Morcan Books & Films

The presence of glyphosate in vaccines is one of many concerns highlighted in our book VACCINE SCIENCE REVISITED: Are Childhood Immunizations As Safe As Claimed?

Excerpts from the book follow:

Since glyphosate isn’t really a vaccine ingredient, but rather a contaminant, how does it enter vaccines in the first place? Think about what vaccine viruses are grown in. The medium often consists of some type of animal source: “Contamination may come through bovine protein, bovine calf serum, bovine casein, egg protein and/or gelatin.”[344]

Of the 19 vaccines they tested, the vaccine that had the most glyphosate was the MMR II vaccine by Merck.

Both sugar beets and cow’s milk are contaminated with glyphosate. Keep this in mind when reading the ingredients of the medium (where the germ is grown). Think of yeast, for instance. The yeast needs to be living and therefore the medium is given nutrients[347] to keep it alive. These include nutrients such as galactose and glucose, or in simple terms, milk and sugar. The glucose being the sugar source and galactose is from the lactose in the milk.

The above paper says the MMR vaccine contained the most glyphosate, why is that? “This vaccine uses up to 12% hydrolysed gelatin as an excipient–stabilizer; as well as foetal bovine serum albumin, human serum albumin and residual chick embryo; all of w…

Monsanto realized that glyphosate kills bacteria, so, in 2010, they patented glyphosate as an antimicrobial[349]. The list of pathogens affected by glyphosate is very long. What needs to be considered also is the fact that bacterium that’s a pathogen in one part of the body is not necessarily a pathogen …

As a matter of fact, it has been shown that glyphosate “damages DNA and is a driver of mutations that lead to cancer.”[351]. This statement is based on using the US government GE crop data to find connections between glyphosate and 22 diseases, including stroke, diabetes, obesity, Alzheimer’s disease (AD), autism and multiple sclerosis (MS). This study also answers the question of how on earth crops can survive glyphosate while it’s killing everything else around it.

A ‘hazard assessment’ by the World Health Organization’s (WHO) International Agency for Research on Cancer (IARC) was released in March 2015 stating that glyphosate is “probably carcinogenic to humans.”[362]

Sleep is very important to human health. Stephanie Seneff, a senior research scientist at the Massachusetts Institute of Technology (MIT)[369], explains that in order for us to get good sleep, we need “to clear cellular debris”[370].

In her presentation, Dr. Seneff explains how the pineal gland releases melatonin. The melatonin then enters the fluid in our brain and spinal cord. Melatonin puts us in REM sleep. Without the shikimate pathway, there is no melatonin because the shikimate pathway produces the precursor for melatonin[371].

Dr. Seneff continues to explain how lack of REM sleep, together with a calcified pineal gland, has been linked to Alzheimer’s disease (AD). The pineal gland makes it possible for us to clean up our cellular debris, but when it’s calcified it doesn’t function properly…

Because the pineal gland is not protected by the blood-brain barrier (BBB), it’s more vulnerable to aluminum and mercury toxicity. When aluminum accumulates inside the pineal gland, it hinders its ability to clean cellular debris.

When a chemical that’s not supposed to be there enters our body, the consequences can range from not being a big deal at all to being life threatening. Most healthy individuals are able to take care of incoming toxicity and everything works out fine or at least seems to work out fine. We don’t always connect the dots to future illnesses.

Then there are individuals who have some dysfunction in their biological makeup they may not even know about. These dysfunctions may not cause any harm until they’re exposed to certain elements or toxins.

If glyphosate is so bad for us, why do we have so many research papers saying how great it is? A paper published in 2010, states that: “[…] glyphosate is a one in a 100-year discovery that is important for reliable global food production as penicillin is for battling disease.”[376]

Did the biological agent change? Did science change? How can they both be examining the same agent and reach opposite conclusions?

This is where science gets tricky and it’s easy to manipulate theories to mold a pleasing conclusion. Wordplay can be very confusing and misleading.  The minority report from the Congressional hearing in February 2018, which can be watched online[387], explains it this way: “According to IARC, a cancer ‘hazard’ is an agent that is capable of causing cancer under some circumstances, while a cancer ‘risk’ is an estimate of the carcinogenic effects expected from exposure to a cancer hazard.”

If you’re interested in Monsanto, we highly recommend listening to the entire hearing, where the Committee on Science, Space & Technology: “[…] describes some of the tactics Monsanto has used to control the public debate about glyphosate as well as the scientific studies that have been conducted to assess its potential harm. These efforts appear aimed at corrupting and disrupting any honest, thorough and complete scientific evaluation of glyphosate and its potential adverse impact on the public’s health.”[390]

We also find it difficult to know which papers are legit, but we feel the research showing how glyphosate affects our cells on so many levels is worthy of notice. Although the argument is that glyphosate doesn’t affect human cells, through the research we did for this chapter it’s evident to us that our gut bacteria, which contains the shikimate pathway, is vital to many of our functions, especially its co-operation with our pineal gland.

To be continued…

Vaccine Science Revisited  is available via Amazon:   https://www.amazon.com/gp/product/B07MQTN3CG/

(Book’s Amazon review rating = 4.4 out of 5 stars).

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