In this article we will explore how the parasite Ascaris Lumbricoides, the common roundworm is a frequent root cause of anemia and various iron deficiencies (ferritin, etc), folic acid deficiency and some dairy allergies.

If all parasites responded to medications you could take a pill and move on with your life. But most of them don’t. If instead they were accommodating enough to crawl out of you, slither under a microscope slide and smile for the camera, you could at least know which ones weren’t responding to medications. But of course they don’t do this either. Instead you live with them, they cause symptoms and you don’t even know you have them.

For a number of years I have been preoccupied with the question of how to eliminate these organisms using waveform frequencies. When this is effective, it enables us to bypass the dosage toxicity problem, which is that most parasites need a dose of medication that is not safe for anyone to take.

We’re not going to have time to go into the math and physics of how it could be possible to use an electrical frequency to replicate the action of a chemical frequency. To a certain extent that information is proprietary but mostly it’s just too in-depth to explain in this context however I will reiterate here what I have stated elsewhere, which is that Rife machines and Hulda Clark parasite zappers don’t work for several reasons.

In the sections below we will analyze a parasite sample that someone provided me with this past week after sitting in the frequency field. For the analysis we will use the confirmation circle, which is a concept that I introduced in this article.

Roundworm Sample

Step one of this analysis involves knowing what organism we’re looking at and I’m actually not sure in this case. It is certainly the size, length and color of Ascaris Lumbricoides, the human common roundworm but our sample (in the image below) is a lot more translucent than other Ascaris pictures, and also seems hollow.

This variance could stem from its being half-digested before it passed out of the body, or it could mean that we are looking at a different sub-species of the organism. Remember, there are thousands of sub-species (different types) of roundworms. It is actually statistically unlikely that any two people would have exactly the same subspecies, and that’s probably why no two people seem to have exactly the same symptoms.

I will attach a picture of Ascaris from the CDC website so that you can contrast the two organisms. As you can see in the image below, it is not translucent at all. It seems more thick and traditionally worm-like. Interestingly enough, while some medical doctors reinforce the misconception that it is uncommon to have parasites, the CDC web page for Ascaris states that up to 1.2 billion people carry this species, and I suspect the number is probably much higher due to most cases going undiagnosed.

This organism is, after all, called the common roundworm. It stands to reason that it would be somewhat common.

Confirmation Circle: Ascaris

Step two is to use the parasite sample we have in a particular format of muscle testing analysis to see if we can understand certain factors about it. The basis for the confirmation circle is that all parasites share factors in common: they all cause a specific B-vitamin deficiency, each of them causes a problem with a specific enzyme which is how they can lead to food allergies, and they can all be measured based on specific metrics such as the dose of parasite medication they test for.

On the surface, it might seem more scientific to use an actual chemical analysis of these factors rather than a muscle test, which is open to interpretation, and I agree, it would be. But in most cases there is no test available to have a parasite sample measured in this way. For example, you could send away your own hair sample for a heavy metal analysis but there is no company that allows you to send in a parasite sample for a heavy metal analysis. Among other things, the sample would rot in the mail, it’s just not practical. Because of the precise and unusual nature of the testing we’re talking about, a muscle test is the only option and thus, it is better than nothing.

Let’s look at the data and then we’ll have a detailed discussion about each section.

1. Medication Dosage: Mebendazole 100mg x 174000 pills.
2. Antibiotic: Tetracycline
3. Enzyme: Lactase
4. Essential Amino Acid: Isoleucine
5. Non-essential Amino Acids—1: Glutathione
6. B Vitamin: B9
7. Fat Soluble Vitamin: Vitamin E
8. EFA—Essential Fatty Acid:  Ω6
9. Metal Toxicity: Iron, Element #26: Fe
10. Nutritional Minerals: Iron & calcium

Discussion

1. Medication Dosage: Mebendazole 100mg x 174000 pills. If you know anything about pharmacology this number should knock your socks off. Mebendazole is medically agreed to be the antiparasite medication of choice to treat Ascaris but the standard prescription is 1 pill, twice a day for 3 days. A pill is 100mg so the prescription is written as 1 x 100mg (or since the standard recommendation is 1 pill 2x/day for 3 days your prescription pad would say 6 x 100mg. You could give that to the pharmacist and they would hand you 6 pills).

However, in the analysis we are using here we are not concerned with what a textbook says. The methodology is very specific: assuming that the roundworm sample above does indeed provoke a weak muscle testing response, we are concerned with the electromagnetic question of how many pills of mebendazole need to be introduced as a counter-signal in the body’s bioelectric field to have a cancelling effect on the worm sample during a muscle test.

If indeed 1 x 100mg of mebendazole had a cancelling effect against the organism we could reasonably infer that a dosage of 1 pill would be effective against it if you were to consume the pill. If instead 2 pills were needed to cancel out the sample, the correct assumption would be that 2 x 100mg would be needed to kill the parasite.

Of course once it’s out of you, measuring how many pills are needed to kill it is only a theoretical consideration, but remember, the idea here is reproducibility. If you’re reading this, you’re probably concerned about whether you yourself have this organism so your question will be very practical: how many pills of mebendazole do you need to take to eliminate this parasite? And if the answer were 1, 2 or even 4 pills you would be in luck because that’s a safe dose. But what if you needed 5 pills? Or 10? Or 1000? Or 174000? Since it’s not practical to muscle test that many actual pills, I will add that there is a way to use magnets to amplify the electromagnetic signal of the pills for muscle testing purposes and I want you to understand that the number I have used in this analysis, 174000, is very specific. Exactly that many pills (with a variance of + or -125) would have been needed to kill this parasite. Or rather, 174000 2x/day for 3 days.

And of course you couldn’t take that many. When we’re talking about 10 pills or 15 pills we can still have a discussion about chemical toxicity, but when we’re talking about 174000 pills it’s only a thought experiment. You couldn’t even consume 174000 cheerios (as an interesting side note, there are 3539 cheerios in a box, so you would need to eat a little over 49 boxes of cheerios worth of mebendazole—TWICE A DAY FOR 3 DAYS—to complete this dosage regimen).

In other words, you can’t take that many pills; it’s what I meant above when I described the dosage toxicity problem and the need to replicate a chemical frequency (e.g. the medication) with an electrical frequency (e.g. wave form physics and advanced math). If this organism can’t be treated electromagnetically, it’s not being treated, plain and simple.

When we compare this with the over-simplicity of the idea that you could proactively treat yourself for Ascaris if you simply took mebendazole at a safe dosage we can see why the CDC website states that 1.2 billion people currently have it. They probably couldn’t be treated for it if they wanted to (after all, who wouldn’t want to?).

I will also add that variances from one sub-species of Ascaris to the next will result in different quantities of pills being needed in each individual case. For example, the parasites that cause ulcerative colitis muscle test for the mebendazole 4000-6000 range, indicating that they are not Ascaris at all, but in fact some form of tissue roundworms burrowing through the ulcerated area. These are possible to eliminate using a frequency but impossible to target with medication obviously, this is probably why it is standard medical practice to cut out the ulcerated area in cases of UC.

There is also a possibility that the number of pills needed to treat various worms increases as the worm gets bigger/older. The picture above is probably of a 10- or 20-year old roundworm. Perhaps on day-1, 100mg of mebendazole might have killed it when it was still in its larval form. There is some evidence that this is the case—that the required dosage of medication grows with the organism.

2. Antibiotic: Tetracycline. This indicates that the antibiotic needed to kill the bacteria this worm was excreting would have been tetracycline. Remember, the worms poop live bacteria into us. Bacteria are their own class of organisms. Bacteria and parasites are not the same thing, but the bacteria are also alive and can also cause their own symptoms. If someone had an extremely high count of parasites that were in turn excreting a bacteria that needed to be eliminated by tetracycline, they might find that they had reactivity to tetracycline. This would be described to them as a tetracycline allergy although in this person’s case they did not have a tetracycline allergy so we can assume that they had a moderate-to-low count of this organism.

The higher the parasite count, the worse the symptoms including antibiotic allergies. This is the basis for all allergies to antibiotics including anaphylactic responses (face swelling, etc) to penicillin.

3. Enzyme: Lactase. This means that somehow the parasite was causing a deficiency in (or a difficulty manufacturing) the enzyme lactase. Lactase is the enzyme that breaks down lactose in milk and would explain why this person felt bloated after drinking milk and other dairy products.

This is then the basis for a milk allergy outlined in this article, but once we understand this, it no longer makes sense to use the word allergy to describe what is happening, does it? An allergy, particularly something as common as a milk allergy, feels permanent whereas a parasite is temporary. Or at least it should be: if you had to eat 49 cheerios boxes worth of mebendazole twice a day for 3 days, actually the parasite might as well be permanent since you’d never be able to get rid of it using a chemical frequency.

Maybe one day we will live in a world where people understand that electrical frequencies can be used to replicate the signal of a chemical frequency. Then neither milk allergies nor parasites will need to be permanent, but that’s a very big if, not simply because it requires an advanced understanding of physics and math but because the available frequency devices on the market are almost universally ineffective against the stronger organisms. This is a technology problem, and remember, Rife frequencies don’t work so it’s also a math problem.

4-5. Essential Amino Acids: Isoleucine & Glutathione: I won’t go deeply into this analysis except to say that isoleucine is one of the 9 essential amino acids and that if a parasite is causing you to run deficient in it, various metabolic processes will break down. Interestingly, this would also result in reactivity to amino acid supplements. If the parasite has to work hard to get isoleucine out of your food you will only feel general, continuous bloating while it feeds and excretes waste into you. But if you feed it a nice, concentrated source of isoleucine, like the type found in a BCAA (branched-chain amino acid) supplement, the worm will get much more of its favorite food than it is accustomed to and you will feel much worse. Simple bloating can turn into nerve-wracking pain and a migraine. This is the basis of the physiology of hyper-reactivity to amino acid supplements.

6. B Vitamin: B9. Every parasite will cause its own b-vitamin deficiency. B9 (folic acid) is involved with iron metabolism and helps in red blood cell formation and fascinatingly enough, in this parasite we see both a folic acid deficiency and an iron deficiency that folic acid is related to. There is some conjunction between folic acid and iron in this organism that is not coincidental. It is common that women (though not only women) who are diagnosed with some form of iron deficiency are prescribed folic acid as a supplement. But why are they deficient in the first place? That’s where the parasite comes in.

And then what if they supplemented with folic acid but had a reaction to it? That’s also where the parasite comes in. Paradoxically, the same parasite that causes a deficiency in something will cause reactivity to it. Ascaris is both siphoning off your folic acid AND will cause a reaction if you supplement with more. That’s an example of why a parasite is lose-lose for you, and why there are no good parasites in the body, in the same way that there are no good criminals in a city. This is one reason I refer to parasite families as crime families.

7-8. Fat Soluble Vitamin & EFA: Vitamin E & Omega 6: both of these are needed to keep the skin and hair looking healthy. When there is a chronic deficiency in one or both of these fat-soluble substances, this will express itself in the skin. The skin tone will deteriorate; the hair will lose its lustre. Aging will appear to accelerate as can wrinkles, hair thinning and hair loss.

9. Metal Toxicity: Iron, Element #26: Fe. All parasites have an associated element toxicity (not all elements are metals) and we can actually use a pure element sample in a muscle testing analysis to help find the organism. I have pioneered a method of doing this that over the years has become highly effective.

To understand the impact of a metal toxicity on your health profile it is necessary to remember the following sequence: 1: A parasite excretes a bad bacteria. 2: The bacteria are alive and 3: utilize various pure forms of the elements in their own energy metabolism cycle. For example, in this case 1: common roundworm excretes a 2: bad bacteria (that we can use tetracycline to confirm the presence of) that in turn utilizes 3: elemental iron to stay alive a little longer. But where can the bacteria get elemental iron from? You don’t have elemental iron in you, you’re full of nutritional forms of iron like iron citrate and hemoglobin that helps your red blood cells carry oxygen.

The problem arises when the parasite bacteria separates the citrate molecule from its iron atom. Bacteria can do that. Now you’re paradoxically deficient in iron and toxic in iron. You’re deficient in nutritional iron citrate and toxic in iron element #26 and you’ve got a useless citrate molecule floating around with nothing to do (in this political climate, it will probably become a free radical). [Note: for an accurate description of what actually happens to the citrate molecule in excessive detail, check out this video.]

(nutritional) vs (toxic elemental) + (useless)
Iron Citrate vs Iron + Citrate

The parasite doesn’t do this directly. It happens indirectly as a result of the parasite’s bacteria—its poop—but the result is the same. In this way the common roundworm that is the source of the bacteria can be understood to be the cause of the iron deficiency, even though it is admittedly an indirect cause. It is this failure to establish the causal connection between the parasite, its bacteria, the element and the associated medical symptom that allows researchers and doctors to be unaware of how a roundworm could cause iron deficiency.

10. Nutritional Minerals: Iron & calcium. It is significant then that the parasite sample muscle tests for nutritional iron citrate in its confirmation circle analysis, since that confirms practically what we examined in point 9 above as a theoretical likelihood. This explains why someone would be chronically iron-deficient, up to and including various forms of anemia and low blood ferritin levels, but it also explains why supplementing with iron citrate either doesn’t help, doesn’t fully help and also why it can make things worse, causing migraines, stomach cramps and constipation.

Remember, while the parasite (and in this case, it’s bad bacteria) is creating the iron deficiency, it still loves iron and if you give it a large dose of what it loves you could sometimes feel worse. This is why when supplementing with iron it is important to find a nutritional form of it that agrees with you, meaning it is easier for you to absorb but harder for your parasite to metabolize. This explains why each person reacts differently to iron supplements: again, it is probably the case that no two people have the same subspecies of common roundworm, though this organism’s eggs can be passed in mother’s breast milk so it is often inherited, which is why various forms of iron deficiency anemia and for that matter dairy allergies appear to be inherited or run in families

It is an interesting side-note that this particular subspecies of Ascaris we have been analyzing also muscle tested for utilizing nutritional calcium citrate, but unlike the nutritional versus elemental iron issue outlined above, there was no corresponding elemental calcium toxicity in this person, just the elemental iron. The fact is parasites feed and if someone had enough of these organisms, the parasites would feed on enough of their available calcium to cause a global calcium deficiency. This opens up an interesting perspective on osteoporosis later in life. Parasites don’t always directly cause medical conditions, but they can certainly indirectly cause them.

Conclusion

Remember, there is a proportional relationship between the number of organisms you will host and the severity of your symptoms. If you just had 1 worm you probably wouldn’t notice, so in symptomatic cases there is probably more than 1. In severe medical pathologies (e.g. Ascariasis in the image below) there can be 20 or more worms but that generally causes a bowel obstruction, severe wasting disease and needs surgery. Then the surgeon finds them, pulls them out, takes a picture and posts it on the internet. That’s why the ones you will see pictures of look so firm and healthy, they’re probably still alive or just died minutes ago.

The average person typically only has 1-10 of them, where 1 wouldn’t cause any symptom and 10 might result in chronic anemia, folic acid deficiency, possibly a dairy allergy and probably osteoporosis later in life.

Such cheerful news, isn’t it? But this is the natural world. This is what’s happening—in you. It’s better to understand it than run from it or only process the information emotionally.

And remember, treating these organisms may not be as simple as taking mebendazole. Most parasites need a dosage of medication that is too far above the toxicity limit. That’s why most people find that their medical conditions are chronic. If you want to quantify this further, either get a muscle testing analysis done for pure element samples of Iron (Fe#26), Cobalt (Co#27) and Nickel (Ni#28), they all represent cousins in the roundworm family, or get a hair metal analysis done to see if either 3 of those elements show up in their elemental form. You may run into the problem that the companies doing the metal analysis mistakenly conclude that because iron has a biological role, it must not also have a toxic form. This is an error in interpretation. People who are iron deficient are almost always also toxic in elemental iron.

Your biggest take-away point should be that medical conditions don’t cause themselves and until we’re having a concrete dialogue about the effect of parasites on symptoms, we won’t get to a point as a culture where we understand the need for an electrical frequency to replace the role of a chemical frequency in our medical philosophy.