This case is due to the balance of antibodies on the mucous membranes. Our upper respiratory tract is predominantly protected by class A antibodies.
The upper respiratory tract refers to everything that passes through the air inside our head. At the neck level, the upper airway ends.
So it is class A antibodies that will protect us inside the head. They are called secretory because they flow (secreted) along with the mucus.
If some vaccine against the virus can stimulate the production of such secretory antibodies, then we will not pick up the virus, it will not be able stay in our nose, will not be able to multiply there, will not fly out of the nose along with snot, and we will not infect others people.
Our body is not a fool, and in order to get secretory antibodies in the snot, the vaccine must get into the nose.
Nearly all toxic vaccines work differently. They are usually injected into the muscle. From there, they quickly enter the bloodstream and stimulate the production of G-class antibodies. These antibodies are also secreted in the nose, but in very small amounts. There are few of them in the upper respiratory tract. These antibodies sit in the lower respiratory tract and protect us from pneumonia. But they will not help against infectious snot.
Conventional anti-toxic vaccines can also stimulate the production of Class A antibodies, but in very small amounts.
Let's summarize. Conventional antimicrobial vaccines are injected into the muscle. This will produce some class A antibodies in the nose and some class G antibodies. Our ability to sneeze out infectious viral snot will not be greatly affected by this. And it’s a pity.
So what can you do to stop sneezing viruses?
We need a vaccine that works on the surface of our body.
Moreover, such a vaccine does not even have to be poured into the nose. This is another interesting feature.
So that on our mucous membranes there are class A antibodies that protect against the virus, it is possible to deliver the vaccine simply to the skin.
Some vaccines are not injected into the muscle, but under the skin or inside the skin.
We have already talked about different immune cells that either drag herpes into the skin, or do something else. Some of these cells watch out for the vaccine inside the skin, and when they wait, they grab it and carry it to the mucous membranes. There they are already waiting under the steam for the class A antibody production workshop. Industrial production of antibodies begins, and the mucus becomes very unfriendly to dangerous viruses.
Nobody has offered me such a vaccine yet. Have you been offered?
