Acknowledgements : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
Acknowledgements : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
author: Miyuki Omori, Yuji Sato, Noboru Kitagawa, Yuta Shimura, Manabu Ito | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
The authors would like to express their deep appreciation to the teaching staff of the Geriatric Dentistry course at Showa University Dental Hospital for their help and cooperation. This study was supported by a Grant-in-Aid for Scientific Research from the Ministry of Education, Culture, Sports, Science, and Technology (Showa University Grant-in-Aid for Scientific Research (C)) (Grant Number 25463016). A partial summary of this thesis was presented at the 43rd Annual Meeting of the Japanese Society of Oral Implantology in Fukuoka, Japan, in September 2013.
Serial posts:
- Abstract : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Background : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [1]
- Background : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [2]
- Methods : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [1]
- Methods : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [2]
- Methods : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [3]
- Methods : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [4]
- Results : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [1]
- Results : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [2]
- Results : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [3]
- Discussion : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [1]
- Discussion : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [2]
- Discussion : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [3]
- Discussion : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [4]
- Discussion : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [5]
- Conclusions : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Abbreviations : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- References : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [1]
- References : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [2]
- References : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [3]
- References : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model [4]
- Acknowledgements : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Author information : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Additional information : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Rights and permissions : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- About this article : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Table 1 Mechanical properties of the materials used in the FEA : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Table 2 Coefficients of variation in implant displacement under loading conditions : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Table 3 Three-way ANOVA (displacement in the buccolingual direction [x-axis]) : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Table 4 Three-way ANOVA (displacement in the mesiodistal direction [y-axis]) : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Table 5 Three-way ANOVA (displacement in the inferior-superior direction [z-axis]) : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Table 6 Three-way ANOVA (equivalent stress) : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Table 7 Coefficients of variation for equivalent stresses : A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model
- Figure 1. An artificial mandible. : A biomechanical investigation of mandibular molar implant
- Figure 2. Three implants were embedded in an artificial mandible. : A biomechanical investigation of mandibular molar implant
- Figure 3. An experimental model. (a) Buccal loading, (b) central loading, and (c) lingual loading are shown. : A biomechanical investigation of mandibular molar implant
- Figure 4. An experimental model loading test. : A biomechanical investigation of mandibular molar implant
- Figure 5. An FEA model. (a) Buccal loading, (b) central loading, and (c) lingual loading are shown. : A biomechanical investigation of mandibular molar implant
- Figure 6. Implant displacement under loading conditions. : A biomechanical investigation of mandibular molar implant
- Figure 7. The displacement of the three implants. (M) Mesial side, (D) Distal side, (B) Buccal side, and (L) Lingual side are shown. : A biomechanical investigation of mandibular molar implant
- Figure 8. Displacement in the buccolingual direction (x-axis). (a) The contact model and (b) the fixation model. : A biomechanical investigation of mandibular molar implant
- Figure 9. Displacement in the mesiodistal direction (y-axis). (a) The contact model and (b) the fixation model. : A biomechanical investigation of mandibular molar implant
- Figure 10. Displacement in the inferior-superior direction (z-axis). (a) The contact model and (b) the fixation model. : A biomechanical investigation of mandibular molar implant
- Figure 11. The distribution of equivalent stress (MPa) around the first molar. : A biomechanical investigation of mandibular molar implant
- Figure 12. Equivalent stresses at (a) the neck and (b) the tip of the implant. : A biomechanical investigation of mandibular molar implant