Talks
Presentation Type
Oral Presentation
Discipline Track
Patient Care
Abstract Type
Research/Clinical
Abstract
Introduction: Cardiac tamponade occurring after cardiac surgery is rare but life threatening and requires simultaneous resuscitation and emergent sternotomy by the intensive care team. A simulated scenario using innovative mannequin with sternotomy wound has the capability of reproducing cardiac arrest associated with postoperative tamponade. We evaluated the face validity of this innovative mannequin, the confidence level and crisis resource management skills of the team during sternotomy to manage postoperative cardiac tamponade.
Methods: The simulation case scenario was developed using innovative sternotomy mannequin for children’s hospital cardiac intensive care unit (CICU) teams. The case involved a 3-year old male, intubated, mechanically ventilated after surgical repair of CHD, progressing to cardiac arrest due to cardiac tamponade. We conducted a structured, video debriefing following each scenario. We conducted a formative learner assessment before and after each scenario and analyzed the data using student t-test.
Results: Of the 72 CICU providers, a statistically significant proportion of providers (p < 0.0001) showed improved confidence in assessing and managing cardiac arrest occurring following postoperative cardiac tamponade. All the providers scored ≥ 3 for impact of the scenario on practice, teamwork, communication, assessment skills, improvement in CPR and opening the chest and their confidence in attending similar clinical situation in future. Most (96–100%) scored ≥ 3 for perception on realism of mannequin, the scenario, re-opening the sternotomy and level of stress.
Conclusions: Innovative adaptation of a high-fidelity mannequin for cardiac tamponade simulation can achieve a realistic and reproducible training model with a positive impact on multi-disciplinary team training.
Recommended Citation
Akinpelu, Tolu; Alhendy, Mohammed; Thangavelu, Malarvizhi; Weaver, Karen; Muller, Nicole; McElroy, James; Nento, Daniel; and Bhalala, Utpal, "Cardiac Tamponade: Innovative Sternotomy Simulation Model for Training Pediatric Cardiac Intensive Care Team" (2023). Research Symposium. 32.
https://scholarworks.utrgv.edu/somrs/2022/talks/32
Included in
Cardiology Commons, Critical Care Commons, Emergency Medicine Commons, Pediatrics Commons
Cardiac Tamponade: Innovative Sternotomy Simulation Model for Training Pediatric Cardiac Intensive Care Team
Introduction: Cardiac tamponade occurring after cardiac surgery is rare but life threatening and requires simultaneous resuscitation and emergent sternotomy by the intensive care team. A simulated scenario using innovative mannequin with sternotomy wound has the capability of reproducing cardiac arrest associated with postoperative tamponade. We evaluated the face validity of this innovative mannequin, the confidence level and crisis resource management skills of the team during sternotomy to manage postoperative cardiac tamponade.
Methods: The simulation case scenario was developed using innovative sternotomy mannequin for children’s hospital cardiac intensive care unit (CICU) teams. The case involved a 3-year old male, intubated, mechanically ventilated after surgical repair of CHD, progressing to cardiac arrest due to cardiac tamponade. We conducted a structured, video debriefing following each scenario. We conducted a formative learner assessment before and after each scenario and analyzed the data using student t-test.
Results: Of the 72 CICU providers, a statistically significant proportion of providers (p < 0.0001) showed improved confidence in assessing and managing cardiac arrest occurring following postoperative cardiac tamponade. All the providers scored ≥ 3 for impact of the scenario on practice, teamwork, communication, assessment skills, improvement in CPR and opening the chest and their confidence in attending similar clinical situation in future. Most (96–100%) scored ≥ 3 for perception on realism of mannequin, the scenario, re-opening the sternotomy and level of stress.
Conclusions: Innovative adaptation of a high-fidelity mannequin for cardiac tamponade simulation can achieve a realistic and reproducible training model with a positive impact on multi-disciplinary team training.