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Developing simulation tools for doctors

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Background

Certain skills, especially those involving manipulation of 3D structures, can be challenging to master with few opportunities for practice. We developed a high-fidelity, cost-effective model of the face was created using three-dimensional (3D) printing to simulate flap reconstruction following Mohs surgery. We studied the impact of this model on the comfort and proficiency of surgical trainees in flap design for Mohs reconstruction.

Design

Skin, bone, and cartilage of a model face sculpted digitally. Negatives (molds) were 3D-printed and used to create a silicone cast representing the skin. The cartilage and bone models were combined to create a single 3D-printed base upon which to lay the skin.

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Workshop

Surgical residents practiced designing, raising, and insetting banner and bilobed flaps, on the simulation model. Improvement was assessed using a boards-style pre- and post-test in which flaps were planned on clinical photographs. Medical students were randomized to complete a similar practice session with the model or a reading on the topic, after which they completed the same assessment. Participants completed a questionnaire about the model’s didactic and monetary value. This accessible model was superior to traditional teaching materials for Mohs reconstruction.

Results

Residents showed significant improvement after use of the model (banner flap: p=0.002, bilobed flap: p=0.04). Medical students who used the model scored significantly higher than those assigned to train by reading (p=0.001).

 

Subjective comfort with flap design and execution increased following practice with the model (p=0.001). Although the materials cost for each model was $2.50, participants reported willingness to pay $24.36 (mean) for this tool.

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Discussion & affordability

Simulation is a powerful adjunct to intra-operative opportunities and build surgeon confidence by enabling procedural skills to be finessed at their own leisure. The utility of simulators for surgical skill and thus patient outcomes is supported by a growing body of literature with evidence of improved patient outcomes and reduced operative time. While traditional simulation models have been generic in nature, 3D sculpting and printing have introduced infinite possibility for creating customized, reproducible, and affordable models.

To ensure accessibility to training programs, the design of our model focused on ensuring its affordability. Only free software was utilized and models were sculpted free-hand without assistance of commercially available stock models of human figures or anatomy. Silicone cost $2.50 per model, as compared with a mean cost of $24 participants reported willingness to pay. Of note, silicone models, while not reused in our study can be restored by painting fresh silicone onto cut edges, reapproximating edges, and allowing them to cure. This was not done as previously incised lines could confound results, if visible.
 

H.A.L.O. Simulation models

High accuity, low occurence models are a staple of emergency medicine training. Simulations can recreate emergency scenarios, allowing healthcare professionals to practice and improve their response to critical situations in a safe environment.

Lateral canthotomy

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