Evaluating a preclinical orthodontic training using haptic-enhanced VR simulation system: a longitudinal study.

BACKGROUND

Virtual medical education has been used in the preclinical training of dentistry. The study aimed to evaluate the effectiveness of orthodontic bracket bonding training using the haptic-enhanced virtual reality simulation system.

METHODS

Twenty-six orthodontic postgraduates were recruited to attend the preclinical training using the virtual training system, consisting of the Virtual Learning Network Platform (VLNP) and the Virtual Simulation Training and Evaluation System (VSTES). Students were asked to perform the online training on VLNP within one week and the offline section on VSTES once each week for 6 consecutive weeks. Students' training outcomes were assessed using the 3D scanning data of the fixed bracket position before and after the training. Students were asked to provide feedback through a survey to identify their perceived benefits or drawbacks of this system. Student's t-tests or Wilcoxon signed-rank tests were used to compare differences in the outcomes, including the total score and each tooth score, between the pre- and post-training and among each online or offline virtual training session. The level of significance was P < 0.05.

RESULTS

The final online test scores of 'etching', 'rinsing', 'positioning bracket position', and total items in the online interactive virtual practicing using VLNP were 3-17% higher than those in the formative test (P < 0.05). Seven items of 'cleaning', 'coating acid etchant', 'etching time', 'rinsing off acid etchant', 'rinsing time', 'coating adhesive', 'positioning bracket position' and the total scores were significantly different among six offline results (P < 0.05). With the increased number of practices, the performance gradually improved. All post-training scores of bracket bonding demonstrated significant improvement, showing an increase of approximately 50% compared to pre-training scores (P < 0.05). Most students agreed that this system helped familiarize them with the clinical procedure due to its simulation of the real clinical environment (88.46%) and the availability of time and space for practice without limitation (76.92%). The majority agreed that their improved skills benefited from the offline system, which allowed them to adjust three-dimensional bracket position and receive the real-time feedback.

CONCLUSIONS

A virtual orthodontic training system with VLNP and VSTES could help students improve their clinical skills of orthodontic bracket bonding during preclinical training.