A new review outlines the health effects of silica, and calls for action to reduce illness and death from silica exposure at work.
For centuries, too much silica exposure, such as when workers cut, grind, crush, or drill silica-containing materials such as concrete, masonry, tile, and rock, has been known to cause lung disease (silicosis). Evidence linking silica to lung cancer is more recent. There is some low-level silica exposure on beaches and in ambient air in general but no evidence such low-level exposure causes health effects.
Writing in CA: A Cancer Journal for Clinicians, Kyle Steenland, PhD, at the Rollins School of Public Health at Emory University in Atlanta, and Elizabeth Ward, PhD, of the American Cancer Society highlight ways they believe could prevent illness and death from silica exposure at work.
Citing new studies finding that silica-exposed workers who do not have silicosis and who do not smoke still have increased rates of death from lung mortality, they advocate a new rule lowering the permissible occupational exposure for the estimated 2.2 million US workers currently exposed to silica. Estimates are that lowering occupational exposure limits from the current to the proposed standard will reduce silicosis and lung cancer mortality to approximately one-half of the rates predicted under the current standard.
Since low-dose computed tomography scanning has been proven to be an effective screening method for lung cancer, the authors recommend that clinicians ask about occupational history to determine if silica exposure has occurred, and if it has, that extra attention might be given to the early detection of silicosis and lung cancer, as well as extra emphasis on quitting smoking.
The authors recommend that individuals with significant occupational exposure to silica be offered screening beginning at age 50 years if they also have smoked the equivalent of one pack a day for at least 20 pack-years; what experts call 20 pack-years of smoking.
The most effective measures for the control of occupational silica exposures include banning sandblasting, substituting metal grits for abrasive blasting, modifying processes and equipment, and controlling dust transmission by using enclosures, air curtains, water spray, and ventilation techniques, and the use of personal protective equipment.
"Current regulations have substantially reduced silicosis death rates in the United States, but new cases of silicosis continue to be diagnosed," says Steenland. "And while the lung cancer risk associated with silica exposure is not as large as some other lung carcinogens, like smoking or asbestos exposure, there is strong and consistent evidence that silica exposure increases lung cancer risk."