Journal of Technologic Dentistry (대한치과기공학회지)

Korean Academy of Dental Technology (대한치과기공학회)
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Precision evaluation of impression surface of lower complete dentures reinforced with glass fiber

유리섬유 보강재를 삽입한 하악 레진의치 인상면의 정밀성 평가

  • Kim, Dong-Yeon (4RD Dental Laboratory) ;
  • Yang, Cheon-Seung (Department of Dental Laboratory, Donga University of Health) ;
  • Lee, Gwang-Young (Department of Dental Laboratory Technology, Wonkwang Health Science University) ;
  • Kim, Ji-Hwan (Institute for Health Science, College of Public Health Science, Korea University)
  • 김동연 (폴드 치과기공소) ;
  • 양천승 (동아보건대학교 치기공과) ;
  • 이광영 (원광보건대학교 치기공과) ;
  • 김지환 (고려대학교 대학원 보건과학과 치의기공전공)
  • Received : 2020.01.15
  • Accepted : 2020.03.16
  • Published : 2020.04.01
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Abstract

Purpose: This study is to compare and analyze the precision of glass fiber resin dentures. Methods: A lower edentulous model was prepared. Ten study models were produced using Type IV stone. Ten wax lower resin dentures containing artificial teeth were prepared. The lower wax denture was buried with plaster and deflasking was performed to remove the wax. Five conventional lower resin dentures and five glass fiber lower resin dentures were produced. The scanning spray was coated on the impression surface and then scanned. Independent sample t-test were performed using statistical software. Results: In the color different map, which is a qualitative evaluation, the green area of the precision of the conventional lower resin denture occupied the whole. The glass fiber conventional resin dentures had many negative and positive area. In quantitative evaluation, the RMS of conventional lower resin was 89.83 ㎛ and that of fiberglass resin was 224.92 ㎛. The two groups showed statistically significant differences (p<0.05). Conclusion: Conventional lower resin dentures were superior in precision, and glass fiber resin dentures would have to improve the process.

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References

  1. Im SM, Huh YH, Cho LR, Park CJ. Comparison of the fracture resistances of glass fiber meshand metal mesh-reinforced maxillary complete denture under dynamic fatigue loading. J Adv Prosthodont, 9, 22-30, 2017. https://doi.org/10.4047/jap.2017.9.1.22
  2. Jeong CM. A comparative study on the several metal reinforcement methods of maxillary complete acrylic resin denture base. J Korean Acad Prosthodont, 34, 363-372, 1996.
  3. Kim DY, Jeon JH, Kim JH, Kim HY, Kim WC. Reproducibility of different arrangement of resin copings by dental microstereolithography: Evaluating the marginal discrepancy of resin copings. J Prosthet Dent, 117, 260-265, 2017. https://doi.org/10.1016/j.prosdent.2016.07.007
  4. Kim CM, Kim JH, Kim HY, Kim WC. Strengthening effect of resin denture base by glass fiber reinforcement addition. J Korean Acad Dent Tech, 36, 1-7, 2014. https://doi.org/10.14347/kadt.2014.36.1.1
  5. Kim DY, Park JY, Bae SY, Kang HW, Kim JH, Kim WC. Evaluation of fitness according to application of glass fiber reinforcement for lower jaw complete denture. J Korean Acad Dent Tech, 40, 201-207, 2018.
  6. Lee JJ, Jeong ID, Kim CM, Park JY, Kim JH, Kim CW. Comparison of accuracy of digital data obtained by intra-oral scanner and extraoral scanner. J Korean Acad Dent Tech, 37, 191-197, 2015. https://doi.org/10.14347/kadt.2015.37.4.191
  7. Park JY, Kim DY, Kim WS, Lee GY, Jeong ID, Bae SY, Kim JH, Kim WC. Three-dimensional analysis of artificial teeth position according to three type complete mandibular denture before and after polymerization. J Korean Acad Dent Tech, 40, 217-224, 2018.
  8. Roumanas ED. The social solution-Denture esthetics, phonetics, and function. Journal of prosthodontics. J Prosthodont, 18, 112-115, 2009. https://doi.org/10.1111/j.1532-849x.2009.00440.x
  9. Zissis AJ, Polyzois GL. Fracture energy of denture base : The effect of activation mode of polymerization. Quint Dent Technol, 16, 154-158, 1993.