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J Occup Environ Hyg


Title:Surgical smoke control with local exhaust ventilation: Experimental study
Author(s):Lee T; Soo JC; LeBouf RF; Burns D; Schwegler-Berry D; Kashon M; Bowers J; Harper M;
Address:"a Exposure Assessment Branch, Health Effects Laboratory Division, National Institute for Occupational Safety and Health , Centers for Disease Control and Prevention , Morgantown , West Virginia. b Field Study Branch Respiratory Health Division, National Institute for Occupational Safety and Health , Centers for Disease Control and Prevention , Morgantown , West Virginia. c Pathology and Physiology Research Branch, Health Effects Laboratory Division, National Institute for Occupational Safety and Health , Centers for Disease Control and Prevention , Morgantown , West Virginia. d Biostatistics and Epidemiology Branch, Health Effects Laboratory Division, National Institute for Occupational Safety and Health , Centers for Disease Control and Prevention , Morgantown , West Virginia. e West Virginia University Ruby Memorial Hospital , Morgantown , West Virginia"
Journal Title:J Occup Environ Hyg
Year:2018
Volume:15
Issue:4
Page Number:341 - 350
DOI: 10.1080/15459624.2017.1422082
ISSN/ISBN:1545-9632 (Electronic) 1545-9624 (Print) 1545-9624 (Linking)
Abstract:"This experimental study aimed to evaluate airborne particulates and volatile organic compounds (VOCs) from surgical smoke when a local exhaust ventilation (LEV) system is in place. Surgical smoke was generated from human tissue in an unoccupied operating room using an electrocautery surgical device for 15 min with 3 different test settings: (1) without LEV control; (2) control with a wall irrigation suction unit with an in-line ultra-low penetration air filter; and (3) control with a smoke evacuation system. Flow rate of LEVs was approximately 35 L/min and suction was maintained within 5 cm of electrocautery interaction site. A total of 6 experiments were conducted. Particle number and mass concentrations were measured using direct reading instruments including a condensation particle counter (CPC), a light-scattering laser photometer (DustTrak DRX), a scanning mobility particle sizer (SMPS), an aerodynamic particle sizer (APS), and a viable particle counter. Selected VOCs were collected using evacuated canisters using grab, personal and area sampling techniques. The largest average particle and VOCs concentrations were found in the absence of LEV control followed by LEV controls. Average ratios of LEV controls to without LEV control ranged 0.24-0.33 (CPC), 0.28-0.39 (SMPS), 0.14-0.31 (DustTrak DRX), and 0.26-0.55 (APS). Ethanol and isopropyl alcohol were dominant in the canister samples. Acetaldehyde, acetone, acetonitrile, benzene, hexane, styrene, and toluene were detected but at lower concentrations (<500 mug/m(3)) and concentrations of the VOCs were much less than the National Institute for Occupational Safety and Health recommended exposure limit values. Utilization of the LEVs for surgical smoke control can significantly reduce but not completely eliminate airborne particles and VOCs"
Keywords:"Air Pollutants, Occupational/analysis *Electrocoagulation Humans Occupational Exposure/prevention & control Particulate Matter/*analysis Smoke/analysis/*prevention & control Ventilation/*methods Volatile Organic Compounds/*analysis Electrocautery healthca;"
Notes:"MedlineLee, Taekhee Soo, Jhy-Charm LeBouf, Ryan F Burns, Dru Schwegler-Berry, Diane Kashon, Michael Bowers, Jay Harper, Martin eng CC999999/Intramural CDC HHS/ Research Support, U.S. Gov't, P.H.S. England 2017/12/29 J Occup Environ Hyg. 2018 Apr; 15(4):341-350. doi: 10.1080/15459624.2017.1422082"

 
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