References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
author: Masazumi Yoshitani, Yoshiyuki Takayama, Atsuro Yokoyama | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
Baba K, Igarashi Y, Nishiyama A, John MT, Akagawa Y, Ikebe K, Ishigami T, Kobayashi H, Yamashita S. Patterns of missing occlusal units and oral health-related quality of life in SDA patients. J Oral Rehabil. 2008;35:621–8.
Kasai K, Takayama Y, Yokoyama A. Distribution of occlusal forces during occlusal adjustment of dental implant prostheses: a nonlinear finite element analysis considering the capacity for displacement of opposing teeth and implants. Int J Oral Maxillofac Implants. 2012;27:329–35.
Kayumi S, Takayama Y, Yokoyama A, Ueda N. Effect of bite force in occlusal adjustment of dental implants on the distribution of occlusal pressure: comparison among three bite forces in occlusal adjustment. Int J Implant Dent. 2015;1:14.
Kasai K, Enomoto Y, Ogawa T, Kawasaki Y, Kanazawa E, Iwasawa T. Morphological characteristics of vertical sections of the mandible obtained by CT scanning. Anthropol Sci. 1996;104:187–98.
Lim JE, Lee SJ, Kim YJ, Lim WH, Chun YS. Comparison of cortical bone thickness and root proximity at maxillary and mandibular interradicular sites for orthodontic mini-implant placement. Orthod Craniofac Res. 2009;12:299–304.
Zarb GA, Bolender CL. Implant prosthodontics for edentulous patients: current and future directions. In: Elsubeihi ES, Attard N, Zarb GA, editors. Prosthodontic treatment for edentulous patients: complete denture and implant-supported prostheses. 12th ed. St. Louis: Mosby; 2004.
Sicher H, DuBrul EL. The musculature. The dentition and occlusion. In: Sicher H, DuBrul EL, editors. Sicher and DuBrul’s Oral Anatomy. 8th ed. St. Louis. Ishiyaku EuroAmerica: Tokyo; 1988.
Schroeder HE. Development, structure, and function of periodontal tissues. In: Schroeder HE, editor. The Periodontium. Berlin: Springer-Verlag; 1986.
Parfitt GJ. Measurement of the physiological mobility of individual teeth in an axial direction. J Dent Res. 1960;39:608–18.
Miura H, Hasegawa S, Okada D, Ishihara H. The measurement of physiological tooth displacement in function. J Med Dent Sci. 1998;45:103–15.
Misch CE. Occlusal considerations for implant-supported prostheses: implant protective occlusion and occlusal materials. In: Misch CE, Bidez MW, editors. Contemporary implant dentistry. 2nd ed. St Louis: Mosby; 1999.
Serial posts:
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Abstract : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
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Background : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
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Background : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
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Methods : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
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Methods : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
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Methods : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
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Results : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
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Results : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
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Results : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
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Discussion : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
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Discussion : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
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Discussion : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
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Conclusions : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
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References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
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References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
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References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
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References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [4]
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Author information : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
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Ethics declarations : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
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Rights and permissions : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
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About this article : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
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Table 1 Material properties : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
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Fig. 1. Three-dimensional finite element model. The tooth roots and implant bodies are displayed with permeability. a Im67, b Im6, c Im4567, d Im456, e MT67, and f MT7 : Significance of mandibular molar replacement with a dental implant
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Fig. 2. Load displacement curves of springs : Significance of mandibular molar replacement with a dental implant
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Fig. 3. Load displacement curves of natural teeth in FE model : Significance of mandibular molar replacement with a dental implant
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Fig. 4. Three-dimensional finite element model with natural teeth and no defect : Significance of mandibular molar replacement with a dental implant
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Fig. 5. Distribution of occlusal force in the natural teeth model displayed in Fig.4 : Significance of mandibular molar replacement with a dental implant
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Fig. 6. Springs for opposing teeth and TMJs and load directions. Arrows indicate loads, arrowheads indicate restricted nods, and spiral lines indicate springs : Significance of mandibular molar replacement with a dental implant
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Fig. 7. Initializing models altering the load displacement curves of springs : Significance of mandibular molar replacement with a dental implant
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Fig. 8. Distribution of occlusal force in models. a Im67, b Im6, c Im4567, d Im456, e MT67, and f MT7. R right TMJ, L left TMJ, 4 first premolar, 5 second premolar, 6 first molar, and 7 second molar. Numbers within circles indicate implant superstructure : Significance of mandibular molar replacement with a dental implant
Baba K, Igarashi Y, Nishiyama A, John MT, Akagawa Y, Ikebe K, Ishigami T, Kobayashi H, Yamashita S. Patterns of missing occlusal units and oral health-related quality of life in SDA patients. J Oral Rehabil. 2008;35:621–8.
Kasai K, Takayama Y, Yokoyama A. Distribution of occlusal forces during occlusal adjustment of dental implant prostheses: a nonlinear finite element analysis considering the capacity for displacement of opposing teeth and implants. Int J Oral Maxillofac Implants. 2012;27:329–35.
Kayumi S, Takayama Y, Yokoyama A, Ueda N. Effect of bite force in occlusal adjustment of dental implants on the distribution of occlusal pressure: comparison among three bite forces in occlusal adjustment. Int J Implant Dent. 2015;1:14.
Kasai K, Enomoto Y, Ogawa T, Kawasaki Y, Kanazawa E, Iwasawa T. Morphological characteristics of vertical sections of the mandible obtained by CT scanning. Anthropol Sci. 1996;104:187–98.
Lim JE, Lee SJ, Kim YJ, Lim WH, Chun YS. Comparison of cortical bone thickness and root proximity at maxillary and mandibular interradicular sites for orthodontic mini-implant placement. Orthod Craniofac Res. 2009;12:299–304.
Zarb GA, Bolender CL. Implant prosthodontics for edentulous patients: current and future directions. In: Elsubeihi ES, Attard N, Zarb GA, editors. Prosthodontic treatment for edentulous patients: complete denture and implant-supported prostheses. 12th ed. St. Louis: Mosby; 2004.
Sicher H, DuBrul EL. The musculature. The dentition and occlusion. In: Sicher H, DuBrul EL, editors. Sicher and DuBrul’s Oral Anatomy. 8th ed. St. Louis. Ishiyaku EuroAmerica: Tokyo; 1988.
Schroeder HE. Development, structure, and function of periodontal tissues. In: Schroeder HE, editor. The Periodontium. Berlin: Springer-Verlag; 1986.
Parfitt GJ. Measurement of the physiological mobility of individual teeth in an axial direction. J Dent Res. 1960;39:608–18.
Miura H, Hasegawa S, Okada D, Ishihara H. The measurement of physiological tooth displacement in function. J Med Dent Sci. 1998;45:103–15.
Misch CE. Occlusal considerations for implant-supported prostheses: implant protective occlusion and occlusal materials. In: Misch CE, Bidez MW, editors. Contemporary implant dentistry. 2nd ed. St Louis: Mosby; 1999.
- Abstract : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
- Background : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
- Background : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
- Methods : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
- Methods : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
- Methods : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
- Results : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
- Results : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
- Results : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
- Discussion : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
- Discussion : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
- Discussion : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
- Conclusions : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
- References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [1]
- References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [2]
- References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [3]
- References : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis [4]
- Author information : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
- Ethics declarations : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
- Rights and permissions : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
- About this article : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
- Table 1 Material properties : Significance of mandibular molar replacement with a dental implant: a theoretical study with nonlinear finite element analysis
- Fig. 1. Three-dimensional finite element model. The tooth roots and implant bodies are displayed with permeability. a Im67, b Im6, c Im4567, d Im456, e MT67, and f MT7 : Significance of mandibular molar replacement with a dental implant
- Fig. 2. Load displacement curves of springs : Significance of mandibular molar replacement with a dental implant
- Fig. 3. Load displacement curves of natural teeth in FE model : Significance of mandibular molar replacement with a dental implant
- Fig. 4. Three-dimensional finite element model with natural teeth and no defect : Significance of mandibular molar replacement with a dental implant
- Fig. 5. Distribution of occlusal force in the natural teeth model displayed in Fig.4 : Significance of mandibular molar replacement with a dental implant
- Fig. 6. Springs for opposing teeth and TMJs and load directions. Arrows indicate loads, arrowheads indicate restricted nods, and spiral lines indicate springs : Significance of mandibular molar replacement with a dental implant
- Fig. 7. Initializing models altering the load displacement curves of springs : Significance of mandibular molar replacement with a dental implant
- Fig. 8. Distribution of occlusal force in models. a Im67, b Im6, c Im4567, d Im456, e MT67, and f MT7. R right TMJ, L left TMJ, 4 first premolar, 5 second premolar, 6 first molar, and 7 second molar. Numbers within circles indicate implant superstructure : Significance of mandibular molar replacement with a dental implant