6G Radiation Can Increase Size Of Brain Cells
I have some really fascinating information to share with you today, and that is the fact that exposure to 6G radiation can cause brain cells to grow in size. Isn’t it amazing? Right? The fact that certain Chinese scientists have witnessed an increased rate of neuronal growth in mice reveals that their discoveries may have repercussions on the development of future communication technologies.
6G Radiation Can Increase Size Of Brain Cells
The most recent research indicates that radio waves operating in the terahertz region have the capability of increasing the bandwidth of a smartphone to 1 terabit per second (Tbps). It appears to be a strong contender for the communication technology of the next generation, particularly the 6G.
After being exposed to pulse radiation of 100 microwatts with wide frequencies ranging from 0.3 to 3 terahertz for three minutes, Chinese researchers found that the neurons of a mouse grew nearly 150 per cent faster than normal in a Petri dish. This was compared to the growth rate before the exposure. The fact that the overall length of connections between these neurons was also doubled in just three days is the astounding portion of the report. When compared with a control group, the researchers found that the brain cells that had been exposed continued to be healthy despite the incredibly rapid development.
Researchers believe that this brand-new discovery can assist in determining whether or not newly developed methods of communication are safe, as well as in the development of treatments for neurological conditions. According to the findings, “terahertz waves of certain frequencies and energies can be developed as a novel neuromodulation technology.” This means that terahertz waves might potentially be used to cure or intervene in conditions like neurodevelopmental disorders.
Exposure to powerful terahertz radiation for several hours a day, with power reaching a few watts, has the potential to raise the temperature of brain cells, disrupt their development, and cause dehydration, which results in a reduction in cell size as well as other types of damage, according to the findings of a study that was published in 2009 by researchers at the Russian Academy of Sciences. On the other hand, a smaller dose of terahertz radiation can enhance the creation and activity of particular proteins, which in turn stimulates the proliferation of neurons.