PANAMA CITY, Fla., Dec. 2, 2015 /PRNewswire/ -- According to a new scientific study published in the December print publication of the American Journal of Infection Control (AJIC),i 87 percent of tested sterilized rigid containers – used in the sterilization of surgical instruments – allowed ingress of aerosolized bacteria under the test conditions used. This study calls into question the assumption that rigid containers, regardless of duration of use, can maintain the sterility of their contents post-sterilization.
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Approximately 300,000 surgical site infections (SSIs) occur annually in U.S. hospitals, resulting in an estimated 9,000 attributable deaths.ii-iv Maintaining a sterile environment in the operating room (OR) is essential for SSI prevention and may be achieved through the use of sterile packaging systems (SPS). SPS are designed to protect surgical instruments post-sterilization until use in the OR. The two primary types of SPS include rigid containers and sterilization wrap. Rigid containers are reusable and come in a variety of materials (various metals, aluminum and polymers) and sizes, while single-use sterilization wrap is often composed of polypropylene.
The study, "Sterility Maintenance Study: Dynamic Evaluation of Sterilized Rigid Containers and Wrapped Instrument Trays to Prevent Bacterial Ingress," used a dynamic aerosol test method that allowed for air exchanges to occur in SPSs that may simulate normal air exchanges in hospital settings. The study found that:
- Rigid containers, both used and unused, failed to maintain barrier performance under these test conditions: 87 percent (97 out of 111) of the rigid containers failed to maintain barrier performance, allowing ingress of the challenge microorganism.
- Rigid containers may be less effective the longer they are in use: Contamination rates of rigid containers increased as duration of use increased.
- Rigid containers with 5-9 years of use were significantly more likely to have bacterial ingress than unused rigid containers (p = 0.04).
- Sterilization wraps provided no detectable ingress of bacteria: 100 percent (161 out of 161) of the wrapped trays using sterilization wrap maintained barrier performance, preventing any bacterial ingress and protecting sterility.
The study was conducted by Harry L. Shaffer of Sterilization Consulting Services LLC, Highlands Ranch, Colorado, Reid A. Vernon of the United States Air Force Academy, Colorado Springs, Colorado, and Delbert Harnish, Michael McDonald and Brian K. Heimbuch of Applied Research Associates (ARA), Panama City, Florida.
Results Validate 2006 Study
The 2015 research follows a 2006 study published in AJIC,v conducted by Dr. Hartmut Dunkelburg and Friederike Fleitmann-Glende, MS, from the Medical Institute of General Hygiene and Environmental Health, University of Goettingen in Germany. Much like the 2015 study, it also explored the ability of SPSs to prevent bacterial ingress. It was conducted by providing a bioaerosol challenge to 216 sterilization containers of four central sterile supply departments of different hospitals in Germany. It found that nine out of 11 containers with paper filters and 70 out of 79 containers with textile filters failed to maintain barrier performance under the test conditions used.
About the Study
The 2015 study took place in ARA's Bioaerosol and Applied Microbiology laboratory in Panama City, Florida. ARA evaluated the effectiveness of rigid containers versus wrapped instrument trays sterilized using North American sterilization protocols. The study was designed to evaluate the capability of sterilized rigid containers and sterilization wrap to maintain a sterile internal environment, post-sterilization, when challenged with aerosolized bacteria under dynamic environmental conditions.
The study was conducted using a custom aerosol chamber that was designed and built by ARA. 111 rigid containers of various durations of use (unused, <5 years, 5-9 years), and 161 wrapped trays were evaluated using three grades of sterilization wrap. SPSs were sterilized and then challenged with ~102 colony-forming units per liter of air of a Micrococcus luteus aerosol with a count median diameter particle size of ~1 micrometer, while simultaneously experiencing air volume exchanges due to vacuum cycles – two 1-pound-per-square-inch (psi) cycles, three 0.7-psi cycles, and three 0.4-psi cycles. These vacuum cycles were used to simulate air exchange events which occur during the sterilization, transportation, and storage of sterilized instrument sets in healthcare facilities.
The study was funded by Halyard Health (formerly Kimberly-Clark Health Care).
About Applied Research Associates, Inc.
ARA is an employee-owned scientific research and engineering company founded in 1979. It is dedicated to producing innovative solutions that tackle critical national problems in national security, infrastructure, energy and environment, and health solutions. The company is committed to solving our customers' toughest problems with innovative, yet practical and technically sound solutions. ARA's Bioaerosol and Applied Microbiology Group has over twelve years of experience working on bioaerosol applications for government and industry. The group's main research focuses are infection control, pandemic influenza preparedness, and protection systems. For additional information, please visit http://www.ara.com.
i Shaffer H, Harnish D, McDonald M, Vernon R, Heimbuch B. Sterility maintenance study: Dynamic evaluation of sterilized rigid containers and wrapped instrument trays to prevent bacterial ingress. Am J Infect Control 2015 Dec;43(12):1336-41.
ii Anderson DJ, Kaye KS, Classen D, Arias KM, Podgorny K, Burstin H, et al. Strategies to prevent surgical site infections in acute care hospitals. Infect Control Hosp Epidemiol 2008 Oct;29 Suppl 1:S51-61.
iii Engemann JJ, Carmeli Y, Cosgrove SE, Fowler VG, Bronstein MZ, Trivette SL, et al. Adverse clinical and economic outcomes attributable to methicillin resistance among patients with Staphylococcus aureus surgical site infection. Clin Infect Dis 2003 Mar 1;36(5):592-98.
iv Kirkland KB, Briggs JP, Trivette SL, Wilkinson WE, Sexton DJ. The impact of surgical-site infections in the 1990s: attributable mortality, excess length of hospitalization, and extra costs. Infect Control Hosp Epidemiol 1999 Nov;20(11):725-30.
v Dunkelberg H, Fleitmann-Glende F. Measurement of the microbial barrier effectiveness of sterilization containers in terms of the log reduction value for prevention of nosocomial infections. Am J Infect Control 2006 Jun;34(5):285-9.
SOURCE Applied Research Associates, Inc.