Influence of Surgical Smoke on Indoor Air Quality in Hospital Operating Rooms

Choi, Dong Hee; Choi, Seock Hwan; Kang, Dong Hwa

doi:10.4209/aaqr.2016.05.0191

Cited by 23 publications

(15 citation statements)

References 25 publications

(43 reference statements)

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“…In these rooms, contaminant agents such as biological (microorganisms-fungi, bacteria and viruses), chemical (waste anaesthetic gases, carbon dioxide, etc.) and particulate matter can easily be dispersed by draughts or can remain in suspension in the air for several hours [4][5][6][7]. Additionally, depending on their size, airborne infectious particles in the operating rooms can be broadly classified as follows: bacterial cells and spores (from 0.3 to 10 µm in diameter); fungal spores (from 2.0 to 5.0 µm); viruses (from 0.02 to 0.30 µm in diameter) [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Particle and Carbon Dioxide Concentration Levels in a Surgical Room Conditioned with a Window/Wall Air-Conditioning System

Pereira¹,

Tribess

Buonanno

et al. 2020

IJERPH

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One of the most important functions of air conditioning systems in operating rooms is to protect occupants against pathogenic agents transported by air. This protection is done by simultaneously controlling the air distribution, temperature, humidity, filtration and infiltration from other areas etc. Due to their low price, simple installation, operation and maintenance, window/wall air conditioning system have largely been used in operating rooms in Brazil, even if these types of equipment only recirculate the air inside the room without appropriate filtration and renovation with outdoor air. In this context, this work aims to analyse the performance of the window/wall air conditioning systems on indoor air ventilation in operating rooms by measuring particle number concentrations and carbon dioxide concentrations during different surgical procedures, in a single surgical room and in the nearby areas (corridor) for two cases: single surgery and two subsequent surgeries. In addition, the efficiency of the analysed air conditioning system was evaluated by comparing the ventilation level calculated in the surgical room with the ventilation required in order to maintain the carbon dioxide concentration within acceptable levels. The results showed that this type of air conditioning system is not appropriate for use in operating rooms since it cannot provide an adequate level of ventilation. The CO2 concentrations during surgeries, in fact, significantly exceeded acceptable values and a simultaneous increase in particle number concentration was observed. The results also showed that there is a high risk of contamination between subsequent surgeries in the same surgical room, due to residues of contaminants transported by the particles emitted during the surgeries that were not removed from the operating room by the air conditioning system. The particle number concentration measured in the second surgery, in fact, was approximately six times higher than in the first surgery.

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Section: Introductionmentioning

confidence: 99%

Particle and Carbon Dioxide Concentration Levels in a Surgical Room Conditioned with a Window/Wall Air-Conditioning System

Pereira¹,

Tribess

Buonanno

et al. 2020

IJERPH

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“…Quantitative analysis of CO 2 environmental dispersion, expressed in parts per million (ppm), was carried out in the empty OR ("at rest condition") and during the procedure ("operational conditions") in the presence of patient and exposed staff (8÷10 operators). 9,10 The analysis has been carried out into two OR of University Federico II of Naples. The characteristics of OR and air flow systems are illustrated in Table 1.…”

Section: Methodsmentioning

confidence: 99%

Smoke Evacuation During Laparoscopic Surgery: A Problem Beyond the COVID-19 Period. A Quantitative Analysis of CO₂ Environmental Dispersion Using Different Devices

et al. 2021

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Background. The COVID-19 pandemic leads to several debates regarding the possible risk for healthcare professionals during surgery. SAGES and EAES raised the issue of the transmission of infection through the surgical smoke during laparoscopy. They recommended the use of smoke evacuation devices (SEDs) with CO2 filtering systems. The aim of the present study is to compare the efficacy of different SEDs evaluating the CO2 environmental dispersion in the operating theater. Methods. We prospectively evaluated the data of 4 group of patients on which we used different SEDs or standard trocars: AIRSEAL system (S1 group), a homemade device (S2 group), an AIRSEAL system + homemade device (S3 group), and with standard trocars and without SED (S4 group). Quantitative analysis of CO2 environmental dispersion was carried out associated to the following data in order to evaluate the pneumoperitoneum variations: a preset insufflation pressure, real intraoperative pneumoperitoneum pressure, operative time, total volume of insufflated CO2, and flow rate index. Results. 16 patients were prospectively enrolled. The [CO2] mean value was 711 ppm, 641 ppm, 593 ppm, and 761 ppm in S1, S2, S3, and S4 groups, respectively. The comparison between data of all groups showed statistically significant differences in the measured ambient CO2 concentration. Conclusion. All tested SEDs seem to be useful to reduce the CO2 environmental dispersion respect to the use of standard trocars. The association of AIRSEAL system and a homemade device seems to be the best solution combining an adequate smoke evacuation and a stable pneumoperitoneum during laparoscopic surgery.

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“…12 samples were taken from operating rooms in the hospitals of study. The time weighted average concentrations (TWA ± SD) in two main educational hospitals were calculated using equation (1). The standard of isoflurane according to US NIOSH and California OSHA (OSHA 5155 Table AC-1) permissible exposure limits for chemical contaminants is 2 ppm (2000 mg/m 3 ).…”

Section: Ethical Considerationsmentioning

confidence: 99%

“…Anesthetic gases (AG) is one of the most important indoor air quality (IAQ) that increase the risk of genetic damage, respiratory and renal disease among exposed health care worker (HCWs) and patients in operating rooms (ORs). [1][2][3][4][5][6][7][8] The main please that used to anesthetics are dental offices, veterinary hospitals and operating rooms. [9][10][11] Based on report International Agency for Research on Cancer (IARC) states in humans there is inadequate evidence for the carcinogenicity of isoflurane, sevoflurane, nitrous oxide and halothane.…”

Section: Introductionmentioning

confidence: 99%

“…4,11,12,21,22 One of the most important methods in contributing to infection control (reducing the number of surgical site infections (SSIs)) on patients and surgical staff safety and treatment anesthetic gases is Air conditioning systems.1-3 ,11, 23-25 Standards and guidelines for the air quality in ORs have been proposed, focusing on general OR ventilation requirements. 1,26,27 In 2015 Joksovic et al studied the early exposure to general anesthesia with isoflurane. 9 An investigation Chaoul et al measurement the concentration of anesthetic gases in operating rooms.…”

Section: Introductionmentioning

confidence: 99%

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Anesthetic toxic isoflurane and health risk assessment in the operation room in Abadan, Iran during 2018

Afra¹,

Pardeh

Saki

et al. 2020

Clinical Epidemiology and Global Health

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Introduction: Anesthetic gases are very important for health among health care worker (HCWs) and patients in medical centers. Operating rooms (ORs) is the most important ward that use anesthetic gases. Isoflurane gases is very dangerous for HCWs. Objective: In this study, we have associated the concentration of anesthetic toxic isoflurane gases (ppm) and the health risk assessment due to exposure to common anesthetic gases in Valiasr and Shahid Beheshti teaching hospital operating room during 2018. Methods: In this study, we used the active sampling system by portable pump SKC and tubes (sorbent Tube Tenax TA 250 mg) for detection of isoflurane concentration (ppm). Different points of the operating rooms were selected for sampling. Hazard index (HI) quantified by calculating the non-cancer causing anesthetic toxic isoflurane gases. Results: According result this study, the Valiasr and Shahid Beheshti had the lowest and the highest level of isoflurane. Based on result this study, level of isoflurane on indoor air quality in the operation room in Valiasr and Shahid Beheshti hospital were 2.129 and 2.436 ppm, respectively. According to the results from the current study, hazard index was under 1.0 and it amount showed that no significant risk of adverse health endpoint attributed to exposure to level of isoflurane in Valiasr and Shahid Beheshti teaching hospital operating room during 2018. Conclusion: According Result this study the average concentration of isoflurane and the health risk assessment in Valiasr and Shahid Beheshti teaching hospital operating room during 2018 because of flaw in the ventilation system was significantly higher than standard.

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Influence of Surgical Smoke on Indoor Air Quality in Hospital Operating Rooms

Cited by 23 publications

References 25 publications

Particle and Carbon Dioxide Concentration Levels in a Surgical Room Conditioned with a Window/Wall Air-Conditioning System

Particle and Carbon Dioxide Concentration Levels in a Surgical Room Conditioned with a Window/Wall Air-Conditioning System

Smoke Evacuation During Laparoscopic Surgery: A Problem Beyond the COVID-19 Period. A Quantitative Analysis of CO₂ Environmental Dispersion Using Different Devices

Anesthetic toxic isoflurane and health risk assessment in the operation room in Abadan, Iran during 2018

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Influence of Surgical Smoke on Indoor Air Quality in Hospital Operating Rooms

Cited by 23 publications

References 25 publications

Particle and Carbon Dioxide Concentration Levels in a Surgical Room Conditioned with a Window/Wall Air-Conditioning System

Particle and Carbon Dioxide Concentration Levels in a Surgical Room Conditioned with a Window/Wall Air-Conditioning System

Smoke Evacuation During Laparoscopic Surgery: A Problem Beyond the COVID-19 Period. A Quantitative Analysis of CO2 Environmental Dispersion Using Different Devices

Anesthetic toxic isoflurane and health risk assessment in the operation room in Abadan, Iran during 2018

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Smoke Evacuation During Laparoscopic Surgery: A Problem Beyond the COVID-19 Period. A Quantitative Analysis of CO₂ Environmental Dispersion Using Different Devices