Design of Customized Mouthguards with Superior Protection Using Digital-Based Technologies and Impact Tests.

Détails

ID Serval
serval:BIB_4F00A83B8E7E
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Design of Customized Mouthguards with Superior Protection Using Digital-Based Technologies and Impact Tests.
Périodique
Sports medicine - open
Auteur⸱e⸱s
Nasrollahzadeh N., Pioletti D.P., Broome M.
ISSN
2199-1170 (Print)
ISSN-L
2198-9761
Statut éditorial
Publié
Date de publication
31/05/2024
Peer-reviewed
Oui
Volume
10
Numéro
1
Pages
64
Langue
anglais
Notes
Publication types: Journal Article
Publication Status: epublish
Résumé
In contact sports, an impact on the jaw can generate destructive stress on the tooth-bone system. Mouthguards can be beneficial in reducing the injury risk by changing the dynamics of the trauma. The material properties of mouthguards and their geometrical/structural attributes influence their protective performance. Custom-made mouthguards are the gold standard, and different configurations have been proposed to improve their protection and comfort. However, the effects of different design variables on the performance of customized mouthguards are not well understood.
Herein, we developed a reliable finite element model to analyze contributing factors to the design of custom-made mouthguards. Accordingly, we evaluated the isolated and combined effect of layers' stiffness, thickness, and space inclusion on the protective capability of customized mouthguards. Our simulations revealed that a harder frontal region could distribute load and absorb impact energy through bending if optimally combined with a space inclusion. Moreover, a softer layer could enlarge the time of impact and absorb its energy by compression. We also showed that mouthguards present similar protection with either permanently bonded or mechanically interlocked components. We 3D-printed different mouthguards with commercial resins and performed impact tests to experimentally validate our simulation findings. The impact tests on the fabricated mouthguards used in this work revealed that significantly higher dental protection could be achieved with 3D-printed configurations than conventionally fabricated customized mouthguards. In particular, the strain on the impacted incisor was attenuated around 50% more with a 3D-printed mouthguard incorporating a hard insert and space in the frontal region than a conventional Playsafe® Heavypro mouthguard.
The protective performance of a mouthguard could be maximized by optimizing its structural and material properties to reduce the risk of sport-related dental injuries. Combining finite element simulations, additive manufacturing, and impact tests provides an efficient workflow for developing functional mouthguards with higher protectiveness and athlete comfort. We envision the future with 3d-printed custom-mouthguards presenting distinct attributes in different regions that are personalized by the user based on the sport and associated harshness of the impact incidences.
Mots-clé
3D Printing, Customized Mouthguard, Dental Protection, Energy Absorption, Finite Element Analysis, Impact test, Load Distribution
Pubmed
Web of science
Open Access
Oui
Création de la notice
14/06/2024 9:22
Dernière modification de la notice
15/06/2024 6:04
Données d'usage