The Center for Biofilm Engineering

ASTM International Committee on Pesticides Approves Second Biofilm Standard 

ASTM International  - Standards Worldwide August 2007 http://www.astm.org __________________________________________ Biofilm, self-organized communities of bacteria that can have both positive and negative effects in a variety of industries, is the subject of a new ASTM International standard, E 2562, Test Method for Quantification of Pseudomonas aeruginosa Biofilm Grown with High Shear and Continuous Flow Using CDC Biofilm Reactor. The new standard is under the jurisdiction of Subcommittee E35.15 on Antimicrobial Agents, which is part of ASTM International Committee E35 on Pesticides and Alternative Control Agents.

Image caption: Confocal microscopy image of Pseudomonas aeruginosa biofilm  Image credit: Kelli Buckingham-Meyer, Center for Biofilm Engineering, Montana State University

According to Dr. Darla Goeres, senior research engineer, Center for Biofilm Engineering, biofilm consists of bacteria attached to a surface that are embedded in a layer of slime. Bacteria in the biofilm secrete a plastic-like substance called extracellular polysaccharides, which forms the protective slime layer around the cells and binds them together. In addition to bacteria, the slime layer may contain anything from corrosion products and scale to blood and dead skin cells, depending on the environment in which the biofilm forms.

“Historically, scientists believed that the bacteria attached to the surface randomly,” says Goeres. “We now understand that biofilm is a dynamic, organized cooperative community of bacteria. The bacteria communicate through chemical signaling and this allows them to attach and detach in an organized pattern beneficial to the biofilm. Fundamental research has shown that biofilm bacteria are different from free-floating, individual bacteria that have been the focus of most antibacterial efficacy testing up to this point.”

Biofilm corrodes pipes in oil reservoirs and is a cause of infection associated with medical devices such as catheters. In addition, biofilm harbors pathogenic bacteria such as Legionella (the cause of Legionnaire’s disease) in cooling systems and hot tub filters.

However, as Goeres points out, there are positive uses for biofilm as well. “For example, biofilm may bioremediate gasoline leaking from an underground storage tank or the acid drainage associated with mine tailing ponds,” says Goeres. “Right now, industry, medical, professional and regulatory agencies are learning about biofilms and how to best control them and exploit them.”

Biofilm efficacy testing is a four-step process:
1. Grow a relevant and repeatable biofilm in a laboratory reactor;
2. Treat a mature biofilm with biocide or antibiotics;
3. Sample the biofilm, which includes removing it from the surface and disaggregating the clumps; and,
4. Analyze the sample for quantitative and/or qualitative estimate of kill and/or removal as a result of the treatment.

Goeres says that E 2562 is one of only two standards that address how to grow, sample and analyze biofilm bacteria. The other standard is also an ASTM International document, E 2196, Test Method for Quantification of a Pseudomonas aeruginosa Biofilm Grown with Shear and Continuous Flow Using a Rotating Disk Reactor.

Interested parties are invited to join the standards developing activities of Subcommittee E35.15, which will eventually include proposed low shear and no shear biofilm growth protocols and treatment protocols. “Biofilm research is truly an interdisciplinary field that draws upon fundamental principles in engineering, microbiology, biochemistry, statistics and mathematics,” says Goeres.

ASTM International standards are available for purchase from Customer Service (phone: 610/832-9585; service@astm.org) or at www.astm.org.

For further technical information, contact Darla Goeres, Center for Biofilm Engineering, Bozeman, Mont. (phone: 406/994-2440; darla_g@biofilm.montana.edu).

Committee E35 will meet Oct. 29-Nov. 1 at the October Committee Week in Tampa, Fla. For membership or meeting information, contact Daniel Smith, Technical Committee Operations, ASTM International (phone: 610/832-9727; dsmith@astm.org).


Release #7714