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June 13, 2022 - Health Ranger - Mike Adams
50:32
Situation Update, June 13, 2022 - EXCLUSIVE: Shocking microscopy photos of fibrous clots extracted..
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Emergency Situation Update Podcast from Monday, June 13, 2022, my Mike Adams here.
Thank you for joining me.
And I've got two warnings right up front.
But first, this is bombshell world exclusive news with some microscopy photos that will completely blow your mind and are going to change the entire narrative about what's killing people.
Sudden adult death syndrome, so-called blood clots, vaccine-induced sudden death, like people who, quote, died suddenly.
You're going to see some shocking photos today.
In fact, I have to give you a warning.
Some of this is going to be graphic.
I spent the weekend doing staining and microscopy of a series of, well, so-called blood clots that were sent to me by a licensed embalmer.
These were pulled out of the blood vessels and arteries of people who had just recently died.
In some cases, their bodies still warm.
So these are in no way, these are not post-mortem blood congealing or rigor mortis type of things.
These are not normal clots of any kind.
In fact, the bombshell that I'm sharing with you today is that these are not blood clots.
What's killing people is not blood clots.
What's killing people are, and I've tried to come up with the best name, and I think, here it is.
They are engineered biostructures.
That's what they are.
They are engineered biostructures that are growing inside people's blood vessels.
And inside people's arteries, they're being found in the femoral arteries and they're being found in carotid arteries and in much smaller vessels.
And of course, there are microclots that are cutting off circulation to extremities in many people.
It's causing their fingers to turn black and fall off.
Well, I mean, typically they're surgically removed, but if not, they would fall off.
I mean, they're dead.
Total tissue necrosis.
Because of the blood clots.
And I have a whistleblower physician who's going to be joining me live on air today.
I'm hosting the full Alex Jones show all three hours at Infowars.com.
And that's going to start at 11 a.m.
Central.
And if all goes well, I will have my laboratory microscope set up there In the Infoware studios on Alex Jones' desk, actually doing live microscopy on the air to reproduce what you're about to see here.
Because people won't believe it unless they see me do it.
It's so unbelievably shocking.
But we're going to show you pictures here during this podcast.
And I want to give you a warning that some of these pictures are somewhat graphic.
Gross.
The first time that I picked up this vial of these blood clots, Yeah, I got really nauseous, you know?
But I overcame that, and now I've been working with these clots and staining them and doing microscopy and so on, and now I guess I'm used to it.
So, you know, I'm not crazy nauseated about looking at these, but you might be.
So I just want to say, if you want to look away and just listen to this podcast, that's fine because I'm going to describe some of what we're seeing, you know, verbally.
But if you want to see it, get ready.
This podcast is not going to be very long, and I encourage you to go to naturalnews.com, and you'll be able to see the article right there with all the photos that we're going to go through here.
And also tune in at InfoWars.com at 11 a.m.
Central to hear the full broadcast and see some of this happening, you know, live in real time from the studio.
But what I want to start with here is a photo of me holding a vial of the blood clots.
So what you're looking at right now are fibrous strands Inside, an alcohol preservation solution.
And that's me wearing the latex glove.
And what I'm trying to show you is what these look like before they are stained.
So they are kind of sort of blood vessel colored, but they are not blood vessels.
These are things that came out of blood vessels.
So these are the things that come out when you push embalming fluid through people's blood vessels and arteries.
This is what flushes out.
These are, again, engineered biostructures, and we're going to look at these here today at up to 1,500 magnification using this advanced digital laboratory microscope.
I mean, I don't know what they cost now, $80,000, $90,000, $100,000, whatever they are now.
That's the level of microscope that we're going to be using here to show you these images.
You're going to be shocked because what we're able to see resemble biocircuitry structures.
I don't know that that's what they are, but they resemble them visually.
They resemble, there's a nanowire that you're going to see here.
Well, nanowire structures with repeating patterns of some kind of scaling looks like scales, you know, like you might see on a reptile, but at a very, very tiny scale, you know, tiny size, I mean, like the nanoscale or the microscale.
And then you're going to see strange little chalky white particles that are adhering to the so-called clot structures, which again are engineered biostructures.
And then you're also going to see some crystalline-like structures look like tiny crystals that resist staining.
And you're going to see the fibrous strand-like structures that these biostructures are made of now Now, when I was handling these, I was noting their tensile strength.
And when you're handling these, of course, I only handle them with gloves and, you know, little forceps, medical tweezers and things like that.
These are incredibly strong and rubbery.
They act like small rubber bands.
So they're not fragile and they're absolutely not blood clots.
These are, again, engineered biostructures.
These are like tissues.
They act like almost the way little small blood vessels would act, but these are not blood vessels.
They're not hollow.
They're not designed to carry other blood inside them.
These are themselves solid structures, but they're very rubbery kind of.
They're very, very hard.
I mean, I should say durable, not hard, not fragile hard.
They're rubbery but durable.
Kind of like rubber bands.
That's a really good description.
Just think of small rubber bands.
They're not quite as strong as rubber bands.
If you pull these apart, they'll break sooner than you would break a rubber band.
But they have a similar kind of texture.
Now, these are being built in people's bodies.
These are existing inside people's blood vessels and arteries.
And And these come in all kinds of different sizes.
You know, when they start to be constructed, they're very small.
And these are called microclots.
And I have a physician whistleblower telling me that these clots are now becoming very common in emergency rooms and urgent care and so on.
And these clots do not at all respond to normal anti-clotting medicine because they are not blood clots.
So they treat patients with heparin or Coumadin or other anti-clotting agents, and yet the clots still persist.
And again, the reason why is because they are not blood clots.
So we've got to get away from this term that's been kind of circulated around alternative media where we talk about, oh, all the blood clots are happening and people are dying from blood clots or it's the clot shot.
Well, it turns out they're not blood clots.
These are not clots of blood cells.
This isn't congealed blood.
This isn't, you know, like an internal blood scab.
It's not like artificial blood clotting.
These are Complex, large-scale structures with repeating patterns in them that indicates genetic engineering.
That's what these are.
These are genetically engineered biostructures that are growing inside people's blood vessels and arteries.
And now, what I'm about to show you, well, yeah, what I'm about to show you, it's going to be shocking and gross.
Look away if you feel like you're going to be too shocked.
But I want to show you just the photo of a person's hand.
We're cropping out the person's face because we don't want to reveal the identity of the person.
This is a person's hand.
And the hand, the two fingers, the first finger and the middle finger, as you can see in this photo, are black and dead.
I mean, the tips of them are dead.
This is because of micro blood clots.
So these kinds...
Well, gosh, I'm using the term blood clots again.
I've got to break my own habit on that.
These are not blood clots.
Sorry.
These are some kind of clots.
But these clots have lodged in the little blood vessels that feed the two fingers on this person.
And they've jammed it up and this person is not getting blood supply to the fingertips.
And that's why these fingers are dying.
So these fingers are going to have to be amputated, you know, maybe at the first joint.
Or if it continues, you know, more higher up the fingers.
This is what's happening to people.
And you can also see this person's fourth finger and pinky finger are also not looking too good.
Because they're not getting blood flow.
Okay.
So these clots are blocking off blood flow to people's toes and fingers.
And there's a name for this in the medical establishment now.
It's called COVID toes or COVID fingers.
And of course, it's all blamed on COVID. But it's not COVID. It's the vaccine.
It's because the vaccine...
At least the mRNA vaccines, as best we know, are what's programming the body to generate, to engineer these biostructures, and these biostructures are getting lodged in these small blood vessels, and it's cutting off blood flow to the extremities.
Now, there's a name for this condition.
If you ask a doctor in the ER, they'll tell you, oh, well, that's known as peripheral vascular disease, or PVD, or peripheral arterial disease.
And, you know, so they give it that label.
They say, oh, yeah, it's a disease.
You have peripheral vascular disease.
You're not getting blood flow to the peripheral fingers and toes.
And you say, yeah, I know that.
That's why I'm here.
But what's the cause?
And they will never tell you, oh, well, the vaccine produced these biostructures that clog your blood vessels.
That's why you're not getting blood.
No, they will...
Amputate your fingers and toes.
And they will tell you, well, we don't really know what causes that.
Some people just have this disease.
So that's going on right now.
But people will get necrotic hands and feet because of these clots.
Now, these clots also raise blood pressure because your heart has to work a lot harder to push blood around these clots.
Understand that these clots possess some percentage of the The space inside your blood vessel or your artery.
And so the blood that's still flowing in your body has to flow around these clots, these biostructures.
And that means your blood pressure goes up because your blood has to work harder.
And when you have a very large clot, you can block an entire artery.
So some people have to have a femoral artery bypass, which is a surgical procedure that bypasses their entire femoral artery, which is a large artery on the inside of your leg.
And the largest artery in your body.
So what I want to show you next, and this is going to be pretty gross, actually.
I'm going to show you some of these so-called clots, whatever they are, being clots.
After they're pulled out of the body, okay?
So the first one I want to show you is the image entitled Clot from Body.
I know this is gross because there's still blood on it, but this clot was pulled out of a person's body, and you can see it's well-formed.
This is not a blood clot.
This is one of these biostructures, okay?
Now the next image is even more kind of gross and horrifying, so look away if you can't handle the sight of blood, okay?
I'll tell you when it's okay to look back, but look away from the video here.
I'm going to show you an image called multiple clots from the body.
And this shows multiple clots on a blue glove, an embalmer's glove.
These are multiple different clots that have been pulled out.
They haven't been washed off yet.
They're still bloody.
But these are very large, very intact biostructures that, again, are growing.
And I suppose, well, can we use the term living?
No, I don't know if we can use living.
I mean, they're existing.
They're growing.
They're expanding inside people's bodies.
It's, yeah, it's a biostructure that is expanding.
So, okay, I don't know if you want to call it alive or not, or just being kind of kept.
I don't know.
Let me show you the third one, which is super gross, and then we'll be done with these gross images.
The third one is named Large Carotid Clot and...
This came out of a person's carotid artery.
So as you can see from this, this biostructure is about the diameter of a human finger because the carotid artery is pretty big.
And in the person that this was pulled out of, the person who died, obviously, because if you have this in your carotid artery, you're probably not going to get much blood to your brain and you're going to die.
And that's what happened.
And then this was pulled out of the carotid, okay?
This should not be there, obviously.
I mean, the carotid artery should be nothing but blood flowing through it, right?
You should not have these structures in your carotid artery.
And in fact, anybody listening to this who is a doctor, if you're looking at this photo, you're probably shocked.
Like, how was this person even alive at all?
Well, I mean, they died.
So, yeah, they died because you probably can't live with this in your carotid artery.
And I guess this person must have had a real hard time even before they died and probably had a lot of brain fog and, you know, trouble thinking and so on.
And this is part of what's happening to...
Everybody who's, you know, vaccinated, they're having, you know, cognition loss because their blood flow to their brain is being slowly strangled by the existence of these engineered biostructures, okay?
So, all right, now stop showing that image to my editor.
You can take that image off the screen now, and I can tell people here, okay, it's okay to come back.
And now we're going to look at microscopy photos, which are not, you're not going to see blood anymore.
You're going to see microscopy of these clots, which is still kind of wicked, but it's not the same as the bloody images we just saw.
So it's okay to go ahead and look back at this now.
So I took those clots that you saw in the very first photo, the ones in the vial.
I took those and I stained them using a standard microscopy gram staining technique, which is usually used for bacteria and so on and single cell life forms.
But I found that it was actually quite useful to show contrast on these clots.
So I went ahead and used it, and one of them is a violet-colored stain, and then there's an iodine stain, and you're washing them with ethyl alcohol in between the staining.
So everything you're going to see from here forward, they have been stained.
The color is not natural.
The color that you saw in the first photo, that's the natural kind of raw color, which is kind of a pale, like a blood vessel type of color, a pale color.
Not quite pinkish, not quite gray, but somewhere in between.
But what you're going to see now, these are all stained.
And I'm going to walk you through these kind of quickly, but I want you to understand that you're seeing these at different magnifications.
So the least magnification that I use is 20X. And then the most magnification that I use is 1500X. But a lot of these images are lower than that.
You might see them at Well, typically it's 20x, 50, 100, 200, and then 500, sometimes 1,000, and very few are at 1,500.
I'm not going to tell you the magnification of every image here because it takes too much time, but you can see the list in my article if you want at naturalnews.com.
You'll see that article there, and you can see all the magnifications listed there.
So I'm going to take you through seven different series of structures here.
And again, I want you to understand that what you're about to see, every one of these are the same things that were in that vial.
And every single one of these came out of a human being, out of their blood vessels or arteries.
So you are not seeing blood vessel tissue.
I just want to be clear because some people looking at this, they're going to say, oh, those are the blood vessels.
Like, you must have cut out the blood vessels.
No, no, no.
That's not what this is.
These are not the blood vessels.
These came out of the blood vessels.
These were inside the blood vessels.
All right?
So you're going to look at these, you're going to say, that's crazy.
It looks like, you know, beef jerky or something.
How could that be inside the blood vessel?
Well, they're magnified here.
We're using a microscope.
They look huge.
And some of them are large, right?
All right, so the first one I'm showing you that there are crystalline-type structures.
So for all these images, folks, we're starting at 20x.
And for this, I want you to see this at 20x.
This is a clot structure.
This is a biostructure.
At 20x under the microscope.
And then we zoom in and we go to 50x and so on.
And I want to show you, you know, it looks like tree bark, right?
But the more we zoom in, when we get to 200x, you start to see that there are these seemingly translucent white crystalline type structures that are found on this.
And then at the highest resolution, it looks like a white crystal.
Now, what's strange about this is that This seemingly crystalline type structure, it resisted the staining.
So if this were biological tissue, it would have been stained the same color as all the surrounding tissue, which is stained violet and dark red iodine.
So it looks like kind of tree bark color.
But what are these structures that are not stainable?
There's a big question.
Now we're going to go on to the second set, which I've labeled 2-purple structure.
That's just a note to my editor.
And starting out, you can see that it's a very complex, very fibrous type of structure as we're looking at it at 20x.
And then as we zoom in...
More and more, you're seeing more details of these fibers and the texture.
And by the way, note that these are not blood clots.
These are very complex, very large-scale biostructures that are obviously made of billions of proteins, right?
I mean, these are not standalone spike proteins.
These are, I don't know how many orders of magnitude larger than that, but it's probably...
Maybe six orders of magnitude large.
These are much, much larger.
This is not electron microscopy.
I mean, we're looking at this stuff between 20x and about 1000x.
And as we continue to zoom in, you'll notice there are a lot more particles that are visible.
And then at the highest resolution, you can see the kind of white dots and whitish-type structures.
That are part of this particular clot slash biostructure.
And I can assure you none of this is supposed to be in your carotid artery.
Okay, now we're going to folder three, which I've labeled crystals.
Starting at 20x, once again, this is a violet stained biostructure.
And as we zoom in more and more, you'll notice there is a kind of crystalline shaped and Seemingly translucent type of structure that's attached to the outside edge of this biostructure.
And then at the highest magnification, which is very hard to see because we have depth of field limitations at 1000x, that's just due to optics.
It's hard to see this, but it looks like some kind of crystalline structure that is laying against the bark-like edge of the overall clot biostructure.
All right, so that's Very bizarre.
All right.
Now, folder four, we're going into the fibrous nature of these structures.
We'll start at 20X. And this sample I stained only with iodine.
So that's why it's not purple colored.
It's just iodine colored.
And when you're looking at this, you might think, my gosh, that looks like, you know, a piece of dried chicken jerky or something.
Yeah.
And that's the shocker here is because this came out of somebody's blood vessel.
This is not a piece of chicken jerky.
And as we zoom in, you'll notice that it's very fibrous and very organized, and there are many different structures that have been built as part of this.
this.
This is obviously a very complex biostructure, almost as if the body is building muscle tissue or some other kind of living tissue, right?
I mean, you could almost say, although I'm not saying that that's what this is, but you could almost say, well, the body must be building some other kind of body inside its existing blood vessels.
You know how cancer tumor is kind of the body trying to build another whole body inside your body?
And that's why cancer tumors sometimes have teeth and hair.
Did you know that?
And of course they have blood vessels and so on, and that's how they feed themselves.
Well, this appears to be something similar to that.
And it makes you wonder, how do these tissues sustain themselves?
How are they getting blood supply?
I mean, do they have internal vascular structure themselves?
I'm not sure.
We don't know yet.
Okay, the folder number five is now showing you what I'm calling a silicon-like structure.
Now, we start at 20x, and you can't really see it here, but it's a black mass in the center of this.
And as we zoom in, we get closer and closer, you'll see this kind of black mass Quartz-like structure.
I'm calling it kind of like a biocircuitry or a mini microchip type of structure.
I'm not saying it's actually bioelectronics or a microchip.
It's just that it resembles that visually.
I don't know what this is, but isn't it odd that it's a different color than everything else, even though I stained all this with iodine?
And why does it have this kind of Seemingly organized, almost a crystalline-type structure.
What is this thing?
What's it doing attached to the side of this clot?
And what's this clot doing inside the blood vessel?
All right, so that's super freaky.
Shouldn't be there, obviously.
Okay, folder six, I'm calling it chalky because the embalmer tells me that some of the blood that comes out of people...
Post-vaccine appears to the naked eye to have chalky-like particles or substances in it.
It's chalk-like.
So we're going to start out at 20x here on this chalky substance.
Well, you can't see the chalk yet, but as we zoom in, you'll notice that there are more and more whitish-looking particles.
These are the chalk-like particles.
And at the highest resolution...
You'll notice that they are very...
They're white.
They resisted the staining, obviously.
For some reason, they do not stain.
And they appear to be something that is not biotissue.
I mean, if you were looking at this and you didn't know what it was, you would say maybe that's a polymer.
Maybe that's like white plastic bits or something.
Or white crystal bits or something.
But it's clearly not normal tissue.
And again, it resisted the staining.
And you can see that the staining is very effective because it has stained all the other tissue around it, you know, very deeply.
That's why it all looks dark purple.
Okay.
And then the final folder I'm calling nanowires.
Let's start at 20x.
And this one's going to freak you out.
Prepare to be freaked.
Okay.
So we start out and you notice that there is something that looks like a wire or a hair coming out of this mass that looks like a biostructure.
Now, again, I want to urge you to understand, you might think that this is like chicken jerky or something.
It is not chicken jerky.
This came out of a human being's blood vessels.
And whatever this Wire thing is, that should not be in your blood, okay?
So let's zoom in on this and take a closer look at what's going on with this.
So as you zoom in, first you notice that there are repeating segments inside this structure, or it seems like it's on the inside.
So there are definite repeating patterns inside.
And I'm looking at about the 200X right now, and you can see there are segments that repeat.
And you're like, whoa, what is this?
Because this is not what a human hair looks like.
So this is not hair.
I'm not sure what this is, but we zoom in more.
We get to the 500X. You'll notice that it looks like there are scales, kind of like...
What you might expect on a reptile, let's say reptilian scale patterns.
You can kind of see them on the outside edge.
There's definitely a repeating pattern of a kind of, I don't know, cellular scale type of pattern.
I don't know what to call it.
And then as we zoom in even more, and I want to go to the, let me see if I can get you to the right photo here.
Let's go to the 1000x.
The first 1000x.
And there you can see the scales even better.
And you see they show up as kind of bright lines.
Kind of midway through this wire or fiber, whatever it is.
And you notice these are not normal things.
This is not a human-looking thing, for sure.
And then if you go to 1000X-2, something I want you to notice here that is super freaky.
I want you to notice along the top...
Of this wire.
Along the top, especially on the right-hand half, you'll notice these structures that have little nanowires going vertical.
They almost look like little, let's say, little sperms or something that are oriented vertically.
I'm not saying they're sperm.
They're not sperm.
They just sort of look like, because they have like a tail, right?
And these resemble what would be a biocircuitry interface.
Because if you use the same microscope and you look at circuit boards, the fine structures of the circuitry interfaces between microchips look almost exactly like this.
So these appear to be biocircuitry interface repeating patterns.
I'm not saying that that's exactly what they are because this is the first time I've seen this.
I'm just describing what they resemble.
I don't know what they are.
I'm not sure what their function is.
But I can tell you these are not blood clots.
Okay?
100% not blood clots.
All right.
Then finally, we go to 1500X magnification.
And it took me a while to get this image because this is very...
At this magnification, the light is all wonky, things tend to get kind of dim, and the focus is almost impossible.
So you might look at this and say, oh gosh, that's blurry.
Well, that's the best focus that probably anybody could get.
And when you're looking at this, I mean, what are you seeing now?
You're seeing all these vertical, can I call them like biocircuitry type of pathways?
Yeah.
Near the top of this structure and then you're seeing, of course, the horizontal segmentation that appears to be, you know, something carried in the center of this.
And then in the bottom section, you're seeing this repeating kind of scaling pattern.
And this does not belong in your circulatory system whatsoever.
And remember, this is all part of a wire type of structure.
And now I have these images in much more high resolution than you do.
I think I have these at like 1600 pixels wide.
So what you're seeing in this video is not nearly as sharp as what I can see when I'm zooming in.
Like, I can actually take the high-res image and I can zoom in a little more just in a photo viewer.
And when I do that, man, what I'm seeing from these, it doesn't look human to me.
These don't look human at all.
This looks like some kind of...
Genetically engineered biocircuitry interface structure.
That's what it looks like to me.
I can't tell you for sure that's what it is, but that's what it looks like.
Okay, so you can take a guess at what it is, too.
It doesn't appear human.
So those are all the images I have to show you from the microscopy.
Now, I'm hosting Infowars.com today, the whole Alex Jones show, because he's on vacation.
Although I'm wondering if he's going to call in when he starts seeing this stuff.
Who knows?
He might call in.
I mean, it's his show.
He can call in any time he wants.
It's like, phone lines are open.
Who is this?
This is Alex.
Oh, we'll let you in.
It's your show.
But he's going to flip out when he sees these.
Everybody's going to flip out.
Everybody's going to lose their minds.
Now, if I have my microscope running well, if it all works well in the studio, I might do some...
Well, I plan to do some other live microscopy.
So we can show you.
We can take these strands right...
Like off the slides and put them in and look at them in real time and kind of maneuver around.
We can change the angle because the microscope actually tilts.
We can actually take a tilt angle.
You can see it all happening in real time.
That's my plan to do that.
So, if you want to check that out, just tune in.
Infowars.com and find the live stream.
Or maybe it's on band.video.
In fact, I'm pretty sure it is.
And there are a couple other URLs they use.
But I'm also going to be doing a lot more microscopy all this week.
And I'm going to be posting more images on naturalnews.com.
And also covering it here on this podcast, because there are a lot of details I have not shared with you yet that are mind-blowing.
You should consider that what you've just seen is just the first round.
This is just the opening round of what is yet to come.
Because I've got vials of clots I haven't even opened yet, okay?
Just say it.
Oh, man.
Some of them are much larger.
And some of them are kind of freaking me out.
So here's the takeaway from all of this.
Let me see if I can summarize this.
Number one, people are walking around with these structures in their blood vessels right now all the time.
People probably that you know.
Number two, these structures are getting larger over time.
They're growing.
They're being constructed.
Number three, they are not blood clots.
These are engineered biostructures that are being built inside people's bodies.
Number four, when they get large enough, they block an entire artery.
They can kill people or they can cause heart attacks, strokes, or what peripheral vascular disease, you know, necrotic tissue.
They can cut off circulation to your fingers and your fingers turn black.
They can cut off circulation to your toes.
Your toes turn black.
They cut off circulation to your head.
You die.
Or they can cut off circulation to, you know, your lungs and then you also die.
I mean, these clots can appear almost anywhere.
They can appear in the heart, in the lungs.
They can appear in the, you know, auxiliary arteries, brachial, carotid, femoral, everywhere.
Even in the brain.
And then you have a brain stroke or a brain clot, you know.
And these are, again, these are highly complex, very, very large structures in terms of, if you're thinking about the scale of a virus or the scale of even a protein or a spike protein, these are orders of magnitude larger.
These are visible with a naked eye.
I mean, you can just pull them out and see them.
As we showed you the photos, there they are on the guy's glove, you know, that kind of thing.
They're huge.
Some of these are as big as your fingers.
They're huge.
And there doesn't appear to be any way to eliminate these that we know of yet.
Now, just as an experiment, just, I mean, I was in a hurry, but I did it anyway.
I just took a capsule of natokinase and And I took another capsule of serrapeptase.
Because these are enzymes that are known to dissolve clots and things.
And I put some of these clots in two different vials.
I put a capsule of natokinase in one vial and a capsule of seropeptase in another vial just with water.
Nothing complex.
And I'm just slowly agitating these.
And I'm going to see whether just the presence of natokinase might sort of dissolve or shred these clots in a vial.
And it's too early.
I mean, the last time I checked, a couple hours ago, there was no effect.
But give it some time.
And these vials are not, by the way, at body temperature.
They're just at room temperature.
So they're kind of, you know, very chilly compared to the body temperature.
That would probably make a difference.
But anyway, I just started that experiment just as a very kind of precursor experiment to see if there's any, you know, applicability of these known enzymes that are known to, you know, rip apart blood clots.
But hey, they might work.
They might not work.
I don't know.
As far as other things, nobody, to my knowledge, nobody yet knows what tears these things apart.
Now, I know there are many things that work against normal blood clots, right?
Like natokinase or heparin, you know, prescription drugs, coumadin and so on.
Or you could even say like fish oils and things like that might thin the blood or aspirin, whatever, you know, right?
There's a lot of things that are known as blood thinners.
But these are not blood clots.
So you've got to get out of your mind.
The whole category of things that normally thin the blood, like aspirin, they do not appear to work on these biostructures.
Because again, they're not made of just blood cells.
Something totally different.
And part of this kind of reminds me of, you know, the movie Alien.
I'm not saying these are aliens, so don't attribute that to me.
I'm not saying that these were being invaded by alien lifeforms.
I'm just saying that it reminds me of the movie Alien because there was another being growing inside the person's body.
And then in the science fiction depiction, it exploded out from the chest.
And then...
And they had the facehuggers and everything.
And actually, these blood clot things...
Well, again, not blood clots.
These clot structures, they kind of remind me of the facehuggers because they're kind of tentacle-laden.
It's hard to describe, but what I've shown you under the microscope here, these are like single pieces that have been kind of ripped apart because some of these are large...
Like, tentacle-shaped masses of clots.
And I couldn't put the whole dang clot on a single slide.
So I kind of ripped off one of the little pieces of the clot, and that's what you're looking at.
And even that took all day to do all those microscope photos.
It was kind of a time-consuming deal.
But I barely looked at just a small percentage of these clots, because, you know, under the microscope, it's a lot of territory.
But some of these appear to have like multiple branches.
And obviously these are probably going down all the little blood vessels and capillaries.
So whatever's growing inside people's bodies is branching into their entire circulatory system.
It's growing kind of with the flow of the blood.
And that's freaky.
And that's what reminds me of aliens.
Yeah.
Oh my gosh.
If I'm under the microscope looking at this and I see little teeth and a face or something, I'm going to lose it.
I'm going to freaking lose it.
I don't expect to see that.
And I'm not saying that that's what this is.
I'm just saying in the most horrific scenario possible, like a nightmare, bad dream scenario, I'm looking at a giant clot under the microscope, and I slide the slide over a little bit, and it's like, oh my God, there's teeth!
You know, if I see that, I'm losing it.
But thank God I'm not seeing that, and I don't expect to see that.
I'm just saying, if I see that, I'm going to grab a Bible and start praying, I swear.
Because I was like, oh my God.
But fortunately, we have not seen that yet, and I hope we do not see that.
But what we are seeing is freaky enough.
It's freaky enough.
None of it belongs in your circulatory system.
We should not see this.
We should only see blood.
I mean, if you look at blood, and this microscope, by the way, is perfectly capable of imaging blood.
I've done it before.
You can see individual blood cells.
You can see blood plasma.
You can see sometimes stuff in the blood, like little tiny particles and things, but not giant biostructures.
That are taking up the space of the blood vessel.
No, you should not see that.
So this, based on what I know, this is what's killing people.
Whatever this is.
Now here's a freaky question.
We don't know what dissolves these things.
We don't know what stops them from growing.
We believe they grow in people who have been vaccinated.
I mean, that's very clear.
Is it possible that these structures could grow in people who were shed on by people who were vaccinated?
So you see what I'm saying?
When somebody gets vaccinated and then they're shedding whatever nanoparticles or mRNA particles are in this vaccine, is it possible that somebody else near them could take on some of those mRNA instructions and that their body could start building these structures?
Is that possible?
I don't know and I hope not.
Because if that's the case, we're really doomed.
And frankly, I think that the people who took the mRNA are doomed.
Because they may be walking around right now with these biostructures in their cardiovascular system and not know it.
But the clock is ticking on their eventual death based on this.
And that day is just a matter of time because of the size of these biostructures.
Now, remember, I have said that I believe you can spot these with an MRI. So, you know, technically, you could maybe go to the hospital and pay for an MRI. Although if you talk about this, they're going to think you're crazy.
Because they don't yet know this information.
Because as usual, you know, the medical doctors are far behind reality.
They don't know this stuff yet.
Most of them don't.
I mean, a few do.
But if you go in and you say, oh my God, I think I have, you know, biostructures growing in my arteries and I need to do an MRI, they're going to probably send you to the psychiatric ward for a 48-hour observation hold.
So I don't recommend that you do that.
Maybe you need a better excuse, you know?
Maybe...
You need to say that, oh, maybe in your family there's a history of arterial blockage and you've started to feel some symptoms of lethargy or more exhaustion from walking, exertion, and you feel like you might have blockage in your arteries and you want to know if that can be checked.
That would be a more reasonable type of thing to say to a conventional doctor.
And then they might recommend maybe...
You know, a heart test, maybe an MRI. I don't know.
Depends on your doctor.
Depends on your insurance.
Maybe you want to pay cash for it.
I don't know.
I'm just throwing out some ideas.
If you want to get checked, at least at this point, like if you do an MRI to check for arterial blockage, and then the MRI comes back with a partial blockage, let's say it's like a 50% blockage, then at least you know what's going on.
Even if your doctor doesn't know, he probably thinks it's like cholesterol buildup, probably tell you to stop eating eggs and butter, which is horrible advice.
But at least you'll get some kind of diagnosis out of that.
And your doctor probably put you on statin drugs, which are probably completely useless to treat this situation here.
But perhaps we're going to learn some other things that will work.
In fact, I'm optimistic that we will.
I'm optimistic that those of us in alternative and natural medicine, now that we know what this problem is, I think we'll be able to find some solutions.
And in fact, again, I've already started doing a little impromptu test with natokinase and seropeptase just to see what happens.
And if one of those works, then I'll do a more proper test.
You know, like something that simulates blood plasma and simulates body temperature and so on.
We'll see what happens there.
But at least we're starting to do something.
And other people can have, obviously, other suggestions and maybe...
I mean, I don't know.
Does chlorine dioxide do anything to this?
I know it destroys spike protein.
Does it work for this stuff?
I don't know.
Personally, I kind of doubt it because these are such hard, kind of rubbery structures, you know?
I mean, everything is worth testing, as far as I'm concerned.
I mean, everything that can be tested safely, obviously.
And I don't mean to test your own body, like try every test on yourself.
I mean, we should be able to take these clots and And try them, you know, outside the body, test them with all kinds of different substances and just see if something begins to show some promise.
And from there, perhaps we could move into more detailed testing and eventually if it's a safe, you know, nutrient or supplement or drug or something, maybe there could be testing done with the consent of human beings who want to be tested and so on.
Maybe there could be a whole new, you know, clinical trial that comes out of this, right?
But we're not there yet.
We're far from that.
Right now we're at the stage of just realizing how crazy this problem is and that this is why people are dying.
It seems so.
So that's my wrap-up for this today.
I promise to keep this much shorter.
I've got to prep for the show in a few hours anyway, the live broadcast.
I want to encourage you, share this podcast with everyone who you think may benefit from this.
This could be life-saving.
This could be world-changing.
We obviously need to halt all mRNA vaccines immediately because if we don't, Quite literally, billions of people could die.
And we may already be at the point that billions die.
But perhaps there's a treatment that could reverse all this.
But I don't think Fauci is going to approve funding for that for some reason, right?
Very unlikely.
But share this podcast.
Tell people about brighttown.com.
Tell people about naturalnews.com.
Show them the photos.
This is also going to be posted on many other websites such as medicine.news, vaccines.news, What else?
Health.news, I believe, and a bunch of others.
You'll see it there, too, if you want to share one of those URLs instead of a natural news URL. That's fine.
Also, tell people about the Infowars.com broadcast.
It's the full Alex Jones show.
I'll be hosting the entire thing.
And if you miss the show live, you can always catch the show.
The archive version will be on band.video, which is the Infowars video platform.
Or you'll be able to catch it on brighttown.com, which is a platform that my company built.
And you'll be able to share videos from both of those platforms.
This is hugely important.
So spread the word.
And if you know anybody that's having symptoms that might be associated with this, such as tingling, numbness, or pain in extremities, especially when they begin to walk or exercise, that's when they experience those symptoms.
That is a very strong indicator of blockage of blood vessels.
And this is what Eric Clapton, I think, had following vaccines, but for whatever reason, he was able to conquer it.
It went away for him.
So we need to figure out how it goes away.
And are there answers that could save lives?
That's the quest here.
So thank you for listening today.
I'm Mike Adams, of course, the health ranger, publisher of naturalnews.com, founder of brightown.com, and also a published lab scientist.
And that's how I know how to do all this stuff with the staining and the microscopy and all that stuff.
But there's a lot more coming.
So stay tuned this week.
It's going to be a bombshell.
Oh, and I've got Dr.
Jane Ruby as my guest, too, on today on Infowars.com, so don't miss that.
Dr.
Jane Ruby will be commenting on all of this.
Thank you for listening.
Take care.
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