Pulmonary alveoli cells
Radon can damage genetic information in lung tissue cells through direct ionization, where radiation from radon alters the DNA structure directly. Additionally, radon can also generate reactive oxygen species that can cause further damage to DNA in lung tissue cells.
Radon is a gas that is naturally found in the environment, and it cannot be flushed out of your body like a toxin. If you are concerned about radon exposure, it is important to test your home for radon levels and take steps to mitigate any high levels of radon. Inhaling high levels of radon gas over a long period of time can increase the risk of lung cancer.
Cells exposed to radon can undergo various adaptations to mitigate the stress caused by radon exposure. These adaptations include activating DNA repair mechanisms to fix any damage caused by radon-induced mutations, increasing antioxidant production to counteract reactive oxygen species generated by radon, and inducing apoptosis (programmed cell death) to eliminate heavily damaged cells. Additionally, cells may also activate cell cycle checkpoints to prevent the replication and division of genetically unstable cells.
Radon can damage genetic information in lung tissue cells through the emission of alpha particles that directly hit the DNA, causing breaks and mutations. Additionally, the byproducts formed during the radioactive decay of radon can generate reactive oxygen species that further contribute to DNA damage in the cells.
There have been several studies showing a link between Alzheimers and Parkinsons disease to radon. More than normal Radon daughter products have been found in the brains of autopsied victims of the two diseases. Radon is able to enter the blood stream and be transported all over the body.
radon only kills canerous cells
they affect your blood cells and kill them slowly.
Alpha particles emitted by radon damage the cells of the pulmonary alveoli.
It damages you skin and cells turn into canerous cells!
Radon can damage genetic information in lung tissue cells through direct ionization, where radiation from radon alters the DNA structure directly. Additionally, radon can also generate reactive oxygen species that can cause further damage to DNA in lung tissue cells.
That answer you may be looking for is neurohormones, Which are producesd by specialized cells in the brain and travel through the blood stream to affect cells throughout distant parts of the body.
Cause its hormones!
No chemical reaction, but irradiation of the cells.
Radon is a gas that is naturally found in the environment, and it cannot be flushed out of your body like a toxin. If you are concerned about radon exposure, it is important to test your home for radon levels and take steps to mitigate any high levels of radon. Inhaling high levels of radon gas over a long period of time can increase the risk of lung cancer.
These cells have specific types of receptors on their membranes.
Cells exposed to radon can undergo various adaptations to mitigate the stress caused by radon exposure. These adaptations include activating DNA repair mechanisms to fix any damage caused by radon-induced mutations, increasing antioxidant production to counteract reactive oxygen species generated by radon, and inducing apoptosis (programmed cell death) to eliminate heavily damaged cells. Additionally, cells may also activate cell cycle checkpoints to prevent the replication and division of genetically unstable cells.
it blocks other blood cells