How Many Nanoparticles Directly Go IV?
A simulation highlights the dose of nanoparticles going IV varies depending on the size and location of ruptured vessels. But even the tiniest of capillaries can carry a small bolus...
Summary: Herein you will find an estimation of how many nanoparticles can go IV based on the size of the vessels ruptured by the syringe’s needle and its distance away from the tip of the needle. Even small arterioles and veinules can transport a bolus significant enough to harm, after that it’s a question of where the bolus hits and at what concentration.
On the personal side, I’ll admit to being sad and shameful as my wife and daughter have had to fly away - back to Canada - to free space in our rented apartment so that we can try to sub-rent it until better times. If things don’t change in the coming month or two, I will be homeless. I am back to the “solitary confinement” of the dark days of lockdown… Those who can, feel free to help, either by simply sharing widely my articles and the Bolus Theory, by becoming a paying member or contributing directly via PayPal… From the bottom of my heart, I want to thank all the generous hearts who have supported my family and I these past two years.
I dedicate this article to my wife and my little girl who have the courage of lions. Love you both.
Observe a group of friends warming up around a fire on a wintery cold night. Naturally a circle is formed. Even children grasps the spheric radiative nature of heat. Some who feel colder will advanced towards the fire to capture more warmth. Others, warm enough, will stay at a distance. Except to feed the fire, no one will approach past a distance where the heat is simply unbearable.
Ever since the discovery of fire, humans have understood, at least intuitively, that a fire radiates heat in the form of a sphere. The same energy is radiated, but the closer the person stands to fire, the higher the energy he/she can capture, the further away, the less radiated energy he/she can capture. Simply because, for the same surface of skin, less energy per square centimeter now reaches that person.
As the sphere around the fire expands [4 x Pi x Radius^2], the energy is spread across a larger spheric surface. So the difference between the energy received by a person 1 meter away from the fire and 10 meters away is going to be 100x. The same occurs with the sun, more energy touches Earth when our planet gets closer to the sun, and vice-versa.
Why am talking about spheres and distances?
Because the same phenomenon occurs with the vaccine dose escaping through ruptured vessels. In my last article, I explained that the laws of fluid dynamics mean that an intravascular injection of the vaccine is unavoidable in the deltoid, at least within the reach of the vaccine dose.
In exactly the same fashion as heat radiation, a ruptured vessel with the same diameter will capture a larger share of the dose if it’s closer to the tip of the needle. That’s a physical certainty. Given that the dose is in limited amount, it will also capture it for a longer moment as the fluid has a limited capacity for expansion.
In other words, the closer to the needle’s tip the ruptured vessel and the larger that vessel or the hole in the vessel, the larger and the more dangerous the bolus injected… and of course, there can be several vessels ruptured along the needle’s path, and therefore several boluses of varying sizes.
Following my recent video with Dr Haider, Dr. Johnathan Edwards1 left the following comment:
“As an anesthesiologist, after 25 years, all injections go intravascular, and quickly. Intramuscular or even subcutaneous lidocaine is perceived within seconds as a metallic taste by patients. Many other medications and vitamins behave this way. There's obviously more to the vascular uptake of injected substances than we humans or the science can appreciate.”
Later on last week, Johnathan had a consersation during which he pointed me to the picture below from an exhibition in Las Vegas whereby the blood vessels of a human arm have been filled with polymer, then solidified, before dissolving all the surrounding tissues, leaving this rather striking and self explanatory vision of a human arm’s vasculature.
How one can imagine not puncturing any blood vessel as the one-inch needle penetrates the deltoid is beyond me. Visibly, it’s a physiological impossibility. It is quite certain that many vessels are cut along the way. After that, it’s just a question of how big of a bolus is actually injected directly. And that again is relatively simple physics…