COMPARISON OF THE EFFECT OF DIFFERENT IMPLANT CONNECTIONS ON STRESS DISTRIBUTION AROUND DENTAL IMPLANTS (IN VITRO STUDY)

Document Type : Original Article

Authors

1 BDS Faculty of Dentistry Alexandria University, MSc periodontology department ain shams university

2 Professor of Oral Medicine, Periodontology and Oral diagnosis, Faculty of Dentistry, Ain shams University

3 Lecturer of Oral Medicine, Periodontology and Oral Diagnosis, Faculty of Dentistry, Ain Shams University

Abstract

INTRODUCTION: In implant dentistry literature, the commonly used materials in FEA studies can be classified as either implant, peri-implant bone (cortical and cancellous bone), and restoration. This method allows application of simulated forces at specific points in the system and stress analysis in the peri-implant region and surrounding structures. The implant connection system and other factors as the prosthesis type, length and material of restoration have a great effect on stresses falling on the bone around implant
OBJECTIVES: was to evaluate and calculate the stress distribution with finite element analysis between implant in optimum apicocoronal position and implant in 6 mm vertical defect as well as between Internal Hex and Morse Taper connections.
MATERIAL AND METHODS: In this study the stresses falling on surrounding bone, abutment, fixture and screw were analyzed in the two different configurations. In the first configuration, the jawbone has no defects. It is composed starting from the top of the bone, of 1 mm layer of crestal cortical bone, 3.5 mm layer of cancellous bone, 0.5 mm sinus cortical bone and a bottom layer of graft bone. In the second configuration, a vertical bone defect was created. The implants examined throughout this study were titanium implant with Morse taper and internal hex connections.

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