[ad_1]
– Each year, the person takes several kilograms of liquid and inhales particles of volatile chemicals found in shampoos and perfumes, and takes antibiotics that inadvertently enter the toothpaste.
The following article discusses what can be found in health products and cosmetics and their dangerousness to health.
US scientists, trying to find new ways to identify criminals in 2016, have found it possible to use a smartphone. On the screen are the molecules of the same chemicals on human skin and the same amounts. This "badtail" in 99% of cases will be different for everyone.
The study included 39 volunteers and the chemical composition was similar to that of only two people, and they were found living together. The scientists of the other volunteers found their own chemical fingerprints, which allowed in 70% of cases to connect the smartphone to its owner.
Chromatography and spectroscopy also helped to identify the tools used by participants over the past few days, which were in most cases food products, drugs, chemical detergents and cosmetics. In addition, the accuracy was so high that scientists were able to find out what type of shampoo was preferred by the owner of the smartphone and whether he was using a mosquito protector or a lotion.
In a recent study, American and Canadian scientists discovered that chemical molecules are present in the lungs and that their concentration in the air suggests that domestic chemical detergents could be responsible for the accumulation of chemicals. ozone in the lower atmosphere.
We mainly talk about VOCs, found in shampoos, perfumes, deodorants, soaps, gasoline-based products and its compounds. According to scientists, these substances increase the risk of cancer and pollute the air as a waste gas.
According to studies, the level of volatile organic compounds emitted by household chemicals in Los Angeles has tripled in recent years.
However, scientists have not found the ingredients of the most dangerous detergents and cosmetics.
The risks of soap, especially bacteria, lie in the VOCs it contains, in addition to triclosan. The antibiotic affects mitochondria in mammalian cells and stimulates the self-destruction program, scientists discovered from the Institute of Theoretical and Experimental Biophysics of the Russian Academy of Sciences.
The negative effect of triclosan has only been shown to date on liver cells in experimental mice. These molecules disrupted the action of mitochondria and led to holes in cell membranes, which resulted in a special signaling of cells leading to apoptosis, the program of cell self destruction.
This material reaches the human body through the toothbrush. This substance is used in many countries around the world for the manufacture of medical toothpaste because it reduces the risk of gingivitis. Triclosan accumulates on the toothbrush and can enter large amounts into the human body through the mouth, even if the person stops using a medical toothpaste.
Fluids can also cause serious damage to health. Many of them are composed of active surface materials derived from petroleum products. According to several studies, these substances, if they are accumulated in sufficient quantities, can disrupt the work of the liver, which leads to an increase in the level of cholesterol in the body, as well as lung function disorders and sensitization reactions.
For example, Norwegian scientists claim that the exhalation volume of people using chemical cleaners, especially housewives and maids, is about 7.1 milliliters per year, which is comparable to smoking. The asthma rate in these people is 14% higher. These results were obtained through the respiratory monitoring of more than 6,000 volunteers in 20 years.
German microbiologists point out that one should be more careful than dishwashing sponges rather than detergents: 50 billion microorganisms live on the cubic centimeter of sponges, most of which are harmless, but researchers have discovered interstitial coliform bacteria responsible for intestinal disorders. Bacterium causing pneumonia and meningitis.
[ad_2]
Source link