The earthshaking Etienne De Harven interview by Celia Farber
by Jon Rappoport
The question I’ve been asking since 1987—
If the experts are going to claim a particular virus causes a particular disease—how do they know that virus exists in the first place?
For example, the supposedly new coronavirus in China. For example, Ebola. For example, HIV. For example, the coronavirus supposedly causing SARS (2003). How do researchers know these viruses exist?
“Well, of course they know. They must.”
That is not a satisfactory answer—even though most people would offer it.
The question can become very interesting, when you stop and consider researchers working away in biowar labs fiddling with viruses. How do they know they’re tweaking viruses that actually exist?
On a more mundane frontier, when scientists tell us they’re rushing to develop a vaccine against a virus that is harming the population, how do they know that virus exists to begin with?
I came to this question when I was researching HIV in 1987. I began to think about it seriously in 1990. During all these years, I’ve reached out to independent researchers, and I’ve tried to stitch together their answers. I can’t say it’s been a smooth trip.
But I have found some answers; and I have certainly found some fake mainstream assertions, which glitter like baubles on plastic branches of 99-cent store Xmas trees.
Here are a few clues. You need to take a tissue sample from a live human being. You need to filter that sample correctly so you arrive at a much smaller sample you believe might contain a virus. You need to put a drop of that sample under an electron microscope and observe what looks like a virus.
How much virus? How many identical particles of virus? Opinions differ on this. It could be one definite virus, one particle. It could be many, many identical particles.
Sidebar: If you’re trying to prove this virus is actually causing DISEASE in a person, you have to go further. You have to show the very same virus is active and replicating at a very high rate in the person’s body, and his immune system isn’t defeating it. Beyond noticing the patient is sick, how do you test for all THAT? I’m still looking for a definitive technical answer—if there is one.
All right, let’s get back to the electron microscope. Let’s say you’ve observed many identical particles of what looks like a virus in the electron microscope photograph, called an EM. You can then say, “Found it.” But you need to be sure. You need to figure out that this virus isn’t just something that ordinarily lives in the human body like a couch potato and does nothing—a passive endogenous virus. No. You want to show this virus comes from the outside as an invader—an exogenous virus. And how do you perfectly make that differentiation every time? Another question that might have no precise formula as an answer.
Big question: CAN WE BE SURE ALL VIRUSES THAT ARE SAID TO EXIST AND SAID TO CAUSE EPIDEMICS ARE ACTUALLY FOUND AND OBSERVED AND IDENTIFIED ON ELECTRON MICROSCOPE PHOTOGRAPHS? CAN WE AT LEAST SAY THAT?
No.
MORE:
How are viruses discovered and identified in the first place?
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