btw, who thought using those LNPs would be a good idea in the first place? Those LNPs will happily merge with any cell membrane out there. Whether that cell membrane belongs to a cell found in the brain, the spinal cord, the bone marrow, the spleen, the ovaries, etc. the LNPs do not care. It will just do what it is supposed to do and rel…
btw, who thought using those LNPs would be a good idea in the first place? Those LNPs will happily merge with any cell membrane out there. Whether that cell membrane belongs to a cell found in the brain, the spinal cord, the bone marrow, the spleen, the ovaries, etc. the LNPs do not care. It will just do what it is supposed to do and release the mRNA into whatever cell it merges with. And that those LNPs can be found everywhere in the body, Pfizer told us in study 185350, found in the "Nonclinical Evaluation Report", in Table 4-2 on page 45, of the foi-2389-06.pdf found here: https://www.tga.gov.au/sites/default/files/foi-2389-06.pdf
That is exactly why they used those NLP. To merge with cells and better 'deliver' the payload.. every step of this Frankenstein 'treatment' was planned out for max impact on the body.
btw, who thought using those LNPs would be a good idea in the first place? Those LNPs will happily merge with any cell membrane out there. Whether that cell membrane belongs to a cell found in the brain, the spinal cord, the bone marrow, the spleen, the ovaries, etc. the LNPs do not care. It will just do what it is supposed to do and release the mRNA into whatever cell it merges with. And that those LNPs can be found everywhere in the body, Pfizer told us in study 185350, found in the "Nonclinical Evaluation Report", in Table 4-2 on page 45, of the foi-2389-06.pdf found here: https://www.tga.gov.au/sites/default/files/foi-2389-06.pdf
That is exactly why they used those NLP. To merge with cells and better 'deliver' the payload.. every step of this Frankenstein 'treatment' was planned out for max impact on the body.