Aaron Siri
👤 PersonAppearances Over Time
Podcast Appearances
or mining it and separating it with silica acid. Most metals that you come into contact with in the environment have a human function, like iron, right? Magnesium. Your body has some mechanism it uses it for. Aluminum has no biological function in your body, zero. That's why when you have an aluminum can, you know how it can survive forever and bacteria and virus don't grow?
Because it's toxic to life, okay? People think of aluminum as if it's ubiquitous, because it's now ubiquitous. So aluminum, imagine having too much or too little is problematic. And the aluminum that you ingest is usually an ionic form, like in the periodic table of elements, it's like tiny, tiny, tiny piece of aluminum.
Because it's toxic to life, okay? People think of aluminum as if it's ubiquitous, because it's now ubiquitous. So aluminum, imagine having too much or too little is problematic. And the aluminum that you ingest is usually an ionic form, like in the periodic table of elements, it's like tiny, tiny, tiny piece of aluminum.
Because it's toxic to life, okay? People think of aluminum as if it's ubiquitous, because it's now ubiquitous. So aluminum, imagine having too much or too little is problematic. And the aluminum that you ingest is usually an ionic form, like in the periodic table of elements, it's like tiny, tiny, tiny piece of aluminum.
So if this cup was an ion of aluminum that you ingested, which wouldn't cross the blood brain barrier, which your body could use its pathways to get rid of, A piece of aluminum adjuvant would be like the size of this whole city we're sitting in, okay? On the micro scale, it's massive. So it gets injected into your arm with the vaccine.
So if this cup was an ion of aluminum that you ingested, which wouldn't cross the blood brain barrier, which your body could use its pathways to get rid of, A piece of aluminum adjuvant would be like the size of this whole city we're sitting in, okay? On the micro scale, it's massive. So it gets injected into your arm with the vaccine.
So if this cup was an ion of aluminum that you ingested, which wouldn't cross the blood brain barrier, which your body could use its pathways to get rid of, A piece of aluminum adjuvant would be like the size of this whole city we're sitting in, okay? On the micro scale, it's massive. So it gets injected into your arm with the vaccine.
It's in the vial to cause cellular death at the injection site, okay? So that your blood neutrophils come pouring out and you have that inflammation that you see when you have an infection, it gets red. And that's your immune system working and it... And those aluminum adjuvants are bound to the antigens.
It's in the vial to cause cellular death at the injection site, okay? So that your blood neutrophils come pouring out and you have that inflammation that you see when you have an infection, it gets red. And that's your immune system working and it... And those aluminum adjuvants are bound to the antigens.
It's in the vial to cause cellular death at the injection site, okay? So that your blood neutrophils come pouring out and you have that inflammation that you see when you have an infection, it gets red. And that's your immune system working and it... And those aluminum adjuvants are bound to the antigens.
So when your macrophages and dyrtric cells, those are immune system cells, take them and go to your lymph nodes to create antibodies, adaptive immunity, right? After they're done doing that, where does the aluminum adjuvant go? Well, let me tell you. The CDC and others have done studies where they inject aluminum adjuvant into animals and then they sacrifice them.
So when your macrophages and dyrtric cells, those are immune system cells, take them and go to your lymph nodes to create antibodies, adaptive immunity, right? After they're done doing that, where does the aluminum adjuvant go? Well, let me tell you. The CDC and others have done studies where they inject aluminum adjuvant into animals and then they sacrifice them.
So when your macrophages and dyrtric cells, those are immune system cells, take them and go to your lymph nodes to create antibodies, adaptive immunity, right? After they're done doing that, where does the aluminum adjuvant go? Well, let me tell you. The CDC and others have done studies where they inject aluminum adjuvant into animals and then they sacrifice them.
You know, they mark the aluminum adjuvant with like a fluorescent so they could see where is it afterwards and they can, you know, shine it on the animal. It ends up in all their organs, their brain, their lungs, their heart, everywhere. So that's not good. You know, having that kind of material deposited is not good. So you don't want too much of it in a vial, okay?
You know, they mark the aluminum adjuvant with like a fluorescent so they could see where is it afterwards and they can, you know, shine it on the animal. It ends up in all their organs, their brain, their lungs, their heart, everywhere. So that's not good. You know, having that kind of material deposited is not good. So you don't want too much of it in a vial, okay?
You know, they mark the aluminum adjuvant with like a fluorescent so they could see where is it afterwards and they can, you know, shine it on the animal. It ends up in all their organs, their brain, their lungs, their heart, everywhere. So that's not good. You know, having that kind of material deposited is not good. So you don't want too much of it in a vial, okay?
I'm not saying what kind of harm, I'm just saying you don't want too much. And you don't want too little because that presents efficacy issues. Right. And even safety issues. So the petition, all it asked for, and those might've been too much detail about aluminum, but the petition, all it asked for is said, hey, FDA, and if you read it, the ask was this.
I'm not saying what kind of harm, I'm just saying you don't want too much. And you don't want too little because that presents efficacy issues. Right. And even safety issues. So the petition, all it asked for, and those might've been too much detail about aluminum, but the petition, all it asked for is said, hey, FDA, and if you read it, the ask was this.
I'm not saying what kind of harm, I'm just saying you don't want too much. And you don't want too little because that presents efficacy issues. Right. And even safety issues. So the petition, all it asked for, and those might've been too much detail about aluminum, but the petition, all it asked for is said, hey, FDA, and if you read it, the ask was this.
Please confirm, please provide documents that confirm that the amount of aluminum adjuvant in the vial of these 10 childhood vaccines matches what's on the product label. And if you can't and you don't have that documentation and you can't show, then pause distribution until you do. Because that's a serious safety issue and efficacy issue.