Does the human brain contain accurate plastic material? A study that reply

A group of research published in the Maya edition of the “Brain Medicine” magazine has shown increasing evidence that the microblak particles can accumulate in treated foods in human brains, and can contribute to the high global depression, dementia and other mental health disorders. So far, these studies provide the most comprehensive analysis for the multiple and interconnected methods that allow these fine plastic particles to affect the brain’s health through multiple mutual biological pathways. The magazine cover for the month of May 2025 has a human brain laid in with micro -colored plastic molecules, along with a plastic spoon, a shocking visual expression of the most important discovery indicating that human brains contain the equivalent of a ‘spoon’ of fine plastic material. Plastic in the human body and explores 3 new research articles in this issue, in addition to a scientific suspension previously published on the removal of plastic particles from the human body. The researchers represent a new hypothesis that connects the consumption of treated foods, exposure to fine plastic particles with mental health results. How did the plastic reach our brain? The fine plastic particles are located all around us, in the air, water and food. Estimates have indicated that people consume between 10 and 40 million tonnes of these particles annually, with the expectation that this amount will be doubled by 2040. The effect of plastic particles and although research on the effect of plastic particles on humans is still in the early stages, laboratory and animal studies can be indicated that exposure to accurate plastic particles can lead to a range of serious health effects, where it causes oxidal stress as a result of the imbalance. Antioxidants, which lead to cell damage, and stimulate chronic infections in tissues and organs. Parallel, these particles weaken the functions of the immune system, which increase the body’s ability to infection and disease. With continued exposure, organ damage appears in the liver and kidneys, and metabolic disorders that affect energy treatment and nutrients. The most disturbing effect is the leak of these particles to the brain as it contributes to increasing the risk of neurological diseases such as dementia, by causing neurological infections, and the accumulation of toxic protein that destroys neurons over time. For example, in a previous study, it was found that people with arterial plastic plates on plastic particles were more likely to develop heart attacks and strokes. Another study also showed that inflammatory inflammatory patients contain more plastic particles compared to healthy people. Some studies have highlighted the high focus of plastic particles in the brain, especially those smaller than 200 Nm and of polyethylene. In vice experiments, plastic nano particles caused a decrease in motor activity and the ability to hunt, while exposure to plastic for 8 weeks led to poor memory and nerve infections. Reducing the risk of plastic particles in the light of the widespread distribution of plastic particles in the surrounding environment, the full disposal of exposure to it becomes impossible, but there are practical procedures that can be followed to reduce the resulting health risks. One of the most important of these procedures is the shifting of water bottled in plastic bottles to tap water, as this simple change contributes to reducing the amount of consuming plastic particles of 90 thousand to 4 thousand particles annually. The use of plastic tools should be avoided to heat the food, especially in the microwave ovens, because the high heat causes the release of billions of fine particles of these materials. Experts are also recommended to reduce artificial food intake, such as ready -made chicken pieces, which contain much higher concentrations of plastic particles compared to fresh foods. One of the important preventative measures is to replace plastic packages with glass or metal to store food, in addition to the use of HEPA removing up to 99.97% of the particles in the air, including plastic particles. The lead author of one of the studies, Nicholas Fabiano, a researcher at the University of “Ottawa”, said that treated foods form more than 50% of the calories consumed in some countries, and it contains much higher concentrations of plastic particles compared to natural foods, with the possibility of crossing these particles of blood blood and accumulation. The treatment of food and mental problems, and data has shown a disturbing relationship between processed foods and mental problems, as depression risk increases by 22%, 48%anxiety and 41%sleep disorders in consumers of these foods. The risk is that treated foods, such as ready -made chicken pieces, contain 30 times the plastic particles compared to fresh chicken meat. Recent studies in “Nature Medicine” have also found three to five higher concentrations of plastic particles in the brain of dementia. The researchers pointed out the agreement of the mechanisms of damage due to treated foods and plastic particles, as both affect inflammation, oxidative stress, mitochondria functions and neurotransmitter systems. The scientists have called on the development of a dietary index to measure exposure to plastic particles through food. In a parallel path, another study discussed the possibility of using the ‘therapeutic separation technique’ (to separate certain components from the blood to treat specific diseases), to remove plastic particles from the circulation, despite the need for more research in this field. The researchers emphasize the need to reduce the consumption of treated foods, while developing better ways to detect plastic particles and remove them from the human body. Regarding the possibility of getting rid of the accumulated plastic particles in the body, the current scientific evidence is still not sufficient to confirm the presence of effective methods for it. Some preliminary studies have pointed out that sweat can be a way to remove plastic connections, such as “Di -Vinols A”, but it takes more research to understand the mechanisms to get rid of these materials completely. The study said that scientific research should focus on different main breeds, including determining the safe exposure to plastic particles, and studying the relationship between chronic exposure to these substances and chronic diseases such as dementia and hormonal disorders. The development of more accurate methods of monitoring and detecting plastic particles in the human body tissue is one of the urgent research priorities; To better understand the health effects of these materials.