Brave doctors are speaking out. Listen to them.

In each dose of the Moderna COVID-19 vaccine are 40 trillion mRNA — or messenger RNA — molecules.

Each mRNA “package” is designed to be absorbed into your cell, but only 25% stay in your arm at the site of the injection. The other 75%, Hoffe says, are collected by your lymphatic system and fed into your circulation. The cells where mRNA is absorbed are those around your blood vessels — the capillary network, which are the tiniest blood vessels in your body.

When the mRNA is absorbed into your vascular endothelium — the inner lining of your capillaries — the “packages” open and genes are released. Each gene can produce many COVID-19 spike proteins, and your body gets to work manufacturing these spike proteins, numbering in the trillions.

Your body recognizes the spike protein as foreign, so it begins to manufacture antibodies to protect you against COVID-19, or so the theory goes. But there’s a problem. In a coronavirus, the spike protein becomes part of the viral capsule, Hoffe says, but when you get the vaccine, “it’s not in a virus, it’s in your cells.” The spike protein, in turn, can lead to the development of blood clots:4

“So it therefore becomes part of the cell wall of your vascular endothelium, which means that these cells, which line your blood vessels, which are supposed to be smooth so that your blood flows smoothly, now have these little spiky bits sticking out.

So it is absolutely inevitable that blood clots will form, because your blood platelets circulate around in your vessels and the purpose of blood platelets is to detect a damaged vessel and block that damage when it starts bleeding. So when a platelet comes through a capillary and suddenly hits all these covid spikes that are jutting into the inside vessel … blood clots will form to block that vessel. That’s how platelets work.”

62% of Recently Vaccinated Patients Have Evidence of Clotting

Hoffe spoke with Dr. Sucharit Bhakdi, a retired professor, microbiologist and infectious disease and immunology specialist who, along with several other doctors and scientists, formed Doctors for COVID Ethics. Bhakdi has also warned that the SARS-CoV-2 spike protein binds to the ACE2 receptor on platelets.5

The subsequent activation of the platelets can lead to disseminated intravascular coagulation (DIC), i.e., a pathological overstimulation of your coagulation system that can result in abnormal, and life threatening, blood clotting, as well as thrombocytopenia (low platelet count) and hemorrhaging.

While some of the blood clots you may have heard about associated with the COVID-19 vaccines are the large variety that show up on MRIs and CT scans, Hoffe states that the variety he’s referring to are microscopic and scattered throughout the capillary network, so they won’t show up on any scan.

The only way to find out if this predictable mechanism of clotting is happening is with a test called D-dimer. D-dimer is a protein fragment produced by the body when a blood clot dissolves. It’s typically undetectable or present only at very low levels, buts its level may significantly rise when the body is forming and breaking down blood clots.6

According to Bhakdi, “Now a number of German doctors have been measuring the D-dimers in the blood of patients before vaccination and days after vaccinations and with respect to the symptoms they have just found out that triggering of clot formation is a very common event with all vaccines.”7

Hoffe has been conducting the D-dimer test on his patients within four to seven days of them receiving a COVID-19 vaccine and found that 62% have evidence of clotting.8 While he’s still trying to accumulate more information, he said:9

“It means that these blood clots are not rare. The majority of people are getting blood clots and they have no idea that they even have them. The most alarming thing about this is that there are some parts of your body, like your heart and your brain and your spinal cord and your lungs, which cannot regenerate. When those tissues are damaged by blocked vessels, they are permanently damaged.”

‘The Worst Is Yet to Come’

As Bhakdi explained, post-vaccination it’s possible to end up with so many blood clots throughout your vascular system that your coagulation system is exhausted, resulting in bleeding (hemorrhaging).10 Hoffe now has patients who get out of breath much more easily than they used to because “they’ve clogged up thousands of tiny capillaries in their lungs.” This is only the first problem, as it can lead to more significant, permanent damage. Hoffe noted:11

“The terrifying thing about this is not just that these people are short of breath and can’t do what they used to be able to do. Once you block off a significant number of blood vessels to your lungs, your heart is now pumping against a much greater resistance to try to get the blood through your lungs.”

The end result can be pulmonary artery hypertension, which is basically high blood pressure in your lungs, because the blood can’t get through due to the many vessels that are blocked. “People with this usually die of right-sided heart failure within three years,” Hoffe said. “So the huge concern about this mechanism of injury is that these shots are causing permanent damage and the worst is yet to come.”12

As he noted, while some tissues, like your liver and kidneys, can regenerate, others, like your heart, cannot. An increased risk of myocarditis, or inflammation of the heart muscle, has already been seen among young males who receive an mRNA COVID-19 vaccine.13 “They have permanently damaged hearts,” Hoffe explained, adding:14

“It doesn’t matter how mild it is, they will not be able to do what they used to do because heart muscle doesn’t regenerate. The long-term outlook is very grim, and with each successive shot, it will add more damage. The damage is cumulative because you’re progressively getting more damaged capillaries.”

Because of the risk of the formation of blood clots in your vessels, Bhakdi went so far as to say that giving the COVID-19 vaccine to children is a crime: “Do not give it to children because they have absolutely no possibility to defend themselves; if you give it to your child you are committing a crime.”15

Spike Protein Damages Human Cells

The key causative agent causing damage from COVID-19 vaccines appears to be the spike protein. Scientists from the University of California San Diego created a pseudo virus, or cell surrounded by the spike proteins that did not contain a virus.16

Using an animal model, the researchers administered the pseudo virus into the lungs and found the virus was not necessary to create damage. Instead, the spike protein was enough to cause inflammation, damage to vascular endothelial cells and inhibited mitochondrial function.

Dr. Robert Malone, the inventor of the mRNA and DNA vaccine core platform technology,17 has also spoken out about the dangers of the spike protein used in COVID-19 vaccines.

In its native form in SARS-CoV-2, the spike protein is responsible for the pathologies of the viral infection, and in its wild form it’s known to open the blood-brain barrier, cause cell damage (cytotoxicity) and, Malone said, “is active in manipulating the biology of the cells that coat the inside of your blood vessels — vascular endothelial cells, in part through its interaction with ACE2, which controls contraction in the blood vessels, blood pressure and other things.”18 Bhakdi also described this as “a disastrous situation” paving the way for clotting:19

“This is a disastrous situation, because the spike protein itself is now sitting on the surface of the cells, facing the bloodstream. It is known that these spike proteins, the moment they touch platelets, they active them [the platelets], and that sets the whole clotting system going.

The second thing that should happen, according to theory, is that the waste products of this protein that are produced in the cell, are put in front of the ‘door’ of the cell … and is presented to the immune system.

The immune system, especially the lymphocytes, recognize these and will attack the cells, because they don’t want them to make viruses or viral parts. And the viral parts are now being made in locations where viral parts would never, ever reach [naturally], like the vessel wall in your brain …

If that ‘tapestry’ of the wall [i.e., the lining of the blood vessel] is then destroyed, then that is the signal for the clotting system to [activate], and create a blood clot. And this happens with all of these vaccines because the gene [the instruction to make spike protein] is being introduced to the vessel wall.”20

Physicians Forbidden From Countering Narrative

Equally as disturbing as the potential harm caused by experimental mRNA vaccines is the censorship going along with it, such that the College of Physicians and Surgeons of Ontario (CPSO), which regulates the practice of medicine in Ontario, issued a statement21 prohibiting physicians from making comments or providing advice that goes against the official narrative — basically anything “anti-vaccine, anti-masking, anti-distancing and anti-lockdown.”22

The statement was released, according to CPSO, because physicians, in isolated incidents, have been spreading blatant misinformation via social media, which is undermining “public health measures meant to protect all of us.” But if a physician is unable to speak freely, the independent relationship between doctor and patient ceases to exist, and so does the doctor’s ability to act in the best interest of the patient.

Hoffe certainly experienced this but is still speaking out, putting his patients first and trying to get the word out that, he believes the COVID-19 vaccination program should be stopped until the causes of the many injuries and deaths are understood.23 The tragic question is, how many others with similar concerns have been intimidated into remaining silent?

Did you know that of the tens of thousands of different enzymes in your body, 99.99 percent of them have nothing to do with digestion?

Enzymes known as proteolytic or fibrinolytic enzymes are designed to break down proteins, but not just the proteins in your food.

When you take enzymes with food, they stay in your intestinal tract to digest food.

However, when you take proteolytic enzymes between meals or when food isn’t in your stomach, they quickly enter your bloodstream, help clean up your blood and make their way to your tissues and organs.

proteolytic or fibrinolytic
Proteolytic or fibrinolytic enzymes act almost like a pac-man in your body in pursuit of rogue proteins.

These special enzymes go to work in a seek-and-destroy-type mission to help break down and clear out proteins that don’t belong there.

Think of them as a pac-man in a video game… When food isn’t present, they seek out foreign proteins throughout your body.

Fibrinolytic enzymes also help remove fibrin, a clotting material that your body makes that can restrict blood flow in your arteries and connective or muscle tissue.

Fibrin can affect your heart and muscle health, and as you’ll soon see, the general well-being of your entire body.

That’s where the ‘Chinese Secret’ comes into play… It’s a secret that’s been held by the Chinese, Japanese and Koreans for thousands of years.

But first, let’s see how fibrinolytic enzymes may be able to help you…

Are Rogue Proteins and Fibrin Keeping You From Enjoying Optimal Health?

So how can you tell if fibrin or rogue proteins may be getting in the way of your well-being? They may be if…

  • You have concerns about your blood pressure or heart health.
  • You have blood flow issues anywhere in your body.
  • You’re troubled by pain.
  • You have a buildup of scar tissue from an injury or surgery.
  • You feel tired and can’t seem to get enough rest to feel fully recharged.
  • You’re deficient in certain minerals.

All of these are just a few of the signs that you might benefit from proteolytic or fibrinolytic enzymes.

Fibrin is involved in blood clotting and when you have too much your blood cells can clump together and lead to a blood clot.

fibrinolytic enzymes
Fibrinolytic enzymes can help prevent “sticky blood” or blood cell clumping.

Through their actions, fibrinolytic enzymes help break down fibrin and:

  • Support dissolving and removing fibrin’s cross-linked proteins.
  • Improves blood flow to tissues by reducing platelet aggregation or blood cell clumping, sometimes called “sticky blood.”
  • Inhibit proinflammatory prostaglandins like thromboxane.
  • Support your body’s ability to reduce hardening of your arteries.

With sticky blood, small blood clot deposits containing fibrin protein occur on the lining of blood vessels and can interfere with healthy blood flow.

Before I introduce you to what I consider to be one of the top enzymes for breaking down fibrin and improving your blood flow, let me tell you about something else that may be happening in your body right now.

It too is related to fibrin protein.

How Biofilms Allow Bacteria to Hide Out in Your Body

If you’re like most people, when you think of bacteria in your body you likely think of free-floating single cells.

However, that’s not how most bacteria live in the human body…

Rather, they exist in colonies called biofilms. When bacteria stick to a surface, they create slimy substances out of polysaccharides or sugar molecules, DNA, minerals such as iron, calcium and magnesium that they steal from your body, as well as fibrin.

This is what’s known as a biofilm. Forming and participating in biofilms is natural for most bacteria – that’s just what they do. The video below gives you a visual presentation of how different types of bacteria form a biofilm…

Once the biofilm forms, other types of microbes can join. Within this matrix, bacteria and microbes, including fungi, share DNA and nutrients.

While some biofilms may be beneficial, most aren’t desirable for your tissue and organ health.

Bacteria hide out, feed and replicate in biofilms, which allows them to remain undetected by your immune system and escape intervention. This is largely because of the biofilm’s outer polysaccharide protective covering, which includes fibrin protein.

Biofilms can damage the surfaces to which they attach. Plus, they can spew toxins and rob your body of minerals. If they become large enough, biofilms can cause obstruction or even spread.

The Biofilms Lurking in Your Arteries, Heart, Kidneys, Bladder, Mouth, Sinuses, Ears and Gut

Biofilms can form anywhere – in your sinuses, mouth, heart, bladder or even your gut.

So where do these biofilms form? These layers can form just about anywhere… such as in your mouth, sinuses, ears, heart and arteries, kidneys, bladder and gastrointestinal tract, and even out in nature.

Biofilms can form anywhere there’s a surface and enough moisture.

Dental plaque that forms on your teeth each day is a biofilm. And so is the slime that forms on slow-moving ponds.

Your GI tract is an ideal location for bacteria and the formation and survival of their biofilms. There’s a lot of surface area and no shortage of moisture or nutrients.

If your intestinal lining is damaged (GMOs and glyphosate are just two things that can damage your gut lining) or have less-than-optimal gut health, this can create the perfect opportunity for bacteria to take hold and construct a biofilm.

Just in case you are wondering… Biofilms are difficult to detect.

Even if you knew where they lingered in your body, obtaining a sample would require an invasive procedure. And if you did have one in the lining of your GI tract, there’s no current procedure available to remove it.

A healthy immune system is your best way to help slow biofilm formation. When your immune system detects one forming, it goes to work to help break it down.

Once biofilms take hold, proteolytic enzymes can give your body a helping hand in breaking them down.

And if you’re not already taking our Complete Probiotics or Complete Probiotics for Women, I highly recommend you do so. Research shows that probiotics may help disrupt the activity of biofilms in your gut.

The “Chinese Secret” to Busting Fibrin and Biofilms: Lumbrokinase Enzymes

lumbrokinase source
Lumbrokinase enzymes are sourced from the Lumbricus rubellus earthworm.

There are several oral proteolytic enzymes available today that can help break down fibrin and biofilms.

These include pancreatic enzymes, bromelain, nattokinase, serrapeptase and lumbrokinase.

Extensively studied in China, lumbrokinase is a group of very strong and novel fibrinolytic enzymes sourced from earthworms.

Earthworms have been used in Traditional Chinese medicine in East Asia for thousands of years, but it’s only recently that earthworm fibrinolytic enzymes, or EFEs, from Lumbricus rubellus have become available.

Researchers have discovered that EFE from L. rubellus is not one, but a mix of six enzymes – all serine protease components with different fibrinolytic activities.

These EFEs, or lumbrokinase as it’s called, are effective at breaking apart fibrin and the fibrin protein that holds the biofilm matrix together.*  And because it breaks down fibrin protein, lumbrokinase can also potentially improve sticky blood which could otherwise enhance risk for blood clots.*

So how does lumbrokinase compare to the other proteolytic enzymes? Let’s take a closer look and see…

Nearly 30-Times Stronger Than Nattokinase, Lumbrokinase Promotes Both the Breakdown and Buildup of Fibrin*

Of all the proteolytic, or protein digesting enzymes, only serrapeptase and nattokinase come close to resembling lumbrokinase in terms of fibrinolytic activity.

fermented soybeans
Lumbrokinase is nearly 30 times stronger than nattokinase, an enzyme from natto, or Japanese fermented soybeans.

But you can’t begin to compare their strengths…

Lumbrokinase is:

  • About 300-times stronger than serrapeptase, an enzyme extracted from silkworms.
  • Nearly 30-times stronger than nattokinase, the notorious enzyme extracted from natto, or traditional Japanese fermented soybeans.

Lumbrokinase is believed to be able to penetrate through thick clumps of gut bacteria or biofilms.*

Here’s something else that makes lumbrokinase stand apart from the others…

It has a built-in balancing mechanism that promotes both fibrinolysis and fibrinogenesis. That means it can both break down and build up fibrin, depending upon your body’s needs.*

I believe this is likely what gives lumbrokinase such a great safety record of use, and why it has been so helpful to many people.*

Introducing Our Lumbrokinase Enzymes, a Unique Blend of Fibrinolytic Enzymes

lumbrokinase enzymes

Finding a truly effective lumbrokinase can be challenging.

Many lumbrokinase enzyme products contain little pure lumbrokinase or lumbrokinase of low enzymatic strength. Some don’t even contain what they claim on the package…

Our Lumbrokinase Enzymes are different. Each capsule of my unique Proteolytic Enzyme Blend contains:

  • 2,000 FU standardized activity so you know exactly what you are getting.
  • 40 mg Lumbrokinase from L. rubellus.
  • 4 mg Protease for extra protein-digesting power and to enhance lumbrokinase’s actions further down in your GI tract.

With many other lumbrokinase products, you have no idea of their enzyme activity. There may be some, there may be none. If enzyme activity isn’t measured, you have no assurance that you’re getting a high-quality, effective product.

Our Lumbrokinase Enzymes assures you that you’re getting a full 40 mg of lumbrokinase enzyme in every capsule.

And speaking of capsules…

We use a delayed release capsule to make sure the lumbrokinase enzymes and protease arrive in your intestines where they are absorbed. With a regular capsule or pill, there’s no guarantee the enzymes will even make it to their destination!

I can’t stress that enough… delayed release is an absolute necessity if you wish to benefit from effective fibrinolytic activity throughout your body.

Take Action Now for a Healthy Heart, Brain, Muscles and More: Give Your Body a Helping Hand to Clear Away Fibrin, Clots and Biofilms*

As I suggested earlier, I believe you owe it to yourself to try our Lumbrokinase Enzymes if…

  • You have concerns about your blood pressure or heart health.
  • You have blood flow issues anywhere in your body.
  • You’re troubled by pain.
  • You have a buildup of scar tissue from an injury or surgery.
  • You feel tired and can’t seem to get enough rest to feel fully recharged.
  • You’re deficient in certain minerals.

Of course, these issues may be just the tip of the iceberg when it comes to the value of lumbrokinase. It may be useful anywhere in your body where blood flows or biofilms can form.*

I regularly take lumbrokinase because of all of the benefits described above. I believe it is an important strategy to lessen accumulating fibrin as I age.

Lumbrokinase has withstood the test of time in Traditional Chinese medicine over thousands of years. Maybe its time has come to help you Take Control of Your Health®.

Order Lumbrokinase Enzymes today and experience it for yourself.

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