Cardiac Arrest Clinical Trial
Official title:
Patterns of Inattentional Blindness During Perioperative Cardiac Arrest: Do Healthcare Providers See and Correct Critical Errors?
Cardiac arrest in the operating room is a rare but potentially catastrophic event with mortality rates greater than 50%. Recent CPR guidelines published by the American Heart Association (AHA) and the Heart and Stroke Foundation of Canada (HSFC) describe how high quality CPR improves survival rates and neurological outcomes from cardiac arrest. Despite CPR training, adherence rates with performance guidelines are alarmingly low in many pediatric hospitals . In addition to performance errors, medication errors have been reported to be as high as 50% during cardiopulmonary arrest. This can be attributed to many factors, including distractions and poor communication among team members. Previous studies suggested that loud noise in the operating room caused poor communication and impaired surgical performance. To understand more about simulation awareness during peri-operative cardiac arrest, the investigators are planning on conducting a prospective observational study, using a simulated perioperative cardiac arrest scenario in pediatric hospital.The investigators are aiming for a convenient sample of 20 simulation sessions. Each session will have a team of CPR providers (2 participants and 4 confederates). The 2 participants will include one anesthesiologist and one operating room nurse. The participants will be randomized into two group; group A will work in a noise environment of 85 dBA ( as per recommendation by the National Institute for Occupational Safety and Health (NIOSH), and group B will work in a noise environment of 100 dBA. Participants will be wearing eye tracking devices during the scenario (Tobii Pro GlassesTM) designed to capture areas of interest (AOI) / visual fixation. The investigators hypothesize that CC and medication errors are frequently left undetected and uncorrected, and that the less noise distractions during resuscitation improves but does not eliminate this pattern of inattentional blindness in resuscitation teams during simulated perioperative pediatric cardiac arrest. They also hypothesize that "look but not act" events are a frequent occurrence during simulated pediatric cardiac arrest, and that healthcare providers will have varying reasons that explain the occurrence of "look but not act" events.
Pediatric Cardiac Arrest and intraoperative arrest Cardiac arrest in the operating room is a
rare but potentially catastrophic event with mortality rate of more than 50% . Each year, it
is estimated that >15,000 infants and children in North America receive cardiopulmonary
resuscitation (CPR) as a treatment of cardiopulmonary arrest (CPA). The incidence of
pediatric perioperative cardiac arrest can be as high as 20.9 per 10,000 cases. Recent CPR
guidelines published by the American Heart Association (AHA) and the Heart and Stroke
Foundation of Canada (HSFC) describe how high quality chest compressions (CC) with adequate
compression depth (5-6 cm) and rate (100-120 beats/min) improves survival rates and
neurological outcomes from CPA. Patients receiving CC with adequate depth are more likely to
survive than those who aren't (70% vs 16% 24-hour survival), while those receiving CC within
the target rate range demonstrate the highest rates of survival.
Despite CPR training, adherence rates with performance guidelines are alarmingly low at
pediatric hospitals. Professional rescuers observed that CPR quality during simulated and
real cardiac arrests frequently fall well short of guidelines in leading institutions. In
addition to performance errors, medication errors have been reported to be as high as 50%
during cardiopulmonary arrest. Because of the resuscitation environment, errors in
prescribing, doing, preparing, labeling and administering the drugs are prone to occur. A
2015 Institute of Medicine (IOM) Report entitled: "Strategies to Improve Cardiac Arrest
Survival: A Time to Act", recommended translational research focusing on the function of
resuscitation teams be undertaken to improve outcomes from CPA.
1) Goals, Objectives, and Project Outputs Goal To identify, describe and quantify patterns of
inattentional blindness related to critical errors for resuscitation teams during the
management of perioperative pediatric cardiac arrest.
Objectives
1. To determine the frequency of CC-related errors that are undetected by resuscitation
teams during management of a simulated pediatric cardiac arrest with average noise level
(85 dBA) vs high noise (100 dBA) in the operating room during resuscitation.
2. To determine the frequency of medication-related errors that are undetected by
resuscitation teams during management of a simulated pediatric cardiac arrest with
average noise level (85dBA) vs high noise (100 dBA) level in the operating room during
resuscitation.
3. To determine the frequency of "look but not act" events (for CC related errors/
medication) during the management of simulated perioperative cardiac arrest.
4. To describe the underlying cause for "look but not act" events as it relates to CC
related errors in management of simulated perioperative cardiac arrest.
Proposed Project Outputs
1. The investigators hypothesize that CC and medication errors are frequently left
undetected and uncorrected, and that the less noise distractions during resuscitation
improves but does not eliminate this pattern of inattentional blindness in resuscitation
teams during simulated perioperative pediatric cardiac arrest.
2. They hypothesize that "look but not act" events are a frequent occurrence during
simulated pediatric cardiac arrest, and that healthcare providers will have varying
reasons that explain the occurrence of "look but not act" events.
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