Investigation from Japan: Nanotechnology Self-Assembly in COVID Vaccines Examined | Long-term Research and Cellular Toxicity Assessments of COVID Vaccines Lasting Up to a Year
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A recent study by Dr. Young Mi Lee and Dr. Daniel Broudy has shed light on the cellular effects of Pfizer and Moderna COVID-19 vaccines. The study, one of the most comprehensive and long-term studies to date, observed artificial self-assembling entities in incubated vaccine samples.
Over a period of two to three weeks, complex three-dimensional structures, such as beaded chains, were developed. These structures evolved from simple entities, demonstrating the progression of self-assembly during the incubation period. The observed entities included worm-like structures, discs, chains, spirals, tubes, right-angle structures, and more, resembling carbon nanotube filaments, ribbons, tapes, and three-dimensional spirals.
Transparent, thin, flat membranes were also among the self-assembled entities. Some entities appeared and disappeared over time, suggesting potential dynamic behaviour. The findings are consistent with prior research on self-assembly nanotechnology in COVID-19 vaccines.
The study involved incubating the vaccines with blood and semen specimens. The tests showed direct toxicity to semen and death of all sperm within minutes to 1.5 hours in the healthiest donor samples.
The self-assembly of artifactual structures in the vaccines was observed using images from a 66-page long article. However, no Pfizer/Moderna-specific experimental images are provided in the search results.
The Pfizer and Moderna COVID-19 vaccines use lipid nanoparticles (LNPs), self-assembled nanostructures that encapsulate the mRNA, protecting it from degradation and facilitating its delivery into human cells. These LNPs are typically composed of ionizable lipids, phospholipids, cholesterol, and PEG-conjugated lipids.
Although no Pfizer/Moderna-specific experimental images are provided in the search results, general methodologies for lipid nanoparticle preparation include high-pressure homogenization, ultrasonication, solvent emulsification, and microemulsion methods, all exploiting the lipids’ intrinsic self-assembly properties to form stable nanoparticles.
The authors encourage sharing the paper widely. For those seeking highly specific structural or mechanistic data with images, peer-reviewed articles in nanotechnology or pharmaceutical science journals or regulatory filings (FDA, EMA detailed technical documents) would be recommended sources not covered here.
[1] [Link to the study] [2] [Citation for research on self-assembly nanotechnology and nucleic acids] [3] [Citation for research on active loading techniques and stability assessments of liposomal nanoparticles] [4] [Citation for research on lipid nanoparticle technology and its role in vaccine delivery]
- The cellular effects of Pfizer and Moderna COVID-19 vaccines, as revealed by a recent study, may have implications in health-and-wellness, particularly in medical-conditions and therapies-and-treatments.
- The study's findings, consistent with prior research on self-assembly nanotechnology, suggest a connection between technology, science, and health, as the vaccines use science-based solutions like lipid nanoparticles (LNPs).
- Articles on self-assembly nanotechnology, liposomal nanoparticles, and vaccine delivery can provide more in-depth information about the truth behind the self-assembly process in the Pfizer and Moderna vaccines.
- To further understand the self-assembly structures observed in the vaccines, one might refer to peer-reviewed articles in nanotechnology or pharmaceutical science journals or regulatory filings (FDA, EMA detailed technical documents) for highly specific structural or mechanistic data.
- CBD, although not directly mentioned in the study, could potentially be a topic of interest in health and health-and-wellness circles, as various studies have explored the therapeutic benefits of CBD on medical-conditions.
