Litcius/Paper detail

Utility of 3D printed models as adjunct in acetabular fracture teaching for Orthopaedic trainees

Saumitra Goyal, CXK Chua, Yih‐Sharng Chen, Daniel Murphy, GK O.’Neill

2022BMC Medical Education28 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: To evaluate the use of 3-D printed models as compared to didactic lectures in the teaching of acetabular fractures for Orthopaedic trainees. METHODS: This was a randomised prospective study conducted in a tertiary hospital setting which consisted of 16 Orthopaedic residents. Ten different cases of acetabular fracture patterns were identified and printed as 3-D models. The baseline knowledge of orthopaedic residents regarding acetabular fracture classification and surgical approach was determined by an x-ray based pre-test. Trainees were then randomly assigned into two groups. Group I received only lectures. Group II were additionally provided with 3-D printed models during the lecture. Participants were then assessed for comprehension and retention of teaching. RESULTS: Sixteen trainees participated in the trial. Both Group 1 and 2 improved post teaching with a mean score of 2.5 and 1.9 to 4.4 and 6 out of 10 respectively. The post test score for fracture classification and surgical approach were significantly higher for 3-D model group (p < 0.05). Trainees felt that the physical characteristics of the 3-D models were a good representation of acetabular fracture configuration, and should be used routinely for teaching and surgical planning. CONCLUSION: 3-D printed model of real clinical cases have significant educational impact compared to lecture-based learning towards improving young trainees' understanding of complex acetabular fractures.

Topics & Concepts

AdjunctMedicineOrthopedic surgeryMedical educationAcetabular fracture3d printedMedical physicsOrthodonticsAcetabulumSurgeryBiomedical engineeringLinguisticsPhilosophyAnatomy and Medical TechnologySurgical Simulation and TrainingDental Research and COVID-19