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July 27, 2022 - Health Ranger - Mike Adams
36:23
Dr. Jane Ruby and the Health Ranger reveal post-vaccine CLOT MYSTERIES with new lab results
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Welcome to the Health Ranger Report on Brighttown.TV.
I'm Mike Adams, the Health Ranger reporter.
Today we're joined by one of our BrightTown hosts and just an amazing individual who has spearheaded a lot of the investigations into what's going on with these clots and the post-vaccine problems in people, Dr.
Jane Ruby.
You've seen her videos all over the internet, all over Brighton.
She joins us today.
Now, she joined me a few weeks ago when I was hosting InfoWars and we had the microscope there and we were dissecting these mysterious clots.
Well, we've done additional lab tests since then and we're going to share those results with you publicly together with Dr.
Jane Ruby.
So this is a show that you absolutely do not want to miss as we try to unravel this mystery of the clots that appear to be killing people.
So stay with us.
We'll be right back after this break with Dr.
Jane Ruby right here on Brighteon.tv.
This is a show that you absolutely do not want to miss.
Stay with us.
All right, we're back, folks, with Dr.
Jane Ruby.
Welcome to the show, Dr.
Ruby.
It's awesome to have you back on.
We've got a lot to cover today.
Yes, we sure do.
Thanks for having me back, Mike.
Oh, absolutely.
It's an honor and a pleasure to have you on.
You know, people really appreciate your work.
You're one of the most courageous and informative people.
And the work that you do with Stu Peters also on his show as a frequent guest is truly amazing.
Please give all of our thumbs up to Stu for his work.
He's also a treasure for humanity.
And, you know, the two of you together are just doing amazing work.
So thank you.
Well, thank you so much.
It's a daily grind and we just want to get the truth out because we have no media otherwise to do so.
Yeah, that's right.
We really don't.
So let's jump into what we have here today because it's mind-blowing.
And I know you've been interviewing other guests that have other experts who've been looking at these mysterious clots and We're going to jump into some lab results.
We did an ICP-MS mass spec analysis at our laboratory.
We also did a nitric acid digestion test, and we're going to show people that video.
We're going to get your reaction to that.
But before we get to both of those things, do you have any major updates or revelations from your recent guests that you've had on that you want to share with us up front?
Well, I have heard from a second embalmer in addition to Mr.
Hirschman.
I mean, I want to make it clear that I've been speaking with numerous embalmers who have been corroborating his work by description, but they're very, very afraid, frightened to come forward.
They're afraid for their lives, not their jobs, they've told me.
But there is one in particular that came It's a woman somewhere in the United States, woman embalmer certified, board certified, and she showed me countless photos over time.
She's been cataloging her own work, like Mr.
Mr. Hirschman does.
And there are some stunningly grotesque white clots with pieces of blood clots hanging off of them, almost identical to what Mr. Hirschman's found.
So we know that this is ubiquitous and it's probably happening all over the world, Mike.
So I just wanted to update people on that.
And in the last few weeks since we did that show on Infowars, we've seen many more young athletes die.
Football stars, basketball stars, you know, soccer stars, dying and just out jogging.
That seems to be a common thing.
They're out jogging and they die and they're in their 30s or sometimes 20s or 40s.
But a lot of people dying in their 30s, doesn't it make sense that these clots are responsible for that?
Yeah, there are many things that could be responsible for it.
I mean, there are many doctors, countless names to name, that have come forward and looked at the blood of people who have taken these shots.
There are just huge amounts of blood clotting, graphene that's been validated on spectroscopy, all kinds of objects, circuitry.
So we know this isn't like a one-off and this isn't a conspiracy theory.
And in fact, I just recently interviewed Dr. Philippe Van Welbergen from the UK.
He, in a startling finding just in the last few days, has discovered that these objects, although not to the same degree or concentration, are found in the blood of his unjabbed patients who are still coming in saying, I don't feel well.
They're not quite putting it together with...
The shedding phenomenon, but he said, Dr.
Jane, shedding is real.
I have validated shedding, and we know that it's not just these objects, the graphene objects, but Mike, there is profound blood clotting occurring.
People can live a long time with blood clotting, especially at the micro level, but that's why you're tired.
That's why you can't go up a flight of stairs.
That's why you're 30 years old and dropping, passing out on a soccer field.
I'm incensed as a medical professional to hear the term, you know, sudden adult death syndrome.
I mean, if I murder somebody, well, you've just had sudden adult death syndrome.
I mean, it's absurd.
It's insulting to our intelligence that they're using these phrases to cover up for what is obviously from the jab.
But the bigger concern, Mike, is that people who've taken these shots and taken multiple versions of them and boosters are now transferring a lot of this material to the rest of us who haven't taken these shots.
That is highly, highly disturbing.
Okay, so let's jump into some of the findings that we have from our lab and I'd like to get your reaction now.
I believe you've seen the video of the nitric acid digestion, correct?
Yes, I have, and it is very startling.
So folks, what you're watching is a vial containing one of these clots that was sent to me by Richard Hirschman.
This was extracted from a person who died, in this case, post-vaccine.
And the nitric acid, we're using 10 milliliters of nitric acid for digestion preparation for the ICP-MS laboratory test results.
We do this all the time with food samples.
But what you're watching is that when the nitric acid is added to this vial, it begins popping It is an exothermic reaction that's very strong.
It's producing a tremendous amount of heat, and it's off-gassing this nitric acid gas, which is showing that there's a very strong, powerful reaction happening.
And this reaction never happens with human blood.
That's the important point, because we've also tested human blood.
We don't get this kind of reaction.
This reaction never happens with dog food.
It doesn't happen with chicken meat.
Nothing like that.
There's something highly unusual about this that's causing this kind of sparking, popping, fiery type of reaction.
Dr.
Ruby, what's your take on what we're seeing here?
Well, it's shocking.
It's absolutely shocking.
It's aggressive.
It's explosive.
I'm wondering, Mike, if you know this, are there any elements that you know of that react this violently with the nitric acid?
Anything we could tie it to.
It wouldn't come down to just the elemental composition, but rather how quickly the molecule could be oxidized based on its chemical charges.
So whatever is in this clot is rapidly inviting oxidation.
It's combustible then.
Yeah, I mean, it's almost, I thought this was going to burst into flames or something.
It didn't, but we've not seen anything like this before.
Not in the realm of food, which includes meats.
So this isn't just flesh.
And it's obviously, the other thing is, it's not blood vessel tissue.
Yes, because we've had a lot of people speculate, Mike, which I've tried to discourage, honestly.
To me as a scientist, it's annoying, to be honest with you, because if I'm waiting for an analysis to complete, you can't just look at something in social media and say, well, it looks like it's just another type of clot, or it looks like X, X, Y, or Z.
And I've said to people over and over again, until you have had the opportunity to get through, and I know you have multiple steps that you're going through, the chemical analysis is far more complex than the microscopy.
But I've said to people, please wait, let him get through this, get through the bulk of it, because anything else is speculation up until then.
So, but I think this is going to be interesting for people to see the combustion.
This is, there's something in these clots that is explosive when it hits the, and the acid hits it.
And Yes, yes.
The poisonous thing.
The other thing to point out here is that after that nitric acid digestion, whatever oxidized rapidly, is now gone and it created these dark striations in that clot and one of the next things I'm going to do and I'd really like to bring you back on to comment as we do this is I'm going to put this post nitric acid digested clot sample under the microscope and examine these striations because what this shows
us Dr.
Ruby is that the material of this clot is not homogeneous Because parts of it, striations, have oxidized away and it left behind something else that was resistant to the nitric acid.
That's bizarre.
That's equally as horrific to me.
And the fact that it's like a gooey striation, correct?
It's kind of like rubber band material.
I wouldn't call it gooey, but almost spaghetti-like.
Well, it's interesting you say that.
I just want to tie things together because several months ago when Dr.
Zandre Botha of South Africa, who's a naturopath but also a microscopy expert, she diagnoses through microscopy in the blood, you know, she had been given a vial of either Moderna or Pfizer.
And after she examined it, she left it on the plate for a few days and it dried.
When she went back to look at it, it was something very similar to what you've just described, these striations.
So you're right.
It becomes very different under different conditions, temperatures, dry, wet.
So we're getting more pieces to the puzzle.
You're exactly right.
And I'll just say to our audience that you and I both, Dr.
Ruby, we don't yet know what this is, but we are step-by-step eliminating what it isn't.
So, I mean, this is a scientific process.
This is how you do it.
So, let's move on to the next step of the science that we conducted.
And I've shared these results with you in those PDFs.
We're going to make this public also in an article on naturalnews.com.
So, you can all see these results.
So, this is after we ran the digestion on these samples.
A different sample, but from the same collection.
We ran it through the ICP-MS instrument, which is an elemental analysis instrument, mass spec, uses a plasma torch, tears apart all the molecules, and then it counts the individual elements.
And we use both a full quant scan and a semi-quant scan.
For those of you who are technical, just letting you know there's two different types of scans that we use to assemble this information.
Now, The results, and this is where I want your thoughts, Dr.
Ruby, is we found that the elemental analysis of the magnesium, the potassium, the iron, copper, zinc, aluminum, and so on, shows that these clots are not only absolutely not made of blood...
But that they attracted certain types of elements, such as tin and sodium and aluminum, more than what blood would have.
So what are your thoughts on that, Dr.
Ruby?
Well, that's stunning to me in terms of gathering metals.
And again, I am also speculating, but I'm speculating off of the findings that you've put together so far.
So I'm really concerned that...
I think we've had a sense for quite a while now, and Mr.
Hirschman and I have discussed this, that these things, these clots, whatever these things are, they are able to enlarge themselves, obviously in the human body, because they don't start out as large as some of the ones he eventually pulls out.
But that they're actually, you know, he has said, I have the sense that they're feeding off of, there's always a blood clot on the end of these white clots, almost as if, and these are his words, it's feeding off of that.
So there are natural metals in our blood, right?
I'm sure you can attest to that.
Gold and, you know, things like that.
Absolutely.
Like lead, carb.
Yes, there's lead and cadmium in everybody's blood, trace amounts.
Sure.
And it's almost like these structures are programmed.
Dr.
Van Welbergen said he literally watched.
He's got videos he's going to show us eventually, but he watched under the microscope.
These structures pull graphene from another part of the blood.
It's almost like it's got a magnetism and then pulls it into itself so that it can enlarge.
I want to give you another piece of information that's great.
Could be a part of this or not, but Mr.
Hirschman several weeks ago said to me that he went back to his lab refrigerator to put some additional samples in, and he said that there were several baggies where He had to look twice and he thought that they were bigger.
And so he turned to his wife who helps him in the lab and he said, am I crazy or are these enlarged?
So I asked him, I try to qualify it with him.
What do you mean enlarged?
Like, are we talking 10, 20%?
He said, no.
He said, Dr.
Ruby, they're like two to three times larger.
And I said, well, what kind of timeframe are we talking about?
And he said several days.
And Mike, these particular samples were in formulin.
So the formula is not, which is a preservative for the audience's sake, this formula is not discouraging the growth.
It's not stopping it.
So this information, I think Dr.
Van Welbergen said that there's an intelligence.
There's an intelligence to this graphene.
It has a mission, and it seems to be working when it's viewed under the microscope.
So first of all, you're freaking everybody out a little bit with that.
I'm telling you what they said.
I know, I know, but there's going to be a lot of skepticism about this idea that it can grow in preservative or that it has a sentient type of behavioral goal.
Now, before we even go to that place, let me back up just a little bit, and I apologize if I'm being too blunt here, but What we know for sure is that this is a self-assembling mechanism.
We know for sure that it is either attracting or harvesting certain elements out of the blood.
That's 100%, okay?
So from the ICP-MS lab results, we know, for example, the concentration of carbon elements in these clots is 152,000 parts per million, which is more than the concentration of carbon in human blood.
So for whatever reason, this is a carbon-rich structure.
Now, and we can also point to, for example, prions.
Prions are non-living, self-assembling folded proteins that can appear to grow because they're affecting the folding of the proteins next to them, right?
So there can be non-living structures that are self-assembling and that increase in size.
Would you agree with that?
Yes, yes.
And they, you know, Dr.
Van Welbergen witnessed it under his microscope.
So these are not speculations.
These are observations, right?
And we've seen...
Other videos in social media where these graphene, these small little round graphene pieces kind of have a self-magnetic force with each other.
And if you put them all in a Petri dish, they sort of eventually roll around and attract and they become one piece.
So there's this sort of propensity of graphene to do that.
Now, I don't know if this is an extension of the experiment to get this into as many people as possible and see what happens.
And then the deaths and the injuries are collateral damage.
I don't know.
Again, we have these pieces that they don't fit together yet, but they certainly are coming together and they look like they're related.
You're exactly right, Dr.
Ruby.
And for the audience, graphene is primarily made of carbon.
And so carbon is what we're seeing in a higher concentration in the clots compared to human blood.
Now, let me mention some of the other elements that came out of the ICP-MS test.
And folks, remember, we are ISO-accredited ICP-MS. Our laboratory is ISO-accredited.
We are audited and inspected, and we pass proficiency tests, and our results can be entered in a court of law and accepted as evidence everywhere around the world because it's ISO. It's an international standard, okay?
And we do this every day with food and water and other things, so these results are accurate.
But It also shows the clot accumulated a little bit higher level of aluminum, a higher level, about 50% higher level of sodium, and almost 400% higher, or no, more than that, like six or seven times higher levels of tin.
And then phosphorus.
Right, at least.
And so what strikes me is that many of these elements I just mentioned are conductive.
Like tin is used in soldering circuits.
What do you make of that?
Yeah, well, that jumped out at me.
It looks, like you said, seven or eight maybe.
I mean, I'm not good at math here for the instant multiplying.
But yeah, the tin jumps out at me.
And what is tin doing in an object in the body?
It'd be interesting to look at the vials of Moderna and Pfizer, for example, to see and now go back and measure it for tint.
The problem with that, Mike, is that these diabolical designers, whether it's the pharmaceutical companies or the DOD above them, whatever it is, they know this, right?
They've put this in here for reasons that we haven't quite figured out yet.
But that's probably the primary thing that comes up for me too, conduct.
Conductivity in the tin.
You have a lot of positive electrolytes here.
Again, the contrast, rather, between the blood, human blood, and this clot, this white clot.
A couple of other things really jump out at me.
Some of these electrolytes are very, very low in the clot.
But the metals are very high, relatively speaking.
They're relatively higher in the clot.
I'm glad you pointed that out.
So magnesium is very low in the clots, but very high in blood.
So in the clot, the magnesium level is, what, 20 times lower, something like that.
So, clearly, these are not just blood clots.
Clearly.
And the same thing is true with potassium and iron.
So, in normal human blood here, the iron came in at 462 parts per million.
But in this clot, it was only 20.6 parts per million.
That's a massive difference.
That's over 20 times difference.
So, you know, anybody looking at this would have to ask questions.
Why is this clot structure...
Seemingly self-assembling and accumulating the metals that it wants, tin, aluminum, sodium, but avoiding accumulation of the elements that it does not want, such as magnesium.
Yeah, you've actually done an excellent job of establishing, I would say, that these white fibrous clots are not blood clots, first of all.
We know they don't look like it and they don't act like it, but I think it was important to chemically establish that.
The thing I would ask is, do you still feel, or do you feel that this part of the analysis still, I guess, confirms that this is not a living thing?
In the sense that it's an extension of a blood vessel, or that it's, you know, when you say animal, mineral, or vegetable.
So it's not an animal.
I would say that's still undetermined.
I'm looking forward to the microscopy dissection, and my expectation is that we're going to find that this is not its own unique organism, that it does not have internal organelles and its own internal metabolism, but rather somehow it may be some exotic Now, do you put that, I mean, modern science would say that's how viruses work.
You know, right?
So it's like a parasite that doesn't have its own circulatory system, let's say.
Right.
But what is it?
Yeah.
I want to call everybody's memory back to your microscopy analysis a few weeks ago, because when you got down to 1,500 times magnification, remember, I don't know if people remember, but you took a very small piece of the famous clot That Mr.
Hirschman gave you.
And you got it down to where it was still like a piece of some kind of material.
I don't know if I should call it flesh.
But then there was this wire that kind of came through.
But then you took the wire down by magnification.
And there appeared to be...
Remember the hairs on the top?
That's right.
I believe it was 500 times magnification.
Then you went to 1,500.
But there appeared to be a translucency.
And you could see...
Two structures in there that were very lean like spears or something.
I'm just describing the shape, not what they actually were.
What do you think about that?
I'm really glad you brought that up because that nanowire type of structure was embedded in the clot.
It was not a contamination.
It's not one of my own hairs, for example, that fell into the microscope.
It was there.
It was attached.
And, you know, perhaps we could even, if we rehydrate that sample, we could look at the attachment point and get a little more detail on that.
But you're right, at 1500 magnification, we were able to see these, what you might call, nanowire interface structures.
Kind of like the edge of a circuit board, you know, like an interface that you plug into your PC and it's got all these wires on the edge that talks to your CPU. It was like that was lining the top of this nanowire.
And again, you and I are using these terms descriptively.
We're not saying that for sure these are absolutely circuit boards, but that's what they resemble.
So it's a mystery.
Right.
And I'm glad you said that because there are a number of folks out there that claim to be experts and they took that first analysis and some of the language we used and said, oh, it's circuitry and here's how you can cure it or detox from it.
So I want people to be very cautious and very careful.
With, you know, the way that you're looking at this, you know, this is still sort of an analysis in process, if you will, and it's going to take a while.
But I'm curious, you know, to know now, we put these two pieces together, so to speak, you know, would that work?
Structure that we're calling this nanowire, because it's tiny and it's a wire-like structure, is that made of tin?
Because it is made of tin, and it's growing it from it.
It's constructing its own, then it would be constructing its own conductive system.
Yes, so there are three clues now that actually point in this direction.
And I know we're about to run out of time for today's interview, so I won't take too much more.
We're fine.
Okay.
I know this is important.
So three clues.
First is the visual representation of the nanowire and what appears to be what I just said, the nanowire interface structures.
Secondly, is that under the nitric acid digestion, there were striations of parts of these clots that were oxidized more rapidly than others, and that absolutely could happen with certain types of element-based molecules that are used as conductors.
And so it's almost like the nitric acid etched out, like digested the conducting striations and left behind more of the fleshy type of substances.
At least that's just an initial guess.
And then third, the third clue is from these ICP-MS results that we're going to release publicly here is that the clot is, for whatever reason or however it's doing it, it is attracting tin, which is conductive.
It's used in soldering circuit boards.
And aluminum is higher in the clot as well as sodium, which is also conductive.
But the thing that strikes me, you know, I've looked at a lot of hair samples under ICP-MS and also blood samples over the years.
And tin is not that common in samples.
There's a little bit of tin contamination.
So there are trace amounts in the blood.
But I don't believe I've ever seen a sample with tin at, what is this, 943 parts per million.
I mean, I would expect maybe to see that at parts per billion, a thousand times lower, but not 900 plus parts per million.
So that really stands out as highly unusual.
I think the big finding is the tin.
It was totally unexpected.
It's the greatest discrepancy from the level in the blood, real blood.
And that's, again, it doesn't solve the mystery, but it actually gives us a demonstrated piece, a bona fide piece in this.
And I think there'll be a lot of commentary.
I'm looking forward to it when people respond to your work and to the article, because there will be some experts who will be able to add some information, I hope.
And we welcome that.
Yes.
Of the tin, yeah.
Yeah, me too.
And let me add, if people are wondering where do you get tin in your blood, so everybody's heard the expression tin cans.
And so tin, right?
Everybody's heard that.
And so cans, canned food is still in cans that have some amount of tin in them.
And typically there's an inner enamel type of lining inside the can.
Especially in tomato products to reduce the acidic environment so that the can last longer.
But there's tin also in tableware.
So you wonder, well, what's in my spoon?
What's in the fork?
So if you're eating something acidic, Then like a tomato-based pasta, and you're using a fork, what's happening is there's a little bit of the tin coming off of that fork with every bite that you take.
And then finally, we've also done this ICP-MS analysis on aluminum foil.
And what we found is that aluminum foil is contaminated with many, many metals, including lead and cadmium and tin.
And we also found that the recycled aluminum foil was much higher in the heavy metals contaminants compared to Virgin, fresh, raw aluminum foil.
So if you're buying recycled aluminum foil and you're baking like a lasagna dish in the aluminum foil, you are getting sort of heavy metals contaminated pasta sauce.
Boy, that is so nuanced.
The average person just living their lives and grabbing a box of aluminum foil from the grocery store.
I mean, that's such important information to know.
And that's where we're getting it from, because it's not a naturally occurring element.
Well, I mean, there are trace amounts in soil, but it's not a lot.
I mean, most of the tin that's in the environment is from human pollution, frankly.
We mine it up and use it in industry and then let it into the air and into the water and everything.
That's where it's coming from.
I just want people to understand that there's a certain amount of tin in your blood right now that is measurable and for some reason this structure is collecting it and doing who knows what with it.
That's the intelligence of it.
It's programmed.
I'm not saying it's a brain, but it's programmed to pull certain things.
It's pulling the carbon, I believe, right?
It certainly is rich in carbon, you can see in your analysis here.
Yes.
You know, almost 153,000 parts per million.
Right.
Not too far from the blood, but it's definitely...
I mean, you could see where it's using things in the blood.
I would have expected maybe to see the...
Well, this blood sample was not taken from the same...
If it had been taken from the cadaver, it would have been interesting to see the carbon level and what was left...
Of the carbon level, right?
In the cadaver that had this material.
Yeah, thank you for pointing out that this blood sample was not taken from the same person that the clots were taken from.
And, of course, in terms of data points, this is just one point of data in each of these categories.
Yes, I plan to run more clots via ICP-MS and we can get more data points.
We can have stronger confidence in the coefficient of confidence, we would say, in these data.
But Look, we're not getting grants from the NIH, right?
You and I, we're small operators.
We're doing the best we can with what we have, and these instruments aren't cheap either, so we're sharing what we have.
We're not saying that we know what this is, but we're inviting the public to think about this.
That's all.
Yeah, and maybe experts who have expertise in some of these other areas, you know, that could possibly come forward and maybe contribute, or maybe, you know, real science picks up where one scientist leaves off and continues to do work.
I mean, people should be, if you have this kind of expertise and access to a lab or your own lab, They should be doing this if they contact an embalmer.
You know, there's a lot of moving parts to putting this together.
And I really want to thank you again and again for coming forward when Mr.
Hirschman just kept running into a wall.
And I wanted to limit my getting involved because I wanted him to control the chain of custody, which he did with you.
And that was a great thing.
thing.
And I want to thank you again for being so willing to come forward and do this for his samples so that we can, this catapults our understanding.
Like you said, we don't know what it is yet.
We don't know all the answers yet, but we certainly have a better idea of what's involved here and how dangerous these shots are.
And I'll just say thank you, Dr.
Ruby, for thinking of us and allowing us to apply our instrumentation technology.
To this problem.
And there's a lot more still to come.
There's a lot more microscopy, I know, that I'm going to do personally on this with video.
I'm going to do a video recorded dissection of that very large clot that Richard Hirschman sent to me.
So do you have any final thoughts to wrap up this interview today?
No, I want to thank everyone for their interest.
I know I've gotten a lot of feedback on my social media asking, you know, when we were going to have this.
I don't want people to, you know, be disappointed.
This is a huge, huge finding.
It's a huge step forward, but there's a lot more work to do.
You know, we are feeling our way in a sense, proverbially, in the dark.
Because these companies are diabolical.
They're evil.
They're satanic.
And they're not coming forward.
They're not validating anything.
They're completely quiet.
And they're letting us do this while people are injured and are dying.
So we're just trying to race against the clock to save people's lives.
And certainly this should tell people, Mike, do not take any more if you've already taken it.
If you're...
Yes, and I will add, Dr.
Ruby, you know, you are willing to state the truth, to state observations, and you have the courage to speak publicly about this, so thank you for that.
Obviously, we do as well, and I want to give people a teaser.
We are also, we're going to be testing dozens of water filters, off-the-shelf water filters, for their ability to remove cesium elements, which would include cesium-137 radioisotopes, so we're going to use this lab for For humanity to teach you, like, what happens if we start getting nuked?
Which water filters can remove radioactive contamination in the water?
It's just the same instrument.
What a great service to people, Mike.
That's incredible.
Thank you for that.
We're doing the best we can with what we have.
So, Dr.
Ruby, God bless you and thank you for everything that you do.
I really appreciate you and all your contributions.
Thank you, Mike.
God bless you, too.
I'm really honored to know you and work with you.
This has been really special.
I hope it helps.
It absolutely does help, and there's more yet to come.
So, folks, thank you for watching today, and be sure to visit Dr.
Ruby's website.
We'll put it on screen for you, and follow her channel, her shows, and she's also a frequent guest with Stu Peters, of course, at StuPeters.tv, and we love his work as well.
And feel free to repost this interview on other platforms and other channels as well.
Thank you for watching today.
I'm Mike Adams, the founder of Brighteon.com and Brighteon.tv.
Take care.
Survival Nutrition is our new free audiobook that you can download right now from survivalnutrition.com.
In this nearly eight-hour audiobook, you will learn life-saving secrets of how to use food, nutrients, plant molecules, trace minerals, and chemical compounds to save your life, even in a total collapse scenario.
I'm Mike Adams, the Health Ranger, and I'm the author of Survival Nutrition.
I founded and run a multi-million dollar food science laboratory, and I'm the author of the best-selling science book, Food Forensics.
I'm also a prepper, a patriot, and a survivalist.
I can teach you how to survive what's coming by growing your own food, medicine, and antibiotics that can help keep you healthy and alive even during the worst of times.
At survivalnutrition.com, you'll be able to instantly download the full free audiobook as MP3 files.
Keep a copy of all these files on your local hard drive and print out the full guide just in case we lose the power grid.
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