Validation of a <scp>3D‐Printed</scp> Percutaneous Injection Laryngoplasty Simulator: A Randomized Controlled Trial

Kostas, Julianna C; Lee, Andrew S.; Arunkumar, Amit; Han, Catherine; Lee, M. J.; Goel, Alexander N.; Alrassi, James; Crosby, Tyler; Clark, Christine; Amin, Milan R.; Abu‐Ghanem, Sara; Kirke, Diana N.; Rameau, Anaïs

doi:10.1002/lary.30878

The Laryngoscope

2023

DOI: 10.1002/lary.30878

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Validation of a 3D‐Printed Percutaneous Injection Laryngoplasty Simulator: A Randomized Controlled Trial

Julianna C Kostas

Andrew S. Lee

Amit Arunkumar

et al.

Abstract: ObjectiveSimulation may be a valuable tool in training laryngology office procedures on unsedated patients. However, no studies have examined whether existing awake procedure simulators improve trainee performance in laryngology. Our objective was to evaluate the transfer validity of a previously published 3D‐printed laryngeal simulator in improving percutaneous injection laryngoplasty (PIL) competency compared with conventional educational materials with a single‐blinded randomized controlled trial.MethodsOto… Show more

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2024

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Cited by 2 publications

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Novel Image‐Guided Simulator for Transcervical Intralaryngeal Injection Training

Kaiser,

Zeatoun,

Shah

et al. 2024

The Laryngoscope

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Objective(s)To assess the impact of a novel 3D‐printed simulation model with Brainlab Image Guidance on enhancing otolaryngology residents' skills and confidence in performing transcervical intralaryngeal injection (TII) compared with conventional training methods.MethodsUtilizing a 3D‐printed larynx model derived from computed tomography (CT) scans, this study involved 16 otolaryngology residents divided into two groups for TII training: one with Brainlab Image Guidance (LMIG) and the other without (LM). Pre‐ and post‐training evaluations measured participants' confidence while the Brainlab system measured the accuracy of their needle placements.ResultsAfter training, participants exhibited a significant increase in confidence with an average rise from 1.56 to 2.75 on a 5‐point scale. The LMIG group outperformed the LM group in accuracy achieving statistically significant reductions in target distances after training (3.5 mm right, 3.6 mm left). The LMIG also demonstrated a significantly greater increase in procedural confidence over the LM group after training.ConclusionThe TII laryngeal model with Brainlab Image Guidance significantly improves procedural confidence and accuracy among otolaryngology residents, signifying potential advantage over a more conventional training approach. The model's realistic tactile and live instrument positioning feedback augments the process of surgical skill refinement in a controlled, risk‐free, simulation environment.Level of EvidenceNA Laryngoscope, 2024

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Novel Image‐Guided Simulator for Transcervical Intralaryngeal Injection Training

Kaiser,

Zeatoun,

Shah

et al. 2024

The Laryngoscope

View full text Add to dashboard Cite

show abstract

Barbed Pharyngoplasty simulation using a 3D-printed model: design and validation study

Giorgi,

Moffa,

Pericone

et al. 2024

Sleep Breath

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Validation of a 3D‐Printed Percutaneous Injection Laryngoplasty Simulator: A Randomized Controlled Trial

Cited by 2 publications

References 15 publications

Novel Image‐Guided Simulator for Transcervical Intralaryngeal Injection Training

Novel Image‐Guided Simulator for Transcervical Intralaryngeal Injection Training

Barbed Pharyngoplasty simulation using a 3D-printed model: design and validation study

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