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- Title
Efficacy of a novel oxygen scavenger mask in reducing local oxygen concentrations below the surgical fire risk threshold: an experimental proof-of-concept study.
- Authors
Yang, Christopher D.; Chen, Teresa H.; Tao, Jeremiah P.
- Abstract
Background: This study aims to evaluate the efficacy of an oxygen scavenging mask device in reducing local oxygen concentrations from nasal cannula ventilation compared to a standard open facial surgical field. Methods: This is a controlled experiment using a custom-fabricated silicone midfacial oxygen scavenging device, SimMan airway management trainer manikin (Laerdal Medical, Stavanger, Norway), handheld oxygen detector (Forensics Detectors, Los Angeles, United States) and oxygen from a Datex Ohmeda Aisys Carestation anesthesia unit (GE HealthCare, Chicago, United States). Oxygen concentrations were measured at 18 facial landmarks (Fig. 1) with nasal cannula flow of 2, 4, and 6 L/min of 100% FiO2 in both masked and unmasked conditions (Fig. 2). Results: The mean oxygen concentration in the facial surgical field was 20.95% with the scavenger mask and 24.8% without (P < 0.001; two-tailed paired t-test). The unmasked condition was associated with suprathreshold oxygen concentration levels at 13 of 18 facial landmarks (Table 1). The device significantly reduced local oxygen concentration at 16 of 18 facial landmarks (Table 1). The device provided safe oxygen concentration levels at all three flow rates, and measured oxygen concentrations directly correlated with oxygen flow rate in the unmasked condition (Table 2). Conclusions: An oxygen scavenger mask device reduced local oxygen concentrations from nasal cannula ventilation to below the 23% fire threshold in the entire facial surgical field external to the mask in these experiments. The device may reduce intraoperative fire risk in patients that require supplementary oxygen during surgery.
- Subjects
MAXILLOFACIAL surgery; SURGICAL fires; OXYGEN masks; PATIENT safety; ACADEMIC medical centers; STATISTICAL hypothesis testing; INHALATION anesthetics; PRODUCT design; DESCRIPTIVE statistics; EXPERIMENTAL design; REACTIVE oxygen species; OXYGEN in the body; COMMERCIAL product evaluation; MEDICAL masks; NASAL cannula; OXYGEN consumption; MEDICAL equipment safety measures
- Publication
Patient Safety in Surgery, 2024, Vol 18, Issue 1, p1
- ISSN
1754-9493
- Publication type
Article
- DOI
10.1186/s13037-024-00411-1