Evaluating a novel 3D printed model for simulating Large Loop Excision of the Transformation Zone (LLETZ)
Kiesel M, Beyers I, Kalisz A, Wockel A, Lob S, Schlaiss T, Wulff C, Diessner J (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 8
Journal Issue: 1
DOI: 10.1186/s41205-022-00143-x
Abstract
Background Electrosurgical excisions are common procedures for treating cervical dysplasia and are often seen as minor surgeries. Yet, thorough training of this intervention is required, as there are considerable consequences of inadequate resections, e.g. preterm birth, the risk of recurrence, injuries and many more. Unfortunately, there is a lack of sufficiently validated possibilities of simulating electrosurgeries, which focus on high fidelity and patient safety. Methods A novel 3D printed simulator for examination and electrosurgical treatment of dysplastic areas of the cervix was compared with a conventional simulator. Sixty medical students experienced a seminar about cervical dysplasia. Group A underwent the seminar with the conventional and Group B with the novel simulator. After a theoretical introduction, the students were randomly assigned by picking a ticket from a box and went on to perform the hands-on training with their respective simulator. Each student first obtained colposcopic examination training. Then he or she performed five electrosurgical excisions (each). This was assessed with a validated score, to visualize their learning curve. Furthermore, adequate and inadequate resections and contacts between electrosurgical loop and vagina or speculum were counted. Both groups also assessed the seminar and their simulator with 18 questions (Likert-scales, 1-10, 1 = strongly agree / very good, 10 = strongly disagree / very bad). Group B additionally assessed the novel simulator with four questions (similar Likert-scales, 1-10). Results Nine of 18 questions showed statistically significant differences favoring Group B (p < 0.05). Group B also achieved more adequate R0-resections and less contacts between electrosurgical loop and vagina or speculum. The learning curves of the performed resections favored the novel simulator of Group B without statistically significant differences. The four questions focusing on certain aspects of the novel simulator indicate high appreciation of the students with a mean score of 1.6 points. Conclusion The presented novel simulator shows several advantages compared to the existing model. Thus, novice gynecologists can be supported with a higher quality of simulation to improve their training and thereby patient safety.
Authors with CRIS profile
Adam Kalisz
Lehrstuhl für Informationstechnik mit dem Schwerpunkt Kommunikationselektronik (Stiftungslehrstuhl)
Involved external institutions
Universitätsklinikum Würzburg
Germany (DE)
Gottfried Wilhelm Leibniz Universität Hannover
Germany (DE)
Germany (DE)
Gottfried Wilhelm Leibniz Universität Hannover
Germany (DE)
How to cite
APA:
Kiesel, M., Beyers, I., Kalisz, A., Wockel, A., Lob, S., Schlaiss, T.,... Diessner, J. (2022). Evaluating a novel 3D printed model for simulating Large Loop Excision of the Transformation Zone (LLETZ). 3D Printing in Medicine, 8(1). https://dx.doi.org/10.1186/s41205-022-00143-x
MLA:
Kiesel, Matthias, et al. "Evaluating a novel 3D printed model for simulating Large Loop Excision of the Transformation Zone (LLETZ)." 3D Printing in Medicine 8.1 (2022).
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