This video discusses the impact of SARS-CoV-2 on the brain’s intricate blood vessel system, focusing on how capillaries and precapillary sphincters regulate blood flow and oxygen supply. It highlights the disruption of these systems in COVID-19 patients, leading to impaired cerebral blood flow and potential complications like POTS.

This video highlights groundbreaking research showing the persistence of spike proteins and SARS-CoV-2 long after infection or vaccination. One study found spike proteins in vaccinated patients 187 days later, suggesting ongoing production from transfected cells, while other findings show viral presence in COVID-19 patients up to 654 days after recovery, particularly in the brain and olfactory system. 

 

This video explains how SARS-CoV-2 and its spike protein rapidly infiltrate the brain, affecting critical areas like the brain stem and lacrimal gland. It discusses how phenolic compounds, such as quercetin and resveratrol, help restore arterial stiffness and inhibit inflammation, while also addressing how viral damage blocks the brain’s glymphatic drainage system, leading to toxin buildup. This blockage accelerates neurological diseases like Alzheimer’s and Parkinson’s, even in younger individuals. 

This video explores how neurological issues in post-COVID patients are often misclassified as psychological problems, arguing that these symptoms align more closely with vascular dementia. It outlines how spike proteins cause endothelial dysfunction, micro clots, and blood-brain barrier disruption, leading to chronic inflammation and neurological damage. 

This video challenges the misclassification of neurological issues in post-COVID patients as psychological, suggesting they may be a form of vascular dementia. It highlights how endothelial dysfunction, micro clots, chronic inflammation, and a disrupted blood-brain barrier, caused by spike proteins, impair the brain’s neurovascular system. 

This video discusses the damage caused to the vascular system after vaccination, highlighting the degradation of the glycocalyx and the presence of spike proteins in endothelial cells. The inflammation and arterial stiffness that result are linked to vascular dementia, with immune cells being drawn to the affected areas, contributing to micro clotting and ongoing damage.

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