Asbestos Substitute, Rock Wool Fiber, Also Causes DNA Damage, Study Finds

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An asbestos alternative known as rock wool fiber also causes DNA damage, according to a Chinese study.

The finding is important because scientists say asbestos causes the lung cancer mesothelioma and other cancers, and the research suggests that substituting rock wool fiber for asbestos will not prevent these diseases.

Another reason the study is important is that it confirmed that chrysotile asbestos, which accounts for 90 percent of the world supply, causes DNA damage, or genotoxicity. China is not only the biggest chrysotile consumer of the construction material worldwide but also manufactures a lot of it.

The study, “Chrysotile and rock wool fibers induce chromosome aberrations and DNA damage in V79 lung fibroblast cells,” was published in Environmental Science and Pollution Research.

Research has linked the construction material chrysolite asbestos to lung, larynx and ovarian cancer.

Although many countries have banned the use of asbestos, companies that produce substitutes such as rock wool fiber, glass fiber, and ceramic fiber have pushed for their continued use. One of their arguments is that the substitutes don’t cause the health damage that asbestos does.

Until the Chinese study, scientists were unsure whether the substitutes caused DNA damage.

The basic building blocks of the body, genes, are made up of DNA. Damaged DNA can prevent the body from performing certain functions properly, such as producing proteins. Damaged DNA, plus gene mutations, are also key drivers of tumor development, scientists say.

There are many types of DNA damage. One of the worst is a broken strand of DNA — what scientists call a DNA break.

The Chinese team used lung fibroblast cells from hamsters to assess DNA damage from chrysotile asbestos and rock wool fiber. Fibroblasts are connective tissue that play an important role in wound healing.

One component of the study was checking the level of micronuclei in cells exposed to increasing concentrations of either chrysotile or rock wool fiber. Micronuclei are clumps of DNA that accumulate from DNA damage and cells’ inability to reproduce themselves.

Both chrysotile and rock wool fiber increased the number of micronuclei in lung cells, the team discovered. The higher the amount of either compound, the more micronuclei there were.

Interestingly, chrysotile caused more DNA damage than rock wool fiber only at the highest concentrations the researchers compared. At lower doses, the two caused the same degree of damage.

Researchers also looked at the number of DNA fragments from strand breaks. As in their earlier experiment, they discovered that the higher the concentration of either chrysotile or rock wool fiber, the higher the number of fragments.

Another finding was that chrysotile caused significantly more DNA damage than rock wool fiber when cells were exposed to high concentrations of the compounds over a lengthy period.

Although chrysotile inflicts more DNA damage than rock wool fiber, both can cause significant damage, the researchers said. Future studies could shed more light on the safety risks of the two, the team said.