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| Name | Class |
|---|---|
| Université de Montréal | OTHER |
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Purpose:
This study is designed to:
Hypothesis: The hypothesis of the study is that the PLM will improve the ability of novices to correctly locate the BP at the level of the interscalene groove on surface ultrasound images, compared to a control group.
Introduction:
Regional anesthesia has greatly benefited in recent years from the use of ultrasound to facilitate the location of nerves and of their surrounding structures. Allowing real-time visualization of anatomical structures, ultrasound has been shown to improve the success rate of blocks, to decrease procedure times and to improve patient safety by reducing accidental injections into vessels and nerves.
Ultrasound-guided regional anesthesia training, however, remains a long process. The conventional way to develop expertise is to practice on patients. The learner does the techniques under the supervision of an expert, who gives him feedback. While well established, this approach has several limitations: In addition to being time-consuming, it is limited by the number of available cases and access to supervising experts.
Perceptual learning modules (PLMs) represent an alternative modality to teach image interpretation in regional anesthesia and are already used in other fields. PLMs are online tools created to enhance the development of pattern recognition, a skill required to efficiently interpret ultrasound-guided images. With PLMs, learners observe a series of images or videoclips and must answer a question about each image in a short period of time. Each answer is followed immediately by feedback (the correct answer). By observing a large number of images online and by receiving systematic and expert feedback, the trainee quickly learns to extract efficiently the required information from the image.
PLMs developed with real ultrasound images could complement current training methods in regional anesthesia. A PLM could be especially useful for learning the interscalene block. Identification of the BP in the interscalene groove is often difficult in the absence of a reliable vascular marker. Furthermore, the presence of important surrounding structures to be avoided, like the vertebral artery and the pleura, make accurate image interpretation crucial to avoid complications.
The aim of this study is to set up a PLM focusing on the location of the BP in the interscalene groove using ultrasound imaging. As a first step, ultrasound images of the neck of healthy volunteers will be collected. Subsequently, these images will be uploaded on a secured website and interpreted by experts. Finally, a study will be undertaken to test whether the PLM improves the ability of medical students and junior residents (novices) to correctly locate the brachial plexus in the interscalene groove using ultrasound images.
Methods:
Development of a website to host the new PLM from an already existing model
Two professional programmers collaborating with our team have already developed a website to host and evaluate another PLM. Using this site as a template, the same programmers will be responsible for creating a similar website for this project.
Acquisition of images in healthy volunteers
Each volunteer will correspond to a case and each case will consist of three elements:
Validation of cases by experts and construction of a case bank
Recruitment of volunteers will continue until a sufficient number of validated cases is available to build the PLM and two tests.
Development of the PLM (20 cases)
The PLM will be developed with validated cases distinct from those of the performance tests and will have the following characteristics:
Two blocks of 10 cases will be formed. These blocks will contain the same proportion of "easy" "moderate" and "hard" cases. Cases within a block will be shown in a random order, but participants will always see the two blocks in the same order.
Development and validation of two tests to assess the performance of learners (10 cases each)
The objective of the tests is different from that of the PLM since their purpose is to assess the ability of participants to correctly identify the BP at different points during the study. These tests will have the same format as the PLM, except that no expert feedback will be provided after each case.
Two test version will be created with different cases. The order of the cases within a test will be random.
Pilot study of the effect of PLM on learner performance
Fourth-year medical students and first-year residents in anesthesiology will be invited to participate via email. Consent will be given online. In the first session, participants will complete a short online questionnaire about their demographics and clinical experience with ultrasound-guided regional anesthesia. They will also be shown a short tutorial to familiarize them with the platform, with basic sonoanatomy of the neck, and with the ultrasound scanning technique.
Subsequently, they will be randomly assigned to one of two groups: Control Group or PLM Group. Both groups will participate in two on-line sessions. The project will proceed as follows according to the participant assignment group:
Control Group (tests only)
First 30-minute session, immediately after agreeing to participate in the study
Second session lasting 15 minutes, 6 months after the first session
PLM Group (tests and PLM)
First session of 1h10, immediately after agreeing to participate in the study
Second session lasting 15 minutes, 6 months after the first session
At the end of the study, participants of the Control group will be allowed to complete the PLM if they wish to.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Control (no PLM) | Experimental | Control: Pre, post, delayed test Participants will not do the PLM, but will perform a pretest, a posttest and a delayed test at 6 months |
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| Experimental (PLM) | Experimental | Experimental: PLM group (pre, post, delayed test, PLM) Participants will do a pretest, the PLM, a posttest and a delayed test at 6 months |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Control (no PLM) | Other | Pre, post, delayed test Participants will perform a pretest, a posttest and a delayed test at 6 months. |
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| Measure | Description | Time Frame |
|---|---|---|
| Difference in correct locations of the BP between the pretest and the immediate post-test, for the Control group vs the PLM group. | The BP for a case will be considered correctly located if the participant has placed a pointer inside a predefined "target zone", determined as representing the BP by three independent regional anesthesia experts. | At baseline (pretest) and on the immediate post-test |
| Measure | Description | Time Frame |
|---|---|---|
| Difference in the average distance of BP location | Difference in the average distance of the participant's pointer relative to the target zone between the pretest and the immediate post-test, for the Control group vs the PLM group. | At baseline (pretest) and on the immediate post-test |
| Difference in correct locations of the BP |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Arnaud Robitaille, MD, FRCPC | Centre hospitalier de l'Université de Montréal (CHUM) | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Centre hospitalier de l'Université de Montréal (CHUM) | Montreal | Quebec | H2X 3E4 | Canada |
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Prospective, randomized, open-label study
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| PLM | Other | PLM Participants will take the PLM on the location of the brachial plexus at the level of the interscalene groove on surface ultrasound images. They will also take a pretest, a post-test and a delayed test at 6 months. Pre, post, delayed test Participants will perform a pretest, a posttest and a delayed test at 6 months. |
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Difference in correct locations of the BP between the pretest and the delayed post-test, for the Control group vs the PLM group. |
| At baseline (pretest) and on the delayed test at 6 months |
| Average response times during the various tests | This measure represents the fluency or automaticity with which images are interpreted, and can be used to evaluate the cognitive effort deployed to make a reading. Training not only allows the expert to make an accurate location. It also allows the expert to do it quickly, and therefore with little cognitive effort, an essential attribute in clinical practice. | At baseline (pretest), on an immediate post-test, and on the delayed test at 6 months |
| For the PLM group only, the evolution of the participants' accuracy during the PLM | The change in the participants' rate of correct answers as they progress through the PLM; indeed, since learners will evaluate all case blocks in the same order, we can estimate an average learning curve for our population (pretest vs block 1 vs block 2 vs post-test) | During the PLM, at the end of the first on-line session |