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Persistence of spike protein at the skull-meninges-brain axis may contribute to the neurological sequelae of COVID-19
Persistence of spike protein at the skull-meninges-brain axis may contribute to the neurological sequelae of COVID-19

Evidence that a COVID-19 infection can induce neurological sequelae.

The SARSCoV2 spike protein can persist in the brain—skull bone marrow and meninges—to induce neurologic damage

SARS-CoV-2 spike protein accumulates & persists in the body for years after infection, especially in the skull-meninges-brain axis, potentially driving long COVID. mRNA vaccines help but cannot stop it.

In mice, it caused inflammation, anxiety, and worsened brain injuries. Vaccines reduced but did not fully eliminate it.

#Brain#Neuroinflammation#Post-Acute Conditions#brain injury#Long Covid#spike protein#bone marrow#meninges#skull#neurologic changes#neurological
·cell.com·
Persistence of spike protein at the skull-meninges-brain axis may contribute to the neurological sequelae of COVID-19
Cross-Section of Neurological Manifestations Among SARS-CoV-2 Omicron Subvariants—Single-Center Study
Cross-Section of Neurological Manifestations Among SARS-CoV-2 Omicron Subvariants—Single-Center Study

“The Omicron variant of SARS-CoV-2 presents a wide spectrum of neurological manifestations."

"Although there is an improvement in the survival rate of patients with COVID-19, the frequency of neurological manifestations increases."

"The occurrence of delirium, cerebrovascular diseases, and ischemic stroke results in higher mortality."

#Neuroinflammation#neurological#Brain#Long Covid#Post-Acute Conditions#brain injury#cognition#Omicron#Stroke#cerebrovascular disease#Mortality
·mdpi.com·
Cross-Section of Neurological Manifestations Among SARS-CoV-2 Omicron Subvariants—Single-Center Study