TY - JOUR
T1 - Zygomatic Implants
T2 - The Impact of Zygoma Bone Support on Biomechanics
AU - Romeed, Shihab
AU - Malik, Raheel
AU - Dunne, Stephen
PY - 2014
Y1 - 2014
N2 - Abstract Maxillectomy and severely resorbed maxilla are challenging to restore with provision of removable prostheses. Dental implants are essential to restore aesthetics and function and subsequently quality of life in such group of patients. Zygomatic implants reduce the complications associated with bone grafting procedures and simplify the rehabilitation of atrophic maxilla and maxillectomy. The purpose of this study was to compare, by means of three-dimensional finite element analysis, the impact of different zygomatic bone support (10, 15, and 20mm) on the biomechanics of zygomatic implants. Results indicated maximum stresses within the fixture were increased by three times, when bone support decreased from 20 to 10mm, and concentrated at fixture/bone interface. However, stresses within the abutment screw and abutment itself were not significantly different regardless of the bone support level. Supporting bone at 10mm suffered double the stresses of 15 and 20mm. Fixture's deflection was decreased by two to three times when bone level support increased to 15mm and 20mm respectively. It was concluded that zygomatic bone support should not be less than 15mm and abutment screw is not at risk of fracture regardless of the zygomatic bone support.
AB - Abstract Maxillectomy and severely resorbed maxilla are challenging to restore with provision of removable prostheses. Dental implants are essential to restore aesthetics and function and subsequently quality of life in such group of patients. Zygomatic implants reduce the complications associated with bone grafting procedures and simplify the rehabilitation of atrophic maxilla and maxillectomy. The purpose of this study was to compare, by means of three-dimensional finite element analysis, the impact of different zygomatic bone support (10, 15, and 20mm) on the biomechanics of zygomatic implants. Results indicated maximum stresses within the fixture were increased by three times, when bone support decreased from 20 to 10mm, and concentrated at fixture/bone interface. However, stresses within the abutment screw and abutment itself were not significantly different regardless of the bone support level. Supporting bone at 10mm suffered double the stresses of 15 and 20mm. Fixture's deflection was decreased by two to three times when bone level support increased to 15mm and 20mm respectively. It was concluded that zygomatic bone support should not be less than 15mm and abutment screw is not at risk of fracture regardless of the zygomatic bone support.
U2 - 10.1563/AAID-JOI-D-11-00245.1
DO - 10.1563/AAID-JOI-D-11-00245.1
M3 - Article
C2 - 22432500
SN - 0160-6972
JO - JOURNAL OF ORAL IMPLANTOLOGY
JF - JOURNAL OF ORAL IMPLANTOLOGY
ER -