Air Pollution, Biodiesel, Glyphosate , 5G, Vaccines And Covid-19- Part 3

Could 5G exacerbate symptoms and outcome of ‘covid’?

Coronavirus: Proof 5G Exposure Causes Oxygen Deprivation

'Is 5G to partially blame for coronavirus deaths? Can 5G cause the blood that’s circulating in your body to be unable to carry oxygen?

 What’s especially horrifying about the critical care of coronavirus patients is that they aren’t suffering from “viral pneumonia,” but rather from an inability to absorb or carry oxygen in the blood. This has been confirmed by NYC ICU emergency physician Cameron Kyle-Sidell, who has released several videos detailing how coronavirus is not a kind of viral pneumonia. “We’re treating the wrong disease,” he says.

How 5G radiation exposure alters the ability of red blood cells to carry oxygen?  Why 5G radiation exposure may alter the function of hemoglobin is found in understanding the protein structure of hemoglobin itself. Hemoglobin relies on something called the “heme group” which is a complex molecule with iron (FE 2+) in its center.

This is surrounded by something called a “porphyrin ring” which is a cluster of unique structures (made of oxygen, carbon and hydrogen) that has a special affinity for other oxygen atoms. The ability for oxygen to “leap” onto this molecule in the lungs depends entirely on the structure (which also implies the ionic charges) of these complex molecules.

One thing to note in all this is that without the presence of histidine, a special protein, this heme group would have higher affinity toward carbon monoxide than oxygen, meaning the entire heme group would be occupied by carbon monoxide, blocking the absorption of oxygen. Thus, the histidine presence is critical for allowing the heme group to bind with oxygen. If you mess with histidine, you end up forcing hemoglobin to carry CO instead of O2, effectively creating oxygen deprivation in the blood.

This heme group, by the way, has special affinity for carbon dioxide, which allows the same molecule to carry CO2 out of the body’s cells and transport CO2 back to the lungs. Remember: The same hemoglobin molecule must carry both CO2 and O2 but at different times, and it must attract and then release those molecules at opposite times in order to rid the body of CO2 and nourish the body with O2. This is all accomplished with a delicate balance of proteins and protein folding.

The hemoglobin molecule itself is a miracle of nanotechnology. It transmorphs into two different structural states based on whether it’s carrying oxygen or not. In what’s called the “R-state,” this molecule is like a magnet for oxygen. When four oxygen atoms are bound, it becomes a highly stable structure (and appears red). Technically, the binding of a single molecule of oxygen (O2) increases the affinity toward oxygen on the three other oxygen sites, making the hemoglobin “mop up” four oxygen molecules very quickly. When it lacks oxygen, it changes to a “T-state” and appears blue, which is why low-oxygen blood has a blue color.

The important thing to understand in all this is that any alteration of the delicate structure of hemoglobin will impair its ability to bind with oxygen.

The polypeptide chains in the hemoglobin molecule are part of the transmorphing structure of the molecule that allows it to carry and release both CO2 and O2, depending on the partial pressures of the gasses at different locations in the body (lungs vs. other cells). Note carefully that any change in the structure of hemoglobin will cause it to stop functioning: Increasing the permeability of the hemoglobin molecule — i.e. its affinity toward other soluble gasses such as carbon dioxide — will “occupy” the hemoglobin molecule with the wrong substances, making it unable to absorb oxygen because it is not presenting in its “R-state” by the time the heart pumps the blood back to the lungs.

Stated another way, anything that significantly alters the affinity of hemoglobin toward other soluble gasses (carbon dioxide, carbon monoxide, or even ionic minerals in the blood) could “shut off” the ability of blood to carry oxygen by altering its atomic structure. If you change the structure of the heme group, it no longer functions to transport oxygen. Because in the case of the heme group, the structure is the function. Perhaps this can only be appreciated by organic chemists, but this heme group is truly a miracle of nanotechnology.

 Iron, histidine, the heme group and O2 oxygen molecules interact with hemoglobin, which alters its structure depending on the “oxygenated” vs. “deoxygenated” forms.

Can 5G exposure alter the structure of hemoglobin by increasing its affinity toward other molecules which are not O2? The real question in all this is best phrased as I have asked it above. I doubt that we are dealing with a phenomenon where 5G radiation exposures blocks the ability of hemoglobin to carry oxygen, but rather occupies the hemoglobin molecule with other elements that alter its structure and therefore its function, inhibiting its ability to bind with oxygen. 

This is very likely happening all across the world wherever 5G is currently functioning, it’s just that the coronavirus is now exacerbating the symptoms and conditions to the point where mass death is occurring.'

Why Hydroxychloroquine Works

BY HERSCHEL SMITH  -8th April 2020

 ‘How does chloroquine work? Same way as it does for malaria. You see, malaria is this little parasite that enters the red blood cells and starts eating hemoglobin as its food source. The reason chloroquine works for malaria is the same reason it works for COVID-19 — while not fully understood, it is suspected to bind to DNA and interfere with the ability to work magic on hemoglobin. The same mechanism that stops malaria from getting its hands on hemoglobin and gobbling it up seems to do the same to COVID-19 (essentially little snippets of DNA in an envelope) from binding to it. On top of that, Hydroxychloroquine (an advanced descendant of regular old chloroquine) lowers the pH which can interfere with the replication of the virus. Again, while the full details are not known, the entire premise of this potentially ‘game changing’ treatment is to prevent hemoglobin from being interfered with, whether due to malaria or COVID-19.’


5G Technology and induction of coronavirus in skin cells

RETRACTED: 5G Technology and induction of coronavirus in skin cells  -  J Biol Regul Homeost Agents- 2020 Jul 16

5G Technology and induction of coronavirus in skin cells

Biolife- Received May 13, 2020 – Accepted June 9, 2020

‘‘In this research, we show that 5G millimeter waves could be absorbed by dermatologic cells acting like antennas, transferred to other cells and play the main role in producing Coronaviruses in biological cells. DNA is built from charged electrons and atoms and has an inductor-like structure. This structure could be divided into linear, toroid and round inductors. Inductors interact with external electromagnetic waves, move and produce some extra waves within the cells. The shapes of these waves are similar to shapes of hexagonal and pentagonal bases of their DNA source. These waves produce some holes in liquids within the nucleus. To fill these holes, some extra hexagonal and pentagonal bases are produced. These bases could join to each other and form virus-like structures such as Coronavirus. To produce these viruses within a cell, it is necessary that the wavelength of external waves be shorter than the size of the cell. Thus 5G millimeter waves could be good candidates for applying in constructing virus-like structures such as Coronaviruses (COVID-19) within cells.’

Six potential risks and effects of 5G on human health-By Editorial -June 9, 2020



The biggest concern is how 5G will affect human skin. Our body has between two million to four million sweat ducts, which can act as an array of helical antennas when they are exposed to wavelengths, i.e., humans become more conductive. A recent New York study that experimented with 60GHz waves stated that the penetration depth analyses show that over 90% of the transmitted power is absorbed in the epidermis and dermis layers. This can lead to physical pain to the skin, skin diseases, and cancer.


Hyroxychloroquine given for -Skin problems which are sensitive to sunlight/photosensitivity


 Hydroxychloroquine Sulfate works by reducing inflammation in people with autoimmune diseases (this is where the body's immune system attacks itself by mistake).
It can be used for:

  • Rheumatoid Arthritis (inflammation of the joints)
  • Juvenile Idiopathic Arthritis (in children)
  • Discoid and Systemic Lupus Erythematosus (a disease of the skin or the internal organs)
  • Skin problems which are sensitive to sunlight

Photosensitivity Reactions-By Julia Benedetti-MD, Harvard Medical School

Last full review/revision Dec 2019| Content last modified Dec 2019

 People with polymorphous light eruption or photosensitivity caused by systemic lupus erythematosus (lupus) may benefit from topical corticosteroids or oral hydroxychloroquine or corticosteroids.


Hydroxychloroquine  -Why  was it considered for prevention 

Unscientific experimentation .Why would anyone take something unproven to prevent  something that medically is not understood  and scientifically not proven

(This hypothesis excludes application of hydroxychloroquine for treatment based on the mode of action on the assumption there is a virus when there is no evidence that  a virus has been purified and isolated - see latest literature -1) 

Hydroxychloroquine and radiotherapy in cancer treatment

Clinical Trials Using Hydroxychloroquine

A Study of Hydroxychloroquine versus Placebo to Prevent COVID-19 Infection in Patients Receiving Radiation Therapy

This phase II trial studies how well hydroxychloroquine works in preventing infection with the COVID-19 virus in patients receiving radiation therapy. Hydroxychloroquine has been approved for the prevention and treatment of malaria, and the treatment of lupus and rheumatoid arthritis. Receiving radiation therapy may increase the risk of infection with the COVID-19 virus because the patients are in frequent and close contact with healthcare workers and with other patients who may have become infected. Patients receiving treatment for cancer may also have weakened immune system. Giving hydroxychloroquine may help prevent infection with SARS-CoV-2 in patients who are receiving radiation therapy for their cancer. Location: 7 locations’




-Why was the study on '5G Technology and induction of coronavirus in skin cells' retracted and is it reproducible ?

-Why were some symptoms of problems with oxygen absorption reported and does it correlate with rollout of 5 G?

-Why was hydroxychloroquine considered  and used for prevention of ' covid' ( even claimed to have been taken by politicians)   without any scientific or medical literature 


1) recent literature on treatment



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