DOI
10.1016/S1991-7902(09)60012-X
First Page
81
Last Page
86
Abstract
Background/Purpose Assessing periodontal conditions has always been a concern for dental researchers. In this study, we evaluated the potential of a natural frequency (NF) analysis to detect the health status of natural human canine teeth. Materials and methods Three-dimensional finite element models of the human maxillary canine were constructed. NF values of the canine model were calculated with one-, two- and three-sided vertical bone loss. Results By simulating a modal testing experiment, the NF value for a healthy canine was found to be 2581 Hz. As the bone level was lowered, a strong linear relationship between the frequency and attachment level was demonstrated in all three models. Results from this study demonstrated that the change in the NF was < 12% in canines with a one-sided defect when the bone level varied by 10 mm from the cementoenamel junction. However, when a three-sided bony defect was simulated, the change in NF ranged from 20% to 60%. Conclusion This study demonstrates that the NF of the human canine decreases with various degrees of periodontal bone height loss.
Recommended Citation
Shen, Li-Kuo; Huang, Haw-Ming; Yu, Jun-Jea; Lee, Sheng-Yang; Lee, Chih-Ming; and Hsieh, Sung-Chih
(2009)
"Effects of periodontal bone loss on the natural frequency of the human canine: a three-dimensional finite element analysis,"
Journal of Dental Sciences: Vol. 4:
Iss.
2, Article 4.
DOI: 10.1016/S1991-7902(09)60012-X
Available at:
https://jds.ads.org.tw/journal/vol4/iss2/4
