TY - JOUR
T1 - Assessment of operating room airflow using air particle counts and direct observation of door openings
AU - Teter, Jonathan
AU - Guajardo, Isabella
AU - Al-Rammah, Tamrah
AU - Rosson, Gedge
AU - Perl, Trish M.
AU - Manahan, Michele
N1 - Publisher Copyright:
© 2017 Association for Professionals in Infection Control and Epidemiology, Inc.
PY - 2017/5/1
Y1 - 2017/5/1
N2 - Background The role of the operating room (OR) environment has been thought to contribute to surgical site infection rates. The quality of OR air, disruption of airflow, and other factors may increase contamination risks. We measured air particulate counts (APCs) to determine if they increased in relation to traffic, door opening, and other common activities. Methods During 1 week, we recorded APCs in 5-minute intervals and movement of health care workers. Trained observers recorded information about traffic, door openings, job title of the opener, and the reason for opening. Results At least 1 OR door was open during 47% of all readings. There were 13.4 door openings per hour during cases. Door opening rates ranged from 0.19-0.28 per minute. During this time, a total of 660 air measurements were obtained. The mean APCs were 9,238 particles (95% confidence interval [CI], 5,494- 12,982) at baseline and 14,292 particles (95% CI, 12,382-16,201) during surgery. Overall APCs increased 13% when either door was opened (P < .15). Larger particles that correlated to bacterial size were elevated significantly (P < .001) on door opening. Conclusions We observed numerous instances of verbal communication and equipment movement. Improving efficiency of communication and equipment can aid in reduction of traffic. Further study is needed to examine links between microbiologic sampling, outcome data, and particulate matter to enable study of risk factors and effects of personnel movement.
AB - Background The role of the operating room (OR) environment has been thought to contribute to surgical site infection rates. The quality of OR air, disruption of airflow, and other factors may increase contamination risks. We measured air particulate counts (APCs) to determine if they increased in relation to traffic, door opening, and other common activities. Methods During 1 week, we recorded APCs in 5-minute intervals and movement of health care workers. Trained observers recorded information about traffic, door openings, job title of the opener, and the reason for opening. Results At least 1 OR door was open during 47% of all readings. There were 13.4 door openings per hour during cases. Door opening rates ranged from 0.19-0.28 per minute. During this time, a total of 660 air measurements were obtained. The mean APCs were 9,238 particles (95% confidence interval [CI], 5,494- 12,982) at baseline and 14,292 particles (95% CI, 12,382-16,201) during surgery. Overall APCs increased 13% when either door was opened (P < .15). Larger particles that correlated to bacterial size were elevated significantly (P < .001) on door opening. Conclusions We observed numerous instances of verbal communication and equipment movement. Improving efficiency of communication and equipment can aid in reduction of traffic. Further study is needed to examine links between microbiologic sampling, outcome data, and particulate matter to enable study of risk factors and effects of personnel movement.
KW - Air quality
KW - Infection control
KW - Operating room
KW - Particulate matter
KW - Surgery
KW - Surgical site infection
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U2 - 10.1016/j.ajic.2016.12.018
DO - 10.1016/j.ajic.2016.12.018
M3 - Article
C2 - 28209451
AN - SCOPUS:85012267096
SN - 0196-6553
VL - 45
SP - 477
EP - 482
JO - American Journal of Infection Control
JF - American Journal of Infection Control
IS - 5
ER -