The Healthy Homes and Building blog is a professional blog dedicated to discussing healthy homes and building issues. Topics include but are not limited to indoor air quality, asbestos, lead, dust mites, rodents, IPM, radon, second hand smoke, safety and PBCs in building materials(e.g. caulking, paint etc.) .
Friday, March 15, 2013
What are the Health Effects of Fiberglass?
The main sources of fiberglass particles in indoor environments includes, but are not limited to, ceiling tiles, debris from renovation projects, or degradation of HVAC system liners.
Washington 3/12/2013 04:18 PM GMT (TransWorldNews)
Pure Air Control Services, Inc.
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Fiberglass is a type of fiber primarily composed of glass that is used in a wide variety of applications, and is predominantly used as a residential and commercial thermal insulator. As an insulator, it maintains a resistance to the spread of heat (known as the R-Value), cold and sound in structures, vehicles, aircraft, etc. By trapping pockets of air, it keeps areas warm in the winter and cools in the summer and thereby serves as a excellent way to increase energy conservation all the while maintaining comfort.
Glass has been woven into small amounts of coarse fibers for many centuries, even by the ancient Egyptians, but fiberglass did not exist in its modern (insulation) form until 1932 as a result of an accident. An Owens-Illinois researcher named Dale Kleist was attempting to create a vacuum-tight seal between two glass blocks when a jet of high-pressure air turned a stream of molten glass into fine fibers. He had unintentionally discovered an effective method to produce large amounts of fiberglass particles, a method that he would refine in later years. In the United States, the first commercial production of fiberglass was started by Illinois Glass Company and the Corning glass work in 1939.
The main sources of fiberglass particles in indoor environments includes, but are not limited to, ceiling tiles, debris from renovation projects, or degradation of HVAC system liners. These particles are very important from health and hygiene point of view. OSHA regulates fiberglass particles as a nuisance dust since 1991. Health implications from these particles may vary depending on the fiber size and type of exposure. Skin/eye irritation, rashes, soreness in nose and throat, asthma like symptoms, upset stomach etc. are some common symptoms due to contact, inhalation and ingestion of relatively larger fiberglass fiber although the smaller fragments (less than 0.5 micron) are capable of reaching the lower part of the lungs increasing the chance of adverse health effects.
Health effects from exposure to fiberglass can be different depending on the fiber size and type of exposure. Larger fibers have been found to cause skin, eye and upper respiratory tract irritation. There are other possible health effects:
•A rash can appear when the fibers become embedded in the outer layer of the skin. No long-term health effects should occur from touching fiberglass.
•Eyes may become red and irritated after exposure to fiberglass.
•Soreness in the nose and throat can result when fibers are inhaled. Asthma and bronchitis can be aggravated by exposure to fiberglass.
•Temporary stomach irritation may occur if fibers are swallowed.
Little information is known about the health effects caused by small fibers. Smaller fibers have the ability to reach the lower part of the lungs increasing the chance of adverse health effects.
People who work with fiberglass or who have worn-out duct work lined with fiberglass in their homes or workplace may have long-term exposure to fiberglass. There is no evidence that fiberglass causes cancer in people. Animal studies have shown an increased risk of cancer when fiberglass fibers were implanted in the lung tissue of rats, but these studies are controversial because of how the fibers were implanted.
Under a microscope, fiberglass appears as a smooth-walled, colorless or slightly pigmented surrounding, entire margin, elongated tube-like structure with varying size ranges, 1 to > 1000 microns.
Ideally, there should not be any air or surface-borne fiberglass fibers in indoor environments. An independent study performed by EDLab at Pure Air Control Services Inc., utilizing over 10,000 indoor air samples, reveals that 99% of the air and surface samples collected were deemed negative for the presence of fiberglass fiber. Samples deemed positive for these particles indicated that the concentration of fiberglass fiber is greater in surface samples (up to 176 cts/cm2) in comparison to air samples (66 cts/m3). Additionally, this independent study suggests the concentration of fiberglass fiber in the air should be less than 5 cts/m3 and 4 cts/cm2 in surface samples.
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