Antimicrobial building products marketed as “healthy” or beneficial to human health contain ingredients that may have adverse environmental or human health impacts, and alternative products should be considered whenever possible, according to a new white paper by global architecture and design firm Perkins+Will and the Healthy Building Network (HBN).
Healthy Environments: Understanding Antimicrobial Ingredients in Building Materials exposes the lack of scientific evidence supporting claims that so-called antimicrobial products like paints, kitchen countertops, door handles, flooring, and other interior finishes help ward off communicable diseases. In fact, the report highlights a growing body of research suggesting potential negative impacts of antimicrobials on both the body and the environment. Potential impacts include the possible proliferation of “super bugs” caused by microbial resistance, contamination of aquatic ecosystems, and potential exposure to known or suspected carcinogens like formaldehyde.
“What consumers don’t realize is that the federal government considers antimicrobials pesticides because they are agents used to kill or control living organisms—and they should therefore be used with great care,” says Suzanne Drake, a senior interior designer at Perkins+Will and co-author of the white paper. “Because we caution against using building products containing ingredients suspected of hazardous health impacts, we should avoid products containing antimicrobial ingredients. That includes building products intended for healthcare settings.”
Perkins+Will is placing “Products Marketed as Antimicrobial” on its Precautionary List, urging designers to consider alternatives before specifying them. The move reflects the position of the U.S. Centers for Disease Control and Prevention, the U.S. Food and Drug Administration, and other credible organizations that have reviewed antimicrobial agents and found them to be both ineffective and unnecessary.
“The fact is, there’s zero evidence that antimicrobial additives provide a health benefit,” says Drake.
Building products with antimicrobial additives are relatively new in the marketplace, but their recent surge in popularity has been fueled by manufacturers looking to differentiate themselves and tap into consumer demand for healthy products and healthy built environments. The number of antimicrobial consumer products on the market grew from just a few dozen in 1994 to more than 2,000 in 2014. In some cases, manufacturers add antimicrobial ingredients to a product as a preservative to protect the product from decay, yet they still market the product in ways suggesting that the benefits of the antimicrobials may extend to human health.
“Because the identity and intended purpose of antimicrobials used in building products is often poorly disclosed, it can be difficult to understand what you’re buying,” says Melissa Coffin, principal investigator with HBN and co-author of the white paper. “Perkins+Will’s approach to consider alternative products to those marketing antimicrobial attributes categorically is a good strategy for navigating a complicated issue.” A dedicated appendix in the white paper explains the legal framework that makes the issue so complicated, Coffin adds.
To read a quick overview of the white paper’s top 10 findings, click here.
To read the full white paper, click here.
Related Stories
| Nov 18, 2013
USGBC, UL Environment announce joint Environmental Product Declaration
Strategic partnership between U.S. Green Building Council and UL Environment will focus on building materials and product transparency.
| Nov 15, 2013
Metal makes its mark on interior spaces
Beyond its long-standing role as a preferred material for a building’s structure and roof, metal is making its mark on interior spaces as well.
| Nov 14, 2013
Behind the build: BD+C's 'Pedia-Pod' modular pediatric patient unit at Greenbuild 2013 [slideshow]
Next week at Greenbuild, BD+C will unveil its demonstration pediatric patient unit, called Pedia-Pod. Here's a behind-the-scenes look at the construction of this unique modular structure.
| Nov 8, 2013
Walkable solar pavement debuts at George Washington University
George Washington University worked with supplier Onyx Solar to design and install 100 sf of walkable solar pavement at its Virginia Science and Technology Campus in Ashburn, Va.
| Nov 4, 2013
New DOE code changes require improved energy efficiency in commercial construction
Outsulation by Dryvit incorporates continuous insulation and a seamless air/water-resistive barrier, which meets new code requirements
| Oct 18, 2013
Researchers discover tension-fusing properties of metal
When a group of MIT researchers recently discovered that stress can cause metal alloy to fuse rather than break apart, they assumed it must be a mistake. It wasn't. The surprising finding could lead to self-healing materials that repair early damage before it has a chance to spread.
| Oct 15, 2013
Sustainable design trends in windows, doors and door hardware [AIA course]
Architects and fenestration experts are looking for windows and doors for their projects that emphasize speed to the project site, a fair price, resilient and sustainable performance, and no callbacks.
| Oct 7, 2013
10 award-winning metal building projects
The FDNY Fireboat Firehouse in New York and the Cirrus Logic Building in Austin, Texas, are among nine projects named winners of the 2013 Chairman’s Award by the Metal Construction Association for outstanding design and construction.
| Sep 20, 2013
Perimeter roof edge: The first line of defense in a wind event [AIA course]
Aside from the roof membrane itself, the perimeter roof edge is the most critical component of the roofing system. As such, it warrants more scrutiny when designing a roof system.
| Sep 19, 2013
6 emerging energy-management glazing technologies
Phase-change materials, electrochromic glass, and building-integrated PVs are among the breakthrough glazing technologies that are taking energy performance to a new level.
