Have they locked up Joe Biden for cheating yet?
What about the corrupt Hillary Clinton?
Or even Prince Andrew?
If not why not because nobody is above the law.
Recently retired, no longer affiliated with any party. Constitutional patriot listening for God’s word
Blind justice will reign, after the storm
During a cytokine storm, various inflammatory cytokines are produced at a much higher rate than normal. This overproduction of cytokines causes positive feedback on other immune cells to occur, which allows for more immune cells to be recruited to the site of injury that can lead to organ damage.
I believe in and will fight for freedom! Truth seeker and staunch President Trump supporter! #WWG1WGA 🇺🇸🦅
Yes - but not “can lead to organ damage,” rather “it LEADS to organ damage.” Cytokine storm is always fatal. This what the test animals for mRNA died from 100% of the time. This is what prevented mRNA “vaccines” from getting to clinical trial. It’s one of the many reasons the “Trojan Horse” plandemic was created.
Recently retired, no longer affiliated with any party. Constitutional patriot listening for God’s word
And NOBODY has any real idea of when the cytokene storm will hit any vaxed individual, but it will probably take them all( tho ones who got placebos excluded)
The mammalian mitochondrial electron transport chain (ETC) includes complexes I‑IV, as well as the electron transporters ubiquinone and cytochrome c. There are two electron transport pathways in the ETC: Complex I/III/IV, with NADH as the substrate and complex II/III/IV, with succinic acid as the substrate. The electron flow is coupled with the generation of a proton gradient across the inner membrane and the energy accumulated in the proton gradient is used by complex V (ATP synthase) to produce ATP.
The first part of this review briefly introduces the structure and function of complexes I‑IV and ATP synthase, including the specific electron transfer process in each complex. Some electrons are directly transferred to O2 to generate reactive oxygen species (ROS) in the ETC. The second part of this review discusses the sites of ROS generation in each ETC complex, including sites IF and IQ in complex I, site IIF in complex II and site IIIQo in complex III, and the physiological and pathological regulation of ROS. As signaling molecules, ROS play an important role in cell proliferation, hypoxia adaptation and cell fate determination, but excessive ROS can cause irreversible cell damage and even cell death.