by Rhoda Wilson, Expose News:
In response to a paper published some months earlier interpreting microstructures found in samples of covid injections as “nano-robots,” chemistry professor Dr. Anne Ulrich, who has seen a lot of these structures during her research over 20 years, explained that they were structures and crystals formed by self-assembling lipids.
Simple biophysical principles form the seemingly unusual structures. “[It’s] what amphiphiles do all the time, there’s nothing special about it,” she said.
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Over the years, Dr. Ana Maria Mihalcea and Dr. David Nixon have done a lot of work documenting self-assembly nanotechnology in various injections including those marketed as covid vaccines. They are not the only ones investigating the unusual microstructures in mRNA injections. In July 2024, Young Mi Lee and Daniel Broudy published a paper in the International Journal of Vaccine Theory, Practice, and Research which reported these conspicuous microscopic objects as “nano-robots.”
Dr. Anne Ulrich gives a completely different perspective on what these objects are. Responding to Lee and Broudy’s paper, Dr. Ulrich published an article in the same journal in September.
Dr, Ulrich, a biochemistry professor at the Karlsruhe Institute of Technology, has been working for 20 years on lipid bilayers and bio membranes. She has seen a lot of lipid structures and the shapes they can make.
The “conspicuous microscopic objects in mRNA vaccines” interpreted as “nano-robots” is a misconception, she wrote. “Because the wide range of different shapes can be readily explained in terms of self-assembling lipids (including cholesterol), as are used for transfection.” She continued:
As conveyed [by Lee and Broudy] and elsewhere, the angular platelets discovered in the covid-19 injectables have a technical appearance that is reminiscent of microchips, the extended sheets and bubbles have been interpreted as graphene, and some of the soft ribbons and spirals look like parasites. Concerned readers and influencers are rightfully wondering whether well-documented phenomena are responsible for some of the injuries following vaccination? Or, as implied in said article, whether the manufacturer might even have covertly spiked the injections with “nano-robots” that can be “programmed” to spring into action?
Based on our scientific expertise and with full conviction, we would like to give reassurance that the abundant structures found in the mRNA vaccines are neither “nanobots” nor contaminants – but rather maturation and/or degradation products.
Here, we argue that the bizarre structures should not be considered alarming per se, as they are just made up of lipids. They clearly do not represent any allegedly “toxic protein secretions,” “long-lasting silica,” “graphene-coated polymers,” “conductors or semiconductors” or any other “undisclosed additional engineered components” made up of “not-natural/foreign material.”
[In this commentary] we shall look at the structure of lipid nanoparticles and explain their curious rearrangements into sheets, ribbons, filaments, spirals, tubes, chips, beads on a string and much more.
No Nanobots in Vaccines – Just Lipids on the Loose: Commentary on Lee and Broudy (2024), Anne S. Ulrich, BA, MA, DPhil(Oxon), 10 September 2024
Joining Doctors for Covid Ethics in October, Dr. Ulrich discussed her article.
“Lipids are amphiphilic molecules,” she explained. “Amphiphiles are known to self-assemble in many different sizes and shapes.”
The term “amphiphilic” comes from the Greek words “amphi,” meaning “both,” and “philos,” meaning “loving.” This refers to the property of a molecule having both hydrophilic (water-loving) and lipophilic (fat-loving) parts. “But this could [be not only fats but] also be peptides, polymers or any other amphiphilic components,” Dr, Ulrich said.
“Lipid molecules will assemble spontaneously into bilayers … when they are suspended in water. And these bilayers make up what we call a cellular membrane,” she said.
She explained that pure lipids will close themselves up to form a hollow sphere shape but lipid mixtures or lipids with short chains can form other shapes such as long ribbons, which can grow in length and width and can stack into multilayers. A Lipid ribbon will begin to coil or twist if it consists of chiral molecules. If a ribbon begins to twist it will give rise to a spiral or helix. If the ribbon of the spiral grows in width, it can eventually close up into a tube.
