Heart Rhythm New Zealand consensus statement on the practical management of cardiac implanted electronic devices in the peri-operative environment.

Electrosurgery is commonly used during a range of operations in order to maintain effective haemostasis. This can cause electromagnetic interference (EMI) with cardiac implanted electronic devices (CIEDs), which prevents normal device function. CIEDs include pacemakers (PPM), implantable cardiac defibrillators (ICD), cardiac resynchronisation therapy devices-both pacemakers and defibrillators (CRT-P/CRT-D)-and implantable loop recorders (ILRs). Damage to the generator, inhibition of pacing, activation of asynchronous pacing and ventricular fibrillation can all be induced by electrocautery. An active management plan for CIEDs during electrosurgery is critical to minimise these adverse effects of EMI. Purpose: To facilitate the safe and effective peri-operative management of CIED patients during electrosurgery.

Latent Safety Threats and Countermeasures in the Operating Theater: A National In Situ Simulation-Based Observational Study.

INTRODUCTION: In situ simulation provides a valuable opportunity to identify latent safety threats (LSTs) in real clinical environments. Using a national simulation program, we explored latent safety threats (LSTs) identified during in situ multidisciplinary simulation-based training in operating theaters in hospitals across New Zealand. METHOD: Surgical simulations lasting between 15 and 45 minutes each were run as part of a team training course delivered in 21 hospitals in New Zealand. After surgical in situ simulations, instructors used a template to record identified LSTs in a postcourse report. We analyzed these reports using the contributory factors framework from the London Protocol to categorize LSTs. RESULTS: Of 103 postcourse reports across 21 hospitals, 77 contained LSTs ranging across all factors in the London Protocol. Common threats included staff knowledge and skills in emergencies, team factors, factors related to task or technology, and work environment threats. Team factors were also commonly reported as protecting against adverse events, in particular, creating a shared mental model. Examples of actions taken to address threats included replacing or repairing faulty equipment, clarifying emergency processes, correcting written information, and staff training for clinical emergencies. CONCLUSIONS: The pervasiveness of LSTs suggests that our results have widespread relevance to surgical departments throughout New Zealand and elsewhere and that collective solutions would be valuable. In situ simulation is an effective mechanism both for identifying threats to patient safety and to prompt initiatives for improvement, supporting the use of in situ simulation in the quality improvement cycle in healthcare.

Emergency use of extracorporeal membrane oxygenation for a foreign body obstructing the airway.

We report on the successful emergency use of extracorporeal membrane oxygenation to provide oxygenation and ventilation to a patient with lifethreatening airway obstruction, and then facilitating the removal of a tracheal food bolus by rigid bronchoscopy.