Code Blue Outcomes & Process Improvement Through Leadership Optimization Using Teleintensivists-Simulation
| Status: | Completed |
|---|---|
| Conditions: | Cardiology |
| Therapuetic Areas: | Cardiology / Vascular Diseases |
| Healthy: | No |
| Age Range: | 18 - Any |
| Updated: | 2/6/2019 |
| Start Date: | December 2016 |
| End Date: | December 2018 |
This multicenter randomized trial will employ in-situ cardiac arrest simulations ("mock
codes") to test whether using telemedicine technology to add an intensive care physician as
the "copilot" for cardiac arrest resuscitation teams influences chest compression quality,
resuscitation protocol adherence, team function, and provider experience.
codes") to test whether using telemedicine technology to add an intensive care physician as
the "copilot" for cardiac arrest resuscitation teams influences chest compression quality,
resuscitation protocol adherence, team function, and provider experience.
Only 15-30% of patients who suffer in-hospital cardiac arrest (IHCA) survive to hospital
discharge. Factors associated with lower mortality and improved function include provision of
high-quality, minimally-interrupted chest compressions and swift defibrillation of eligible
arrhythmias. Unfortunately, resuscitation teams provide suboptimal care to 25-40% of IHCA
victims. A dedicated IHCA team "copilot" may improve resuscitation team performance by
providing the team leader with parallel analysis, situational awareness augmentation, action
checking, protocol verification, and error correction. Critical care physician involvement
via a telemedicine link could allow experienced specialists to fill the "copilot" role in a
cost and resource-efficient manner, particularly in smaller hospitals with fewer available
physicians.
The current study will evaluate how consultation by an off-site intensive care physician via
a telemedicine link influences local IHCA teams' quality of care, team function and provider
experience during simulated cardiac arrest events ("mock codes").
discharge. Factors associated with lower mortality and improved function include provision of
high-quality, minimally-interrupted chest compressions and swift defibrillation of eligible
arrhythmias. Unfortunately, resuscitation teams provide suboptimal care to 25-40% of IHCA
victims. A dedicated IHCA team "copilot" may improve resuscitation team performance by
providing the team leader with parallel analysis, situational awareness augmentation, action
checking, protocol verification, and error correction. Critical care physician involvement
via a telemedicine link could allow experienced specialists to fill the "copilot" role in a
cost and resource-efficient manner, particularly in smaller hospitals with fewer available
physicians.
The current study will evaluate how consultation by an off-site intensive care physician via
a telemedicine link influences local IHCA teams' quality of care, team function and provider
experience during simulated cardiac arrest events ("mock codes").
Inclusion criteria (on-site cardiac arrest team):
- Are 18 years of age or older
Inclusion criteria (teleintensivist cardiac arrest team copilot):
- Are 18 years of age or older
- Are a board-certified or board-eligible critical care physician
- Provide clinical care through the Intermountain Healthcare Telecritical Care program
Exclusion criteria (both groups):
- Are under 18 years of age
- Are a member of the study research team
We found this trial at
7
sites
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Intermountain Medical Center Intermountain Medical Center is one of the most technologically advanced and patient-friendly...
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LDS Hospital LDS Hospital provides clinical excellence to our community in a wide range of...
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