An experimental study of newly designed implant with RBM surface in the rabbit tibia: resonance frequency analysis and removal torque study.
- Author:
Mi Kyoung WON
1
;
Chan Jin PARK
;
Kyoung Soo CHANG
;
Chang Whe KIM
;
Yung Soo KIM
;
Zakiahbt Mohd ISA
;
Yusnidar Tajul ARIFFIN
Author Information
1. Department of Prosthodontics, College of Dentistry, Seoul National University.
- Publication Type:Original Article
- Keywords:
Dental implant;
Resonance frequency analysis;
Removal torque;
Digital torque gauge;
Resorbable blast media
- MeSH:
Bone Marrow;
Busan;
Clone Cells;
Dental Implants;
Inflammation;
Interferometry;
Microscopy, Electron, Scanning;
Osseointegration;
Prostheses and Implants;
Rabbits;
Reticular Formation;
Tibia*;
Torque*
- From:The Journal of Korean Academy of Prosthodontics
2003;41(6):720-731
- CountryRepublic of Korea
- Language:English
-
Abstract:
STATEMENT OF PROBLEM: The importance of fixture design and surface treatment. PURPOSE: The clinical success of dental implants is affected by many factors such like as degree of osseointegration, the effective load dispersion for the prostheses, and a lot of attempts have been made to overcome the difficulties. In this study, efforts were made to find the possibility of clinical acceptance of the dental implants of newly designed surface and resorbable blast media surcace. MATERIALS AND METHODS: In this study, two groups of custom-made, screw-shaped implants were prepared. Tthe first with the consisting of Branemark clone design and the other with the new design. These implants were divided into four groups according to the kinds of surface treatment. Four implants(AVANA., Osstem, Busan, Korea) of each group were installed in twenty rabbits. Group A was consisted of Branemark clone implant left as machined, Group B with Branemark clone implants with RBM(Resorbable blast media) surface, Group C with newly designed implants left as machined and Group D with newly designed implants with RBM surface. One of the twenty rabbits died from inflammation and the observation was made for six weeks. Specimens from four groups were observed using scanning electron microscopy with 40, 100, 1000 magnification power and microsurface structures were measured by white-light scanning interferometry for three dimensional surface roughness measurements(Accura 2000., Intek-Plus, Korea.). Removal torque was measured in 17 rabbits using digital torque gauge(MGT 12R, Mark-10 corp., NY, U.S.A.) immediately after the sacrifice and two rabbits were used for the histologic preparation(EXAKT 310., Heraeus Kulzer, Wehrheim, Germany) of specimens and observed under light microscope. Resonance frequency measurement(Osstell(R)) was taken with the 19 rabbits at the beginning of the implant fixation and immediately after the sacrifice. RESULTS: Following results were taken from the experiment. 1. The surface of the RBM implants as seen with SEM had rough and irregular pattern with reticular formation compared to that of turned specimens showing different surface topographies. 2. The newly designed implant with RBM surface had high removal torque value among four groups with no statistical significance. The average removal torque was 49.95+/-6.70Ncm in Group A, 51.15+/-4.40Ncm in Group B, 50.78+/-9.37Ncm in Group C, 51.09+/-4.69Ncm in Group D. 3. The RFA values were 70.8+/-4.3Hz in Group A, 71.8+/-3.1Hz in Group B, 70.9+/-2.5Hz, 72.7+/-2.5Hz in Group D. Higher values were noted in the groups which had surface treatment compared to the untreated groups with no statistical significance. 4. The results from the histomorphometric evaluation showed a mean percentage of bone-toimplant contact of 45+/-0.5% in Group A, 55+/-3% in Group B, 49.5+/-0.5% in Group C, and 55+/-3% in Group D. Quite amount of newly formed bone were observed at the surface RBM-treated implants in bone marrow space.
