Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis

Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis

Aim: This study aimed to analyze the primary stability of dental implant in maxillary and mandibular anterior and posterior regions using a finite element analysis. Materials and methods: CBCT images of maxillary and mandibular regions were collected from patients’ radiographic data and transformed...

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Main Authors: Razan Alaqeely, Nadir Babay, Montaser AlQutub
Format: Article
Language:English
Published: Elsevier 2020-02-01
Series:Saudi Dental Journal
Online Access:http://www.sciencedirect.com/science/article/pii/S1013905219302950
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spelling doaj-ee441161e4e94b2f97a04125ea001ff62020-11-25T02:06:19ZengElsevierSaudi Dental Journal1013-90522020-02-01322101107Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysisRazan Alaqeely0Nadir Babay1Montaser AlQutub2Corresponding author at: Department of Periodontics and Community Dentistry, King Saud University, P.O. Box 11545, Riyadh, Saudi Arabia.; Department of Periodontics and Community Dentistry, King Saud University, Riyadh, Saudi ArabiaDepartment of Periodontics and Community Dentistry, King Saud University, Riyadh, Saudi ArabiaDepartment of Periodontics and Community Dentistry, King Saud University, Riyadh, Saudi ArabiaAim: This study aimed to analyze the primary stability of dental implant in maxillary and mandibular anterior and posterior regions using a finite element analysis. Materials and methods: CBCT images of maxillary and mandibular regions were collected from patients’ radiographic data and transformed to 3D models. A Straumann Dental implant was inserted in each bone model and then pulled-out, where amount von-Mises stress was obtained and analyzed for each. A comparison between the insertion and the pull-out was evaluated. Results: Twenty-four images were randomly selected for analysis from 122 scans. In both the insertion and the pull-out of the dental implant, von-Mises stress was high in cortical as compared to the cancellous bone (p < 0.0001). Maxillary posterior region had a low von-Mises stress (p < 0.001). Bone plastic deformation was higher in cancellous than the cortical bone in all bone regions and was the lowest in maxillary posterior region (p < 0.001). Bone displacement decreased from Type I to type IV bone. Conclusion: Evaluation of von-Mises stress showed different measurements in maxillary and mandibular regions. Bone deformation was low in the maxillary posterior region.http://www.sciencedirect.com/science/article/pii/S1013905219302950
collection DOAJ
language English
format Article
sources DOAJ
author Razan Alaqeely
Nadir Babay
Montaser AlQutub
spellingShingle Razan Alaqeely
Nadir Babay
Montaser AlQutub
Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis
Saudi Dental Journal
author_facet Razan Alaqeely
Nadir Babay
Montaser AlQutub
author_sort Razan Alaqeely
title Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis
title_short Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis
title_full Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis
title_fullStr Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis
title_full_unstemmed Dental implant primary stability in different regions of the Jawbone: CBCT-based 3D finite element analysis
title_sort dental implant primary stability in different regions of the jawbone: cbct-based 3d finite element analysis
publisher Elsevier
series Saudi Dental Journal
issn 1013-9052
publishDate 2020-02-01
description Aim: This study aimed to analyze the primary stability of dental implant in maxillary and mandibular anterior and posterior regions using a finite element analysis. Materials and methods: CBCT images of maxillary and mandibular regions were collected from patients’ radiographic data and transformed to 3D models. A Straumann Dental implant was inserted in each bone model and then pulled-out, where amount von-Mises stress was obtained and analyzed for each. A comparison between the insertion and the pull-out was evaluated. Results: Twenty-four images were randomly selected for analysis from 122 scans. In both the insertion and the pull-out of the dental implant, von-Mises stress was high in cortical as compared to the cancellous bone (p < 0.0001). Maxillary posterior region had a low von-Mises stress (p < 0.001). Bone plastic deformation was higher in cancellous than the cortical bone in all bone regions and was the lowest in maxillary posterior region (p < 0.001). Bone displacement decreased from Type I to type IV bone. Conclusion: Evaluation of von-Mises stress showed different measurements in maxillary and mandibular regions. Bone deformation was low in the maxillary posterior region.
url http://www.sciencedirect.com/science/article/pii/S1013905219302950
work_keys_str_mv AT razanalaqeely dentalimplantprimarystabilityindifferentregionsofthejawbonecbctbased3dfiniteelementanalysis
AT nadirbabay dentalimplantprimarystabilityindifferentregionsofthejawbonecbctbased3dfiniteelementanalysis
AT montaseralqutub dentalimplantprimarystabilityindifferentregionsofthejawbonecbctbased3dfiniteelementanalysis
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