TY - JOUR
T1 - Mechanical effects of residual bone mass, a maxillofacial prosthesis, and a reconstruction plate on the mandible after marginal resection
AU - Kase, Takeshi
AU - Ohyama, Tetsuo
AU - Nakabayashi, Shinya
AU - Yasuda, Hiroyasu
AU - Yoneyama, Takayuki
N1 - Publisher Copyright:
© 2020, Nihon University, School of Dentistry. All rights reserved.
PY - 2020
Y1 - 2020
N2 - In this study, analytic models were used to simulate marginal resection in the area of the second premolar to the second molar region, and the mechanical effects on the mandible of residual bone mass, a maxillofacial prosthesis, and a reconstruction plate were evaluated by three-dimensional finite element analysis. As residual bone mass decreased, maximum principal stress increased near the anterior ramus of the man-dible, and maximum shear stress increased at the anterior buccal region of the resected area. In the mandible with a maxillofacial prosthesis, the maximum principal stress distribution at the anterior ramus was lower, and the distribution of maximum shear stress at the anterior buccal region of the resected area was higher. When a reconstruction plate was used, maximum principal stress and maximum shear stress were lower. Thus, lower residual bone mass was associated with increased mandible deflection and torsion. In addition, presence of a maxillofacial prosthesis decreased deflection but increased torsion, and presence of a reconstruction plate decreased deflection and greatly decreased torsion. These findings suggest that decreased residual bone mass and maxillofacial prostheses increase fracture risk; however, presence of a reconstruction plate was effective in decreasing torsional stress, thereby reducing fracture risk in the mandible.
AB - In this study, analytic models were used to simulate marginal resection in the area of the second premolar to the second molar region, and the mechanical effects on the mandible of residual bone mass, a maxillofacial prosthesis, and a reconstruction plate were evaluated by three-dimensional finite element analysis. As residual bone mass decreased, maximum principal stress increased near the anterior ramus of the man-dible, and maximum shear stress increased at the anterior buccal region of the resected area. In the mandible with a maxillofacial prosthesis, the maximum principal stress distribution at the anterior ramus was lower, and the distribution of maximum shear stress at the anterior buccal region of the resected area was higher. When a reconstruction plate was used, maximum principal stress and maximum shear stress were lower. Thus, lower residual bone mass was associated with increased mandible deflection and torsion. In addition, presence of a maxillofacial prosthesis decreased deflection but increased torsion, and presence of a reconstruction plate decreased deflection and greatly decreased torsion. These findings suggest that decreased residual bone mass and maxillofacial prostheses increase fracture risk; however, presence of a reconstruction plate was effective in decreasing torsional stress, thereby reducing fracture risk in the mandible.
KW - Finite element analysis
KW - Marginal resection
KW - Maxillofaciaprostheses
KW - Reconstruction plate
UR - http://www.scopus.com/inward/record.url?scp=85091635718&partnerID=8YFLogxK
U2 - 10.2334/josnusd.19-0427
DO - 10.2334/josnusd.19-0427
M3 - Article
C2 - 32741850
AN - SCOPUS:85091635718
SN - 1343-4934
VL - 62
SP - 377
EP - 381
JO - Journal of Oral Science
JF - Journal of Oral Science
IS - 4
ER -