An evaluation of the primary implant stability and the immediate load-bearing capacity according to the change of cortical bone thickness.
- Author:
Yang Jin YI
1
;
Chan Jin PARK
;
Lee Ra CHO
Author Information
1. Department of Prosthodontics, College of Dentistry, Kangnung National University, and Research Institute of Oral Science, Korea. navydent@kangnung.ac.kr
- Publication Type:Original Article
- Keywords:
Cortical bone;
Thickness;
Immediate load-bearing capacity;
RFA;
Primary stability;
Correlation
- MeSH:
Diagnosis;
Osseointegration;
Ribs;
Weight-Bearing*
- From:The Journal of Korean Academy of Prosthodontics
2005;43(2):248-257
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
STATEMENT OF PROBLEM: Cortical bone plays an important role in the primary implant stability, which is essential to immediate/early loading. However, immediate load-bearing capacity and primary implant stability according to the change of the cortical bone thickness have not been reported. PURPOSE: The objectives of this study were (1) to measure the immediate load-bearing capacity of implant and primary implant stability according to the change of cortical bone thickness, and (2) to evaluate the correlation between them. MATERIAL AND METHODS: 48, screw-shaped implants (3.75 mmx7 mm) were placed into bovine rib bone blocks with different upper cortical bone thickness (0-2.5 mm) and resonance frequency (RF) values were measured subsequently. After fastening of healing abutment, implants were subjected to a compressive load until tolerated micromotion threshold known for the osseointegration and load values at threshold were recorded. Thereafter, RF measurement after loading, CT taking and image analysis were performed serially to evaluate the cortical bone quality and quantity. Immediate load-bearing capacity and RF values were analyzed statistically with ANOVA and post-hoc method at 95% confidence level (P<0.05). Regression analysis and correlation test were also performed. RESULTS: Existence and increase of cortical bone thickness increased the immediate load-bearing capacity and RF value (P<0.05). With the result of regression analysis, all parameters of cortical bone thickness to immediate load-bearing capacity and resonance frequency showed significant positive values (P<0.0001). A significant high correlation was observed between the cortical bone thickness and immediate load-bearing capacity (r=0.706, P<0.0001), between the cortical bone thickness and resonance frequency (r=0.753, P<0.0001) and between the immediate loadbearing capacity and resonance frequency (r=0.755, P<0.0001). Conclusion. In summary, cortical bone thickness change affected the immediate load-baring capacity and the RF value. Although RF analysis (RFA) is based on the measurement of implant/bone interfacial stiffness, when the implant is inserted stably, RFA is also considered to reflect implant/bone interfacial strength of immediately after placement from high correlation with the immediate loadbaring capacity. RFA and measuring the cortical bone thickness with X-ray before and during surgery could be an effective diagnosis tool for the success of immediate loading of implant.