Impact of Personal Protective Equipment on the First-Pass Success of Endotracheal Intubation in the ED: A Propensity-Score-Matching Analysis

Various types and levels of personal protective equipment (PPE) are currently available to protect health-care workers against infectious diseases. However, wearing cumbersome PPE may negatively affect their performance in life-saving procedures. This study aimed to evaluate the impact of wearing extensive PPE, including a powered air-purifying respirator with a loose-fitting hood or an N95 filtering facepiece respirator, on the first-pass success (FPS) rate of endotracheal intubation (ETI) in the emergency department (ED). This study was a single-center, observational before-and-after study of 934 adult (≥18 years old) patients who underwent ETI in the academic ED. The study period was divided into a control period (from 20 January 2019, to 30 September 2019, and from 20 January 2018, to 30 September 2018) and an intervention period (from 20 January 2020, to 30 September 2020). Extensive PPE was not donned during the control period (control group, n = 687) but was donned during the intervention period (PPE group, n = 247). The primary outcome was the FPS rate. We used propensity score matching between the PPE and control groups to reduce potential confounding. Propensity score matching identified 247 cases in the PPE group and 492 cases in the control group. In the matched cohort, no significant difference was found in the FPS rate between the PPE and control groups (83.8% (n = 207) vs. 81.9% (n = 403); p = 0.522). In multivariable analysis, wearing PPE was not associated with the FPS rate (adjusted odds ratio, 0.90; 95% confidence interval, 0.57–1.40; p = 0.629) after adjusting for the level of the intubator (junior resident, senior resident, or emergency medicine (EM) specialist). In conclusion, the FPS rate is not significantly affected by wearing extensive PPE in the ED.

[1]  Khalid A Aljohani,et al.  Use of In Situ Simulation to Improve Emergency Department Readiness for the COVID-19 Pandemic , 2020, Prehospital and Disaster Medicine.

[2]  K. Khunti,et al.  Classification of aerosol-generating procedures: a rapid systematic review , 2020, BMJ open respiratory research.

[3]  H. N. Gan,et al.  Emergency medicine residency training during COVID-19 , 2020, Singapore medical journal.

[4]  A. Koyanagi,et al.  Update of the current knowledge on genetics, evolution, immunopathogenesis, and transmission for coronavirus disease 19 (COVID-19) , 2020, International journal of biological sciences.

[5]  C. Ng,et al.  What is the impact of the COVID-19 pandemic on emergency medicine residency training: an observational study , 2020, BMC Medical Education.

[6]  M. Jorge Cardoso,et al.  Risk of COVID-19 among front-line health-care workers and the general community: a prospective cohort study , 2020, The Lancet Public Health.

[7]  R. Walls,et al.  Etomidate Use Is Associated With Less Hypotension Than Ketamine for Emergency Department Sepsis Intubations: A NEAR Cohort Study , 2020, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[8]  R. Walls,et al.  Ketamine Versus Etomidate and Peri‐intubation Hypotension: A National Emergency Airway Registry Study , 2020, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[9]  S. Pocock,et al.  Risks to healthcare workers following tracheal intubation of patients with COVID‐19: a prospective international multicentre cohort study , 2020, Anaesthesia.

[10]  J. Schumacher,et al.  The impact of respiratory protective equipment on difficult airway management: a randomised, crossover, simulation study , 2020, Anaesthesia.

[11]  Eun Ji Kim,et al.  Presenting Characteristics, Comorbidities, and Outcomes Among 5700 Patients Hospitalized With COVID-19 in the New York City Area. , 2020, JAMA.

[12]  T. Cook,et al.  Consensus guidelines for managing the airway in patients with COVID‐19 , 2020, Anaesthesia.

[13]  S. Hwang,et al.  Quality Improvement Program Outcomes for Endotracheal Intubation in the Emergency Department , 2018, Journal of patient safety.

[14]  J. Abualenain,et al.  Simulation-based training in Ebola Personal Protective Equipment for healthcare workers: Experience from King Abdulaziz University Hospital in Saudi Arabia. , 2018, Journal of infection and public health.

[15]  J. Ashurst,et al.  Comparison of intubation devices in level C personal protective equipment: A cadaveric study , 2017, The American journal of emergency medicine.

[16]  J. Machan,et al.  Airway Management in Disaster Response: A Manikin Study Comparing Direct and Video Laryngoscopy for Endotracheal Intubation by Prehospital Providers in Level C Personal Protective Equipment , 2017, Prehospital and Disaster Medicine.

[17]  C. Chaou,et al.  The effect of personal protective equipment on emergency airway management by emergency physicians: a mannequin study , 2014, European journal of emergency medicine : official journal of the European Society for Emergency Medicine.

[18]  J. Cho,et al.  Utility of the Pentax-AWS in performing tracheal intubation while wearing chemical, biological, radiation and nuclear personal protective equipment: a randomised crossover trial using a manikin , 2013, Emergency Medicine Journal.

[19]  Khai Tran,et al.  Aerosol Generating Procedures and Risk of Transmission of Acute Respiratory Infections to Healthcare Workers: A Systematic Review , 2012, PloS one.

[20]  S. Pocock,et al.  Strengthening the reporting of observational studies in epidemiology (STROBE) statement: guidelines for reporting observational studies , 2007, BMJ : British Medical Journal.

[21]  K. Greenland,et al.  Personal protection equipment for biological hazards: Does it affect tracheal intubation performance?☆ , 2007, Resuscitation.

[22]  E. Wong,et al.  The effect of severe acute respiratory syndrome (SARS) on emergency airway management☆ , 2006, Resuscitation.

[23]  R. Byrick,et al.  Intubation of SARS patients: infection and perspectives of healthcare workers , 2006, Canadian journal of anaesthesia = Journal canadien d'anesthesie.

[24]  A. Weinbroum,et al.  Antichemical Protective Gear Prolongs Time to Successful Airway Management: A Randomized, Crossover Study in Humans , 2004, Anesthesiology.

[25]  C. E. WHO Coronavirus Disease (COVID-19) Dashboard , 2020 .