Influence of implant thread{u2019}s cross-sectional design on the micromotion of the implants in different bone qualities : Finite element analysis /
Dalia Samir Mahmoud Shaker
Influence of implant threads cross-sectional design on the micromotion of the implants in different bone qualities : Finite element analysis / طريقة تحليل العناصر الغير المحدودة : تأثير تصميم المقطع العرضى لسن لولب الغرسات على الحركات الدقيقة للغرسات فى العظام مختلفة الجودة Dalia Samir Mahmoud Shaker ; Supervised Amr Hosny Elkhadem , Mohammed Atef Abdelrasoul - Cairo : Dalia Samir Mahmoud Shaker , 2020 - 119 P . : charts , facsmilies ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine - Department of Prosthodontics
Implant micromotion can be one of the causes of implant failure. One of the factors affecting micromotion is the implant macrodesign, which includes the implants thread cross sectional design. The aim of this study was to evaluate the effect of the implants thread cross sectional design on the micromotion of the implants in different bone qualities. In this finite element analysis study, four implant models exhibiting four different thread designs (buttress, reverse buttress, v-shaped and square) were created using Solidworks software. Each model was assembled with a superstructure in four models of four different bone qualities resulting in 16 groups. Each group was examined for micromotion under 100N force using ANSYS software. The results revealed that when comparing micromotion in different bone qualities, the lowest micromotion values were observed with D1 bone and the highest values were observed with D4 bone regardless the thread design. When comparing different thread designs, in D1 and D2 bone, the lowest micromotion was observed with v-shaped thread, which was lower than the square thread and the buttress thread was lower than the reverse buttress thread. While in D3 and D4 bone, the lowest micromotion was observed with the square thread, which was lower than the v-shaped and the reverse buttress thread was lower than the buttress thread
Finite element analysis Micromotion Thread design
Influence of implant threads cross-sectional design on the micromotion of the implants in different bone qualities : Finite element analysis / طريقة تحليل العناصر الغير المحدودة : تأثير تصميم المقطع العرضى لسن لولب الغرسات على الحركات الدقيقة للغرسات فى العظام مختلفة الجودة Dalia Samir Mahmoud Shaker ; Supervised Amr Hosny Elkhadem , Mohammed Atef Abdelrasoul - Cairo : Dalia Samir Mahmoud Shaker , 2020 - 119 P . : charts , facsmilies ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine - Department of Prosthodontics
Implant micromotion can be one of the causes of implant failure. One of the factors affecting micromotion is the implant macrodesign, which includes the implants thread cross sectional design. The aim of this study was to evaluate the effect of the implants thread cross sectional design on the micromotion of the implants in different bone qualities. In this finite element analysis study, four implant models exhibiting four different thread designs (buttress, reverse buttress, v-shaped and square) were created using Solidworks software. Each model was assembled with a superstructure in four models of four different bone qualities resulting in 16 groups. Each group was examined for micromotion under 100N force using ANSYS software. The results revealed that when comparing micromotion in different bone qualities, the lowest micromotion values were observed with D1 bone and the highest values were observed with D4 bone regardless the thread design. When comparing different thread designs, in D1 and D2 bone, the lowest micromotion was observed with v-shaped thread, which was lower than the square thread and the buttress thread was lower than the reverse buttress thread. While in D3 and D4 bone, the lowest micromotion was observed with the square thread, which was lower than the v-shaped and the reverse buttress thread was lower than the buttress thread
Finite element analysis Micromotion Thread design