Even small amounts of antibiotics can cause resistance: study

In some parts of the world, large quantities of antibiotics are used in meat production and aquaculture

Update: 2018-04-24 11:10 GMT
Girls given four or more types of the drugs were 50 per cent more likely to become obese. (Photo: Pixabay)

Even low concentrations of antibiotics can cause high antibiotic resistance in bacteria, a growing problem in global health care, according to a study.

In the study published in the journal Nature Communications, researchers investigated how prolonged exposure to low levels of antibiotics contributes to the development of bacterial antibiotic resistance.

“The results are interesting because they show that the very low antibiotic concentrations present in many environments, too, can lead to a high degree of resistance and contribute to the problem of resistance,” said Dan I Andersson, a professor at Uppsala University in Sweden.

During a course of antibiotics, a high proportion of the antibiotic dose is excreted in the urine in unchanged, active form, and can then spread into watercourses, lakes and soil in the wastewater.

Consequently, these environments may contain low levels of antibiotics, researchers said.

In some parts of the world, large quantities of antibiotics are used in meat production and aquaculture, where small doses of antibiotics are added to the animal feed to make the animals grow faster, they said.

This means that the bacteria in their intestines are exposed to low levels of antibiotics over long periods and these bacteria can then, in turn, infect people via food, for example.

The researchers show that low concentrations of antibiotics, too, play a major part in the development of resistance.

The study showed that, over time, bacteria exposed to low doses of antibiotics developed resistance to antibiotic levels that were more than a thousand times higher than the initial level to which the bacteria were subjected.

It was also found that the mutations in the bacterial DNA that cause resistance are of a different type than if they have been exposed to high doses.

During the experiment, the bacteria eventually acquired several mutations. Each of these yielded low resistance, but together they brought about very high resistance.

In addition, the mutations took place mainly in genes that have not previously been regarded as typical resistance genes, suggesting that the number of genes capable of promoting development of resistance has been greatly underestimated.

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