Use of Point-of-View Camera to Faciliate Learning of Endotracheal Intubation
NCT ID: NCT04477044
Last Updated: 2020-07-20
Study Results
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Basic Information
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COMPLETED
NA
71 participants
INTERVENTIONAL
2016-07-12
2019-10-31
Brief Summary
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Detailed Description
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Timely and correctly performed endotracheal intubation can be life-saving because it maintains and protects the airway, reliably provides adequate tidal volumes, frees the hands of rescuers, allows the removal of airway secretions and provides a route for giving drugs. However, poorly performed endotracheal intubation exposes patients to the life-threatening risks associated with the unrecognised misplacement of a tracheal tube and leads to delays in resuscitative efforts.
Unfortunately, there is a comparatively high failure rate associated with endotracheal intubation because this skill is difficult to learn and retain. Mulcaster et al reported that, to achieve a 90% intubation success rate, a mean of 47 intubation attempts were required. In a similar study, Konrad et al found that a mean of 57 attempts were required to achieve a 90% intubation success rate. This difficulty in learning is compounded by the finding that, without repeated practice, the ability to perform endotracheal intubation successfully diminishes rapidly. The intubation success rate of infrequent users who have successfully learned to intubate has been shown to fall to as little as 57% after only 6 months. Clearly, there is a need to improve the learning and retention of endotracheal intubation.
The PI previously published a randomized controlled trial in the journal Medical Education to study the utility of experiential learning on a simulator in the learning and retention of this skill. It was showed that with experiential learning, more students were able to intubate a manikin at 3 months (64.5% vs. 36.9%, p\<0.001). With repeated learning (refresher every 3 months), 86% of students were able to successfully perform endotracheal intubation at 12 months.
However, there are limitations to acquiring this skill on a simulator, as it has been argued that expertise gained on manikins may not translate into successful intubations in patients. Learning on actual patients is desirable, but impractical given the large number of students in our medical school. On average, each YLLSoM student only intubates between 3-5 patients, far less than the 47-57 endotracheal intubations necessary to gain expertise as cited earlier. Combining the learning experiences on the simulator with that on actual patients appears to be the best solution.
Therefore it is important to optimize the limited learning opportunities on patients. However, this is often difficult because the mouth is small, and the view of the pharyngeal structures is limited. The tutor will not be able to view what the student is seeing as there is only one line of vision. More recently, video-laryngoscopes, which are laryngoscopes with a camera at its tip, have emerged as an effective means of teaching endotracheal intubation. However, the technique of using the video-laryngoscope differs from using the common laryngoscope due to its different shape and the requirement that the student looks at the screen rather than into the patient's mouth. Hence it is unclear if the ability to successfully perform endotracheal intubation with a video-laryngoscope necessarily translates into the ability to perform endotracheal intubation with a normal laryngoscope.
The study team proposes that mounting a point-of-view camera on the student's head will enable the team to view what the student is seeing in real-time when intubating with a normal laryngoscope. This will allow the team to guide the students accurately. When used in conjunction with the established simulation programme in the department, it is believed that this will improve the learning and retention of this skill when compared to standard teaching.
Methods:
Students will be randomised into 2 groups. For the study group, students will have a GoPro Hero4 camera mounted on their head which will be linked via Wi-Fi to allow real-time streaming of the view onto a laptop, while students in control group will have a regular type of tutorial and practicing session. Data such as time to successful intubation and Cormack Lehane laryngoscopy view will be recorded. At the end of the session, tutors will use a debrief guide to give feedback to students. Students from the study group will be given a questionnaire to be completed at the end of the session.
These students will be recalled 3 months later. Each student will individually be assessed on his or her intubation skill using 2 different manikin: a normal airway manikin and a difficult airway manikin. All the students will be wearing the GoPro Hero4 this time round. Data such as time to successful intubation and Cormack Lehane laryngoscopy view will be recorded. Students will be given feedback as appropriate by tutors for their learning purposes using the same debrief guide. There will be questionnaires for both students and tutors to fill in this time.
Conditions
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Study Design
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RANDOMIZED
PARALLEL
OTHER
NONE
Study Groups
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No GoPro
No GoPro Hero4 to be mounted on the participant's head while he/she performs intubation on a manikin.
No interventions assigned to this group
GoPro
GoPro Hero4 to be mounted on the participant's head while he/she performs intubation on a manikin.
Study Group
GoPro Hero4 to be mounted on the participant's forehead while performing intubation on a manikin.
Interventions
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Study Group
GoPro Hero4 to be mounted on the participant's forehead while performing intubation on a manikin.
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
Exclusion Criteria
21 Years
ALL
Yes
Sponsors
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National University of Singapore
OTHER
Responsible Party
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NUS Anaesthesia
Principal Investigator
Principal Investigators
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Lian Kah Ti
Role: PRINCIPAL_INVESTIGATOR
National University of Singapore
Locations
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National University Health System
Singapore, , Singapore
Countries
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References
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Mulcaster JT, Mills J, Hung OR, MacQuarrie K, Law JA, Pytka S, Imrie D, Field C. Laryngoscopic intubation: learning and performance. Anesthesiology. 2003 Jan;98(1):23-7. doi: 10.1097/00000542-200301000-00007.
Konrad C, Schupfer G, Wietlisbach M, Gerber H. Learning manual skills in anesthesiology: Is there a recommended number of cases for anesthetic procedures? Anesth Analg. 1998 Mar;86(3):635-9. doi: 10.1097/00000539-199803000-00037.
Ti LK, Chen FG, Tan GM, Tan WT, Tan JM, Shen L, Goy RW. Experiential learning improves the learning and retention of endotracheal intubation. Med Educ. 2009 Jul;43(7):654-60. doi: 10.1111/j.1365-2923.2009.03399.x.
Other Identifiers
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NUS IRB B-15-274
Identifier Type: -
Identifier Source: org_study_id
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