Program Profile

Nightmare on CIL Street: A Simulation Series to Increase Confidence and Skill in Responding to Clinical Emergencies

Fed Pract. 2023 November;40(11):383 | doi:10.12788/fp.0432

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Background: The Central Texas Veterans Health Care System (CTVHCS) in Temple, a 189-bed teaching hospital, recently opened its Center for Innovation and Learning for simulation-based learning. CTVHCS built a rapid response simulation curriculum to improve preparedness for internal medicine residents, medical students, and physician assistant students that exploits newly developed medical education technology.

Observations: The Center for Innovation and Learning curriculum was created based on the most common rapid response calls received over the previous 3 years. Cardiac, respiratory, and neurological simulations were implemented. Learners approach each scenario as if they were on night service alone without specialist help. Learners must identify tachyarrhythmia, impending respiratory failure, and a patient with encephalopathy requiring transfer.

Conclusions: Sixteen learners were surveyed before the simulation and after addressing each educational objective was completed and showed improvement. Educating trainees on rapid response scenarios by using a simulation curriculum provides many benefits. Trainees reported improvement in addressing cardiac, respiratory, and neurological rapid response scenarios after experiencing the simulation.

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References

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3. Lyons PG, Edelson DP, Carey KA, et al. Characteristics of rapid response calls in the United States: an analysis of the first 402,023 adult cases from the Get With the Guidelines Resuscitation-Medical Emergency Team registry. Crit Care Med. 2019;47(10):1283-1289. doi:10.1097/CCM.0000000000003912

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The Central Texas Veteran’s Health Care System (CTVHCS) in Temple, Texas, is a 189-bed teaching hospital. CTVHCS opened the Center for Innovation and Learning (CIL) in 2022. The CIL has about 279 m² of simulation space that includes high- and low-fidelity simulation equipment and multiple laboratories, which can be used to simulate inpatient and outpatient settings. The CIL high-fidelity manikins and environment allow learners to be immersed in the simulation for maximum realism. Computer and video systems provide clear viewing of training, which allows for more in-depth debriefing and learning. CIL simulation training is used by CTVHCS staff, medical residents, and medical and physician assistant students.

The utility of technology in medical education is rapidly evolving. As noted in many studies, simulation creates an environment that can imitate real patients in the format of a lifelike manikin, anatomic regions stations, clinical tasks, and many real-life circumstances.¹ Task trainers for procedure simulation have been widely used and studied. A 2020 study noted that simulation training is effective for developing procedural skills in surgery and prevents the decay of surgical skills.²

In reviewing health care education curriculums, we noted that most of the rapid response situations are learned through active patient experiences. Rapid responses are managed by the intensive care unit and primary care teams during the day but at night are run primarily by the postgraduate year 2 (PGY2) night resident and intern. Knowing these logistics and current studies, we decided to build a rapid response simulation curriculum to improve preparedness for PGY1 residents, medical students, and physician assistant students.

Curriculum Planning

Planning the simulation curriculum began with the CTVHCS internal medicine chief resident and registered nurse (RN) educator. CTVHCS data were reviewed to identify the 3 most common rapid response calls from the past 3 years; research on the most common systems affected by rapid responses also was evaluated.

A 2019 study by Lyons and colleagues evaluated 402,023 rapid response activations across 360 hospitals and found that respiratory scenarios made up 38% and cardiac scenarios made up 37%.³ In addition, the CTVHCS has limited support in stroke neurology. Therefore, the internal medicine chief resident and RN educator decided to run 3 evolving rapid response scenarios per session that included cardiac, respiratory, and neurological scenarios. Capabilities and limitations of different high-fidelity manikins were discussed to identify and use the most appropriate simulator for each situation. Objectives that met both general medicine and site-specific education were discussed, and the program was formulated.

Elective Hand Surgery and Antithrombotic Use in Veterans

Nightmare on CIL Street: A Simulation Series to Increase Confidence and Skill in Responding to Clinical Emergencies

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