Creation of 3D anatomical models illustrating an intact and centrally torn triangular fibrocartilage complex for patient education prior treatment

3D models for mohs micrographic surgery: a review on its use in patient education

The use of a 3D model for patient education has shown encouraging results in surgical specialties like plastic surgery and neurosurgery, amongst many others; however, there is limited research on the clinical application of 3D models for Mohs Micrographic Surgery. This study delves into the utilization of 3D models for patient education in Mohs Surgery by juxtaposing different 3D modalities, highlighting their differences, and exploring potential avenues for future integration of 3D models into clinical practice. A literature search in the scientific database MEDLINE through PubMed and OVID and on the ProQuest Health & Medical Collection database was performed on the use of a 3D model for patient education. We limited the search to articles available in English and considered those mentioning the educational use of 3D models, especially for patient education, after excluding duplicate titles. We did not exclude articles based on publication year due to limited availability of literature. Utilizing 3D models for patient education within the framework of Mohs Micrographic surgery, including a 3D multicolored clay model and a 3D model accompanied by an educational video intervention, presents substantial advantages. 3D models offer a visual and tactile means to improve patients' comprehension of the Mohs procedure, the affected area, and possible outcomes. They hold the potential to reduce patient anxiety and improve decision-making. Currently, literature on the use of 3D models for patient education in Mohs Micrographic Surgery is limited, warranting further research in this area.

Full-sized realistic 3D printed models of liver and tumour anatomy: a useful tool for the clinical medicine education of beginning trainees

BACKGROUND

Simulation-based medical education (SBME) and three-dimensional printed (3DP) models are increasingly used in continuing medical education and clinical training. However, our understanding of their role and value in improving trainees' understanding of the anatomical and surgical procedures associated with liver surgery remains limited. Furthermore, gender bias is also a potential factor in the evaluation of medical education. Therefore, the aim of this study was to evaluate the educational benefits trainees receive from the use of novel 3DP liver models while considering trainees' experience and gender.

METHODS

Full-sized 3DP liver models were developed and printed using transparent material based on anonymous CT scans. We used printed 3D models and conventional 2D CT scans of the liver to investigate thirty trainees with various levels of experience and different genders in the context of both small group teaching and formative assessment. We adopted a mixed methods approach involving both questionnaires and focus groups to collect the views of different trainees and monitors to assess trainees' educational benefits and perceptions after progressing through different training programs. We used Objective Structured Clinical Examination (OSCE) and Likert scales to support thematic analysis of the responses to the questionnaires by trainees and monitors, respectively. Descriptive analyses were conducted using SPSS statistical software version 21.0.

RESULTS

Overall, a 3DP model of the liver is of great significance for improving trainees' understanding of surgical procedures and cooperation during operation. After viewing the personalized full-sized 3DP liver model, all trainees at the various levels exhibited significant improvements in their understanding of the key points of surgery (p < 0.05), especially regarding the planned surgical procedure and key details of the surgical procedures. More importantly, the trainees exhibited higher levels of satisfaction and self-confidence during the operation regardless of gender. However, with regard to gender, the results showed that the improvement of male trainees after training with the 3DP liver model was more significant than that of female trainees in understanding and cooperation during the surgical procedure, while no such trend was found with regard to their understanding of the base knowledge.

CONCLUSION

Trainees and monitors agreed that the use of 3DP liver models was acceptable. The improvement of the learning effect for practical skills and theoretical understanding after training with the 3DP liver models was significant. This study also indicated that training with personalized 3DP liver models can improve all trainees' presurgical understanding of liver tumours and surgery and males show more advantage in understanding and cooperation during the surgical procedure as compared to females. Full-sized realistic 3DP models of the liver are an effective auxiliary teaching tool for SBME teaching in Chinese continuing medical education.