Mouthguards: difference in longitudinal dimensional stability between single- and double-laminated fabrication techniques |
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Authors: | Jiro Miura Yoshinobu Maeda Hiroyuki Machi Shinsuke Matsuda |
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Affiliation: | Division for Interdisciplinary Faculty of Dentistry, Faculty of Dentistry, Osaka University, Osaka;;School of Dental Technology, Osaka University Faculty of Dentistry, Osaka, Japan |
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Abstract: | Abstract – Though the use of mouthguards (MGs) has increased with the increase in sporting activities, little is known about the influence of their fabrication methods on longitudinal dimensional stability. The objective of this study was to compare the difference in the longitudinal dimensional stability between single and laminated MGs. Single-layer MGs were made from a 4.0 mm thick ethylene vinyl acetate (EVA) sheet and laminated MGs were made from two 2.0 mm thick sheets of EVA. MGs were kept in a 37°C water bath for 60 h, equivalent to the time period of 3-months inter-oral use. MG deformation was analyzed by measuring designated points on the MG border using a profile projector (J-12, Nikon Inc., Tokyo, Japan) before and after the water immersion. A finite-element model was also created to examine the time course of stress accumulation during the sheet forming process using Finite Element software. Longitudinal deformation was smaller in the laminated MGs than in the single-layer MGs in the anterior area ( P < 0.05). Finite element method (FEM) analysis also showed the largest stress accumulation in the anterior incisal area where deformations were mainly observed. Laminated double layer MGs have advantages over single-layer MGs in terms of longitudinal stability due to lower stress accumulation during the fabrication process. |
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Keywords: | mouthguard dimensional stability laminate finite element method |
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