Fiber-optic Intubation Clinical Trial
Official title:
Role of Simulators to Assess Simulator-Based Entrusted Professional Activity in Fiber-optic Intubation and Transfer-ability to Clinical Assessment of Anesthesia Trainees in the Competency By Design Residency Program
Thirty residents in Anesthesia, year one and year two ,and Emergency Medicine Residents, and Family Practice Anesthetists and Emergency residents will undergo teaching in fiber-optic intubation. One half of the group will be randomized to a low fidelity simulator which consists of a wooden block with a series of holes, and the other to a high fidelity simulator, called the ORSIM , which provides a computerised model of the airway. They will practice the procedural skill of fiber-optic intubation on their assigned simulators. Cumulative sum method (CUSUM) learning curves and procedural Entrusted Professional Activities will be obtained for each resident on their assigned simulator. Following this , all residents will undergo a procedural entrusted professional activity with regard to fiber-optic intubation on a low risk , consented patient. The results of the learning curves, Simulator entrusted professional activity and Patient entrusted professional activity will be compared to assess if there is a difference between the low fidelity and high fidelity simulator groups.
Fiber-optic intubation(FOI) involves using a thin flexible scope to navigate a breathing tube
into a patient's trachea. It is an important skill, as it is required in situations where the
breathing tube cannot be inserted using traditional methods. It is a lifesaving skill in
terms of securing the 'the difficult airway', in emergency and elective situations. The
National Audit Project 4 (NAP4, the largest study on major airway complications in the
operating room, emergency department and intensive care unit) have identified the omission of
FOI when indicated as a major contributor to airway morbidity and mortality . Recommendations
from NAP4 included ensuring anesthesiologists are trained in the use of FOI.
Medical training in Canada and globally is undergoing a major transformation to
competency-based medical education (CBME). Within the next decade, all residency programs in
Canada will be following a competency-based curriculum, as mandated by the Royal College of
Physicians and Surgeons of Canada (Royal College) and the College of Family Physicians of
Canada. CBME emphasizes the demonstration of competence in skills and abilities deemed
essential for future practice and de-emphasizes time and duration .
While competence is assessed by several metrics in CBME, the entrustable professional
activities (EPAs)framework is one approach to assessment. EPAs are specific tasks in the
clinical environment that a supervisor will delegate to a resident once sufficient competence
has been demonstrated .
Competency-based medical education(CBME) requires residents to demonstrate competency in key
skills; simulators have an important role in facilitating this learning in a safe environment
without harming patients. Currently, little is known on the role of simulators on acquiring
competence of Fiber-optic intubation and assessment of simulator-based Entrusted Professional
Activity (EPA) and transfer-ability to patient -based EPA.
The focus of the study is the learning aspect with regards to fiber-optic intubation.
The hypothesis is that simulator-based EPA is transferable to clinical-based EPA and that
clinical performance is better after training with a high -fidelity simulator.
Methods:
This is a 2-arm comparison study to be conducted at Mount Sinai Hospital, Toronto.
After written informed consent, resident participants will be randomized to the low fidelity
simulator (LFS n=15) and the high- fidelity simulator (ORSIM, n=15). Participants consist of
anesthesia 1st - 2nd year residents in the Competency-based Medical Education Anesthesia
Residency program, Emergency Medicine Residents, Family Practice Anesthetists and Emergency
Medicine Residents, with less than five prior experiences in fiberoptic intubations.
The resident will undergo a teaching intervention consisting of a didactic Power-point
presentation and video on FOI, {https://www.youtube.com/watch?v=wDLrRHS7Urw}, followed with
hands-on practice on the LFS or ORSIM. The didactic teaching will be group based, but the
hands-on simulator practice will be one to one.
Generating Learning Curve (CUSUM) for Competence:
After the teaching session, the resident participant will generate a learning curve for a
series of fiberoptic intubations on the respective simulator using the cumulative sum method
(CUSUM).The resident will be allowed 20 attempts. Residents will be considered
simulator-competent if they reach 90% success rate.
Simulator-based Entrusted Professional Activity (EPA) Assessment:
Within one week later the resident will be assessed to complete an EPA on fiber-optic
intubation using their assigned simulator. Each performance will be video-recorded for data
analysis by the research assistant.
Transfer to Clinical-based EPA Assessment:
Thereafter and within two weeks, the resident will then perform a fiber-optic intubation on
an anesthetized patient in the Operating Room. The fiberoptic intubation on a patient will be
limited to a maximum of 8 minutes since this is the apnea time where desaturation (hypoxia)
will occur in a patient induced with general anesthesia and muscle paralysis who underwent
adequate pre-oxygenation. .
Written informed consent will be obtained from each patient.
The performance of the Simulator based EPA and clinical EPA will be video-recorded. No
patient or resident identifiers will be recorded, the patient's eyes will be covered with a
surgical green towel, leaving the mouth and nose exposed to bag mas ventilate, the camera
will focus on the resident's hands.
Two experienced observers will grade the intubations using a validated checklist and global
rating scale. They will be blinded to the group allocation.
An experienced anesthetist not involved in the study will be present in the operating room to
assist the resident and take over the intubation if they deem necessary for patient safety.
The total time commitment for the resident will be a maximum of 2 hours.
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