An ex vivo model for education and training of unilateral cleft lip surgery

Rainer Lutz; Katja Leonie Schulz; Manuel Weber; Manuel Olmos; Tobias Möst; Jan Bürstner; Marco Rainer Kesting

doi:10.1186/s12909-023-04667-6

An ex vivo model for education and training of unilateral cleft lip surgery

BMC Med Educ. 2023 Oct 12;23(1):765. doi: 10.1186/s12909-023-04667-6.

Authors

Rainer Lutz¹, Katja Leonie Schulz², Manuel Weber², Manuel Olmos², Tobias Möst², Jan Bürstner², Marco Rainer Kesting²

Affiliations

¹ Department of Oral and Cranio-Maxillofacial Surgery, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg (FAU), Glückstrasse 11, 91054, Erlangen, Germany. rainer.lutz@uk-erlangen.de.
² Department of Oral and Cranio-Maxillofacial Surgery, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg (FAU), Glückstrasse 11, 91054, Erlangen, Germany.

Abstract

Background: Unilateral cleft lip surgery is a complex procedure, and the outcome depends highly on the surgeon's experience. Digital simulations and low-fidelity models seem inadequate for effective surgical education and training. There are only few realistic models for haptic simulation of cleft surgery, which are all based on synthetic materials that are costly and complex to produce. Hence, they are not fully available to train and educate surgical trainees. This study aims to develop an inexpensive, widely available, high-fidelity, ex vivo model of a unilateral cleft lip using a porcine snout disc.

Methods: A foil template was manufactured combining anatomical landmarks of the porcine snout disc and the anatomical situation of a child with a unilateral cleft. This template was used to create an ex vivo model of a unilateral cleft lip from the snout disc. Millard II technique was applied on the model to proof its suitability. The individual steps of the surgical cleft closure were photo-documented and three-dimensional scans of the model were analysed digitally. Sixteen surgical trainees were instructed to create a unilateral cleft model and perform a unilateral lip plasty. Their self-assessment was evaluated by means of a questionnaire.

Results: The porcine snout disc proved highly suitable to serve as a simulation model for unilateral cleft lip surgery. Millard II technique was successfully performed as we were able to perform all steps of unilateral cleft surgery, including muscle suturing. The developed foil-template is reusable on any porcine snout disc. The creation of the ex vivo model is simple and inexpensive. Self-assessment of the participants showed a strong increase in comprehension and an eagerness to use the model for surgical training.

Conclusions: A porcine snout disc ex vivo model of unilateral cleft lips was developed successfully. It shows many advantages, including a haptic close to human tissue, multiple layers, low cost, and wide and rapid availability. It is therefore very suitable for teaching and training beginners in cleft surgery and subsequently improving surgical skills and knowledge. Further research is needed to finally assess the ex vivo model's value in different stages of the curriculum of surgical residency.

Keywords: Cadaver model; Cheiloplasty; Ex vivo model; Porcine snout disc; Surgical training; Teaching; Unilateral cleft lip.

MeSH terms

Animals
Child
Cleft Lip* / surgery
Computer Simulation
Curriculum
Educational Status
Humans
Internship and Residency*
Swine