Rumors: Honey can clean teeth. Honey contains lysozyme-like ingredients, has a strong ability to bactericidal and Antibacterial for a variety of pathogenic bacteria, regular consumption of honey and pay attention to oral hygiene, can prevent the occurrence of dental caries.
Truth: Honey has always been regarded as a “natural medicine†of “good medicine,†and its “health care†and even “medical†effects have been widely publicized. How to get rid of the myths about these "efficacies" can be taken from the squirrel cloud inadvertent article "Don't be obsessed with honey, although it has beautiful legends." Here only to talk about rumors to talk about "honey locust."
Not only can honey not prevent dental caries, it can be deterring. This not only has been confirmed by animal experiments [1], the relevant population survey and research also supports the view that eating more honey has more dental caries, [2] less consumption of honey and less caries [3]. The "lysozyme component" similar to the rumor in rumors is just a speculation that honey has "bactericidal and bacteriostatic ability" and has not been confirmed. To take a step back, even if honey has antibacterial activity, it does not mean that it has no cariogenicity, and it does not mean that it is anti-mite.
Honey: The camouflage of sugar, an accomplice
The main ingredient of honey is sugar, containing 30% glucose and 38% fructose and a small portion of sucrose. The relationship between dental caries and sugar is inseparable. The bacteria that cause dental caries is the bacteria in the mouth. They grow on the surface of the teeth and form plaque. Sugar is the favorite food for these bacteria. Bacteria Metabolism The acidic substances produced by sugar are the most fearsome minerals that make up the teeth. When the acidity is high to a certain extent, these minerals will start to lose, and dental caries occur. The more sugar you eat, the more serious the decay.
Although different sugars have different cariogenic abilities, from the strongest sucrose to glucose to maltose, lactose, and fructose, as long as they get into your mouth and attach to your teeth, they will give you more or less Your tooth road will add bricks and tiles. Many chewing gum brands launched the so-called “xylitol chewing gums for prevention and treatment of tooth decayâ€. In fact, it was only because of the use of xylitol as a sweetener that could not be used by cariogenic bacteria and avoided the contact of more sugars. Xylitol itself did not Prevent dental caries.
The mechanism of dehydration of sugar is clear and definite, honey containing a lot of sugar can hardly be resigned. The crowd survey did indeed find that over-intake of honey was significantly associated with dental caries, and those who consumed less honey were less likely to develop caries.
Antibacterial activity
The statement that honey is "preventing phlegm" is probably the erroneous derivative of antibacterial research on honey. Similar domestic propaganda often referred to a scholar named Molan, and he launched honey based on his research and viewpoints to prevent it. This is a misunderstanding.
Moran is an assistant professor of honey biochemistry in New Zealand. In a review, he said that there are many research results on the antibacterial activity of honey, suggesting that we may have the effect of reducing the risk of rickets by using honey, but it needs to be confirmed by experiments. If we think that he agrees with honey that it can guard against defamation, it seems to be insufficient.
Although studies have found that undiluted and high concentrations (75%) of honey have inhibitory effects on S. mutans cultured in vitro, there is no indication of the feasibility of oral antibacterial activity (no one would “dry drink†pure For honey, it is not responsible for them.) The antibacterial mechanism speculates that whether glucose oxidase metabolizes glucose to produce antibacterial hydrogen peroxide, or that the contained flavonoids play an antibacterial role, they are not enough to support the theory of anti-spasm Concentration?).
To say that more feelings are still far away, it's better to take a look at the experiments that Dr. William and his colleagues used rats to make us have a more intuitive feeling of "honey and decayed teeth." The experiments compared the cariogenicity of honey (10% dilution), cola, milk, and human milk. The figure below shows the results of feeding honey and a sample of distilled water as a control.
In the actual prevention of rickets, "bactericidal and bacteriostatic" is not a routine measure, and brushing your teeth, flossing, and using fluoride toothpaste are the right ways. If you like honey, you can usually drink it anyway. Just like eating sugar, you can rinse your mouth in a timely manner and clean your mouth. It will not cause great harm. If you drink regularly to prevent dental caries, it is completely unnecessary.
Conclusion: Rumors crush. Honey is not anti-mite, but it has deterrence. High concentrations of honey may have a certain antibacterial effect, but it does not mean that eating honey can prevent dental caries.
There are many kinds of chemical raw materials and they are widely used. There are five to seven million chemicals in the world, and more than 100,000 chemicals are sold in the market. More than 1,000 new chemicals are produced every year, and 150 to 200 of them are considered carcinogens.Chemical raw materials can be divided into organic chemical raw materials and inorganic chemical raw materials.Folding organic chemical raw materials
They can be classified as alkanes and their derivatives, alkenes and their derivatives, alkynes and their derivatives, quinones, aldehydes, alcohols, ketones, phenols, ethers, anhydrides, esters, organic acids, carboxylate, carbohydrates, heterocycles, nitrile, halogenates, aminoacyls, and others
Folding inorganic chemical raw materials The main raw materials of inorganic Chemical Products are sulfur, sodium, phosphorus, potassium, calcium and other chemical minerals (see inorganic salt industry), coal, oil, natural gas, air, water and so on. In addition, many byproducts and wastes of industrial sectors are also raw materials of inorganic chemical industry, such as coke oven gas in the coking production process of the iron and steel industry, which contains ammonia can be recycled into ammonium sulfate with sulfuric acid, and sulfur dioxide in the smelting waste gas of chalcopyrite, galena and sphalerite can be used to produce sulfuric acid.
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