Toxic Heavy Metal Poisoning Different Comments

Heavy metals

There is no generally accepted chemical definition of heavy metals. Metals such as cadmium and mercury, which sometimes accumulate in the body and show toxic properties, are called heavy metals. Sometimes, when heavy metal is mentioned, all of the transition elements are meant. According to some, metals with a density exceeding four grams per cubic centimeter are heavy metals. some definitions include magnesium as a heavy metal. Astrophysicists call all elements heavier than helium heavy metals. stone is heavy in place.

A Different Person

If the mussel you eat is in the stuffing, it may be an indication that you will go to the other world soon.

A Different Person

thioacetamide* is used in the appointment.. this thioacetamide stink smells so bad that you will regret what you have done..
Since heavy metals cause environmental pollution, you should not empty the tubes you have determined into the sink, and collect these wastes in special bins.
It is an important environmental pollutant that is taken into account in assessments on environmental pollution.
Heavy metals important as pollutants:
lead (pb)
cadmium (cd)
zinc (zn)
aluminum (al)
chrome (cr)
copper (cu)
nickel (ni)
vanadium (v)
silver (ag)
tin (sec)
arsenic (ar)
mercury (hg)

A Different Person

According to chemists, all metals are heavy anyway. therefore, it is sufficient to say only metal instead of heavy metal.
They cause disease that develops over time (continuous = chronic), especially due to their accumulation. therefore, their treatment may take years.
sudden onset disease (acute) is relatively rare.

Not all metals are heavy, according to chemists. The lightest elements in the world are na, ca, li, mg (1a and 2a group) metals, except for h. Heavy metals are generally found in group B. (such as w, ta, hf etc.)

heavy metals that poison our body

traffic pollution, oil, cigarettes, hair dyes, and battery production pass into the body. It harms the nervous system, mind and bone health. Calcium, zinc, alginic acid, b1, b 6 and c vitamins can reduce these harmful effects.

It enters the body with canned food, cigarette smoke, detergents, newly bought carpets and agricultural fertilizers. It damages the kidney, nervous system, bones and respiratory system. raises blood pressure.

To get rid of vitamins a, c and e, calcium selenium, alginic acid, onions, garlic and leeks can be used.

Some toothpastes, food storage containers, stomach antacids, cigarette filters, some salts and cheeses, sweat-proof deodorants contain harmful aluminum. There is an increase in memory disorders and Alzheimer’s disease findings. Calcium, zinc, magnesium, vitamin B6 can reduce these damages.

4- mercury
Some dyes enter the body through amalgam found in canned tuna and dental fillings. In order to get rid of the damages of mercury, which impairs kidney, liver and especially brain functions, onions, leeks and eggs should be eaten. In addition, substances such as vitamin C, selenium, calcium and zinc should be used.

This metal, which enters the body through copper water pipes, reduces the amount of beneficial elements such as iron and zinc. Eggs, onions, garlic, leeks minimize these damages. In addition, the depleted zinc and iron must be taken in addition.

6- fluoride
Toothpastes, mouthwashes, Teflon pans and water with high fluorine content are the sources of this. It has been shown to play an important role in tooth stains and bone weakness. The solution is to stay away from fluoride and take calcium.

It is found in some wines and beers, salts and dyes. Some antioxidant vitamins (a-c-e), selenium and alginic acid can be used for arsenic, which has negative effects on the liver, kidney and respiratory system.

A Different Person

heavy metal pollution and its complications in the body.

Heavy metal poisoning is a relatively new topic. physicians dealing with complementary medicine
The removal of heavy metals, in other words, the “detoxification business” is the medical field of the future.
They say it will happen.

heavy metals are elements such as lead, mercury, silver, cadmium, gold, cobalt, tin. all heavy
metals enter the human body in various ways (food, drinking water, dental fillings, environmental pollution, gases, etc.).
is taken. Most of the heavy metals are normal excretion routes of the body without special support.
(kidney, liver, intestine, lung, skin) cannot be excreted. Lead is one of the most toxic heavy metals,
cadmium, mercury and nickel.

Mercury poisoning is the most common heavy metal poisoning. used in dentistry
Mercury and heavy metal poisoning caused by amalgam-type fillings

is the leading cause of metal poisoning. but removal and removal of amalgam-type fillings,
By itself, it does not mean that the body is free of mercury.

Amalgam contains 50% mercury in its structure. still very toxic in the rest of the amalgam
heavy metals such as tin, copper and silver. Since amalgam is a cheap and easy to work material
It is widely used as a filling material in dentistry. amalgam type fillings
heavy metals in its structure are formed by intense chewing, especially sour and hot foods.
It can pass into the body as ionized through galvanic currents.

Amalgam has a very special place among heavy metal sources. Among the heavy metals it contains mercury
it occupies a special position: stacked on the body with the only newly developed special dyeing methods
heavy metals, especially the vegetative nervous system (etc., sympathetic nervous system)
It has been shown to have adverse effects on the whole organism. heavy metals settling in vss, in the organism
As it causes permanent damage and chronic diseases, it should be removed from the body as soon as possible.
required. Chelation is very important in this respect.

However, to get rid of these harmful effects of amalgam type fillings, it is necessary to apply to dentists.
This time, dentists take extreme care during the removal of these fillings.
it should show. because the mercury contained in the amalgam can be easily inhaled while the filling is removed and
can reside in the body. We know that the half-life of inhaled mercury in the body is 18 years. this
This situation poses a serious risk for the dentist as well as the patient.

Failure to detect heavy metals in the blood does not mean that there is no heavy metal storage in the body.
Heavy metals, which can settle in almost every cell of the body, can only be mobilized from where they are.
They become detectable in the blood when they are taken out of the cell, especially when they are taken out of the cell.

A Different Person

It is a metal with a density of at least 5 g / cm3, which causes adverse effects when it is found in large amounts in the human body.

symptoms that may occur with exposure to excess heavy metals;

-chronic fatigue
-confusion of consciousness
-brain fog
-mood swings
-anxiety and depression
-chronic inflammation
-metallic taste in the mouth
-night sweats

If these symptoms persist for a certain period of time, be sure to see a doctor.
Mercury is a type of heavy metal. Consider heavy metal options under many of your chronic diseases that you cannot find the cause of.

A Different Person
this is an open question, specifically posed to chemists, biologists, and the like.

The heaviest chemicals in the mammalian body are iodine and selenium. The only known effect of iodine is in the structure of thyroid hormones. Eighty percent of the iodine in the body is hidden or stored in the thyroid gland, whatever word you like.

The situation is similar for selenium. Most of it is in the thyroid. necessary for the processing of iodine.

Julius Hensel, in 1884, said that animal bodies are complex electro-chemical systems. For this reason, he seeks diseases and solutions in the mineral balance. this is actually nothing new. When you examine the tradition of Hippocrates-galen-ibni sina, you see the same understanding. The only difference is that in the time of these men, individual minerals, atoms, etc. were unknown. however, the model they gave differs from Hensel’s model in detail. They examine how the minerals, which they call “earth” or similar, combine with “fire” or “light” and make the body possible. In between, of course, there are “water” and “air”. If we modernize them, we can actually say solid, liquid, gas and light/photon. With the humor/secretory ontology and temperament (which they translate as temperament, but it is much more accurate to understand it as the broader version of the idea of ​​’metabolism’), they try to both understand different ways of existence and classify the diseases of the body. they are looking for the cure in the balance between them.

Since western science has been trying to undermine all this wisdom and appropriate everything for two centuries, especially with the weirdness of the university becoming the norm, ancient artifacts are not examined in the right light and are understood as some mystical whistles. However, in Ibn Sina and probably even further back, we see that the cybernetic understanding is fully formed. I’m not making this up out of my ass, of course. According to Gregory Bateson, the modern understanding of cybernetics can be traced back to the late 1800s, to Claude Bernard, Hans Driesch, and his father, John Bateson. He has three things in mind when he says this: i) systems theory, ii) homeostasis or in-balance, iii) feedback, especially the reverse feedback mentality. In addition to these, as a fourth, the form-function relationship can be counted. we can see that all of these are covered in Ibn Sina’s works. The idea of ​​just feedback is a bit vague, but the rest are just as advanced as they are today.

now, my question is. The heaviest minerals in the body, the most toxic molecules possible:
1) what do they do (but I’m not talking about the whistling answer given by these doctors, like naming names t1-t2-t3-t4. I’m looking for a cybernetic answer.)
2) why are they stored in the thyroid
3) How do they differ from alternatives (such as tellurium or bromine) that we observe in animals? Is this a resource access problem or are there significant chemical differences?
4) What does all this tell us about diseases known to be directly related to iodine and selenium metabolism?

What I want is not an answer that I can find from google or its equivalents (, gutenberg, nature, pubmed etc.). I am waiting for original reasoning that will examine all this confusion in the style of hensel and sina.

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