Dental Implant Macrogeometry and Biomaterials
Dental Implant Macrogeometry and Biomaterials

Author: José Luis Calvo Guirado

Publisher: MDPI

Published: 2020-12-02

Total Pages: 76

ISBN-13: 3039364537

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Dental implant treatments are widely used and can be an option for lost teeth. Most treatment alternatives are limited due to bone structure, bone density, and patient’s health condition. This book is focused on simple and complicated clinical cases, different types and designs of implants, and also the way to obtain bone-to-implant contact. We have also sought to assess different biomaterials, bone stimulators, and types of dental implants that can reduce the gap, protect the peri-implant bone, and increase the aesthetics. The relationship of bone formation and biomaterials with dental implants is the key factor in bringing back the full reconstruction of soft and hard tissues. Additionally, the type of materials used for implant development are extremely important, especially in relation to strength and bending forces. The contact and protection of bundle bone with both biomaterials and implants will provide highly predictable success in aesthetics and function.

Clinical Evaluation of Implant Stability with Resonance Frequency Analysis (RFA) in Two Types of Dental Implants
Clinical Evaluation of Implant Stability with Resonance Frequency Analysis (RFA) in Two Types of Dental Implants

Author: Alexandre Campos Alexandre

Publisher:

Published: 2017

Total Pages:

ISBN-13:

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BACKGROUND: Resonance frequency analysis (RFA) is a simple, practical, reproducible, clinically feasible and non-invasive method that allows to safely assess the degree of stiffness that the implant is within the bone structure. AIM: According to the applied methodology, the aim of this clinical study was to perform a research to evaluate the stability of two different types of implants, with resonance frequency analysis (RFA). METHODS AND MATERIALS: This clinical research was approved by the ethical committee (Plataforma Brasil) under the number CAEE 54726816.6.0000.5374. Patients were submitted to conventional dental implant surgery with installation of two implants, Straumannu2019s, Bone Level Tapered (BLT) 4x8mm and SINu2019s Unitite 4x8,5mm. Each patient received two implants, one from each brand, with their respective healing abutments. The stability of the implants (ISQ) was measured by the Osstell apparatus. A torque of 10Ncm was applied to the smartpegs. The stability of the implants was measured at the time of surgery, four, six and eight weeks post-surgery. At each stage, three measurements were taken and a mean (mean ISQ) was obtained for each implant. RESULTS: Each group (SINu00ae and Straumannu00ae) was treated, separately, with ANOVA and the differences found identified by Tukey-Kramer multiple comparisons test. The Straumann implants show no statically difference in the ISQ values for all measurements. The SIN group showed only a statistically lower ISQ value in the 4 week. The two groups were compared in all stages with a paired t-test. The ISQ values u200bu200bfor the Straumann groups were statistically higher in all stages (P

In Search of an Improved Methodology for Measuring Dental Implant Stability
In Search of an Improved Methodology for Measuring Dental Implant Stability

Author: Naseeba Khouja

Publisher:

Published: 2017

Total Pages: 281

ISBN-13:

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Despite the importance of the need for measuring dental implant stability, an effective, reliable methodology has eluded researchers, with current methods used to detect implant stability either in the early stages or incapable of providing a complete picture. This study sought to identify a parameter capable of measuring dental implant stability, to allow for the successful detection of failing implants. Through the combined use of experimental modal analysis (EMA) and finite element analysis (FEA), we examined the accuracy and reliability of three implant stability devices--the Osstell ISQ®, the Periotest®, and the Periometer--by calibrating them via both EMA and FEA, using models of dental implants of various lengths in Sawbones® of different densities. The theoretical mechanics used to operate the three devices were analyzed to understand their assumptions and limitations. To estimate angular stiffness, we employed implant models of various lengths and widths in Sawbones® of different densities. To gauge how effectively Sawbones® and porcine bones could represent human bones, different types of bone models (i.e., porcine bone, human mandibular bone, and Sawbones®) were compared using the Osstell ISQ® and the Periotest® devices, and EMA, in addition to measuring apparent bone density. Micro-computed tomography (micro-CT) was used to estimate bone mineral density (BMD) and morphometric parameters of both porcine and human bone samples. After demonstrating that the three above-mentioned devices were deficient both theoretically and experimentally, we developed an optimal model for implant stability testing through the combined use of EMA and FEA. Natural frequency, although a robust and consistent measurement, does not equate with dental implant stability. Porcine bone may overestimate implant stability measurements when applied to human bones. Sawbones® may provide reasonably good models but should be used with caution. Boundary conditions and experimental setup play an important role in the outcome of research and should be taken into consideration. The angular stiffness coefficient--which is independent of the type of abutment used--was found to represent a superior index for quantification of dental implant stability, successfully differentiating stability of implants of both varying lengths and diameters, while the other methods tested did not.

Dental Implant Stability Analysis by Using Resonance Frequency Method
Dental Implant Stability Analysis by Using Resonance Frequency Method

Author: Reza Harirforoush

Publisher:

Published: 2012

Total Pages: 0

ISBN-13:

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The use of dental implants in the rehabilitation of partially and completely edentulous patients has been significantly increased in recent years. Although high survival rates of implants supporting prosthesis have been reported, failure still happens due to bone loss as results of primary and secondary implant stability. Primary stability of an implant mostly comes from mechanical interaction with cortical bone while secondary stability happens through bone regeneration and remodelling at the implant/bone interface. Defining the implant stability remains a challenge in dentistry and several researches have been made in this field. To detect implant stability, various diagnosis analyses have been employed. Among them, resonance frequency analysis (RFA) is an objective method of monitoring implant/tissue integration. In this thesis, experimental and numerical studies are carried out to find the effect of some parameters affecting the stability of dental implant by using RFA. Modal analysis technique is employed to investigate the effect of coupled mode shapes in dental implant. Moreover, the primary stability of dental implant that indicates the process of bone-implant integration is investigated. Resonance frequency of jaw-implant structure is carried out using finite element modelling. Different implant-bone interface conditions are studied for this investigation. The effects of endosseous implant angulation on the resonance frequency of implant are studied. MIMICS, a three dimensional (3D) modelling software was used to construct a 3D model of a pig mandible from computed tomography (CT) images. The resonance frequency of the implant was analyzed using finite element (FE) modal analysis in a simulated environment. The MIMICS is also used to investigate effect of soft tissue surrounding the implant on the RF of implant. In addition, three different pig mandibles were employed to assess the effect of some parameters affecting resonance frequency of implant. Finally, experimental studies are carried out to investigate the effect of soft tissue on RF of implant. A novel device is also designed for stability analysis of dental implants.

Measuring Bone Density at Distances Lateral to the Bone-implant Interface with Various Stages of Loading
Measuring Bone Density at Distances Lateral to the Bone-implant Interface with Various Stages of Loading

Author: Lara L. Tull

Publisher:

Published: 2003

Total Pages:

ISBN-13:

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ABSTRACT: The quality of bone or bone density adjacent to a dental implant is an important consideration when evaluating the success of dental implants. The purpose of this study was to measure histomorphometrically, the percent of bone along the perimeter of dental implants at distances of 0.5mm and 1.0 mm from the bone-implant interface as comparedto the implant-bone interface; and to determine if there were differences between percentage of bone between early loaded versus unloaded implants with time. The research protocol was reviewed and approved by the Institutional Animal Care and Use Committee of the University of Oklahoma Health Sciences Center. There were a total of 120 dental implants placed in ten female baboons of poor quality bone. The experimental sites received Osseotite surface implants with size of 3.75mm diameter x 10 mm in length.

Implant Dentistry Research Guide
Implant Dentistry Research Guide

Author: Ahmed Ballo

Publisher: Nova Science Publishers

Published: 2014-05-14

Total Pages: 591

ISBN-13: 9781619425033

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This book introduces early career students and researchers to a complete update on various aspects of major methods and techniques used in the field of implant dentistry and guided-bone-regeneration research. This unique book guides the reader through each aspect in great detail, from basic research approaches such as surface-characterization techniques, in vitro experiments, and ethics and regulations for the use of laboratory animals to the application of different animal models in implant dentistry and bone-regeneration research, imaging techniques, computer finite element models, biomechanical methods, analytical methods for the bone–implant interface, and finally to conducting clinical research.

Assessment of Non-Invasive Methods of Measuring Bone Repair in Naval Casualty Victims
Assessment of Non-Invasive Methods of Measuring Bone Repair in Naval Casualty Victims

Author: Robert W. Bright

Publisher:

Published: 1980

Total Pages: 6

ISBN-13:

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The major objective of this report was to compare non-invasive quantitative methods of assessing bone and bone graft incorporation and strength with established invasive methods for assessment. Our ultimate goal was to develop a clinically applicable method for evaluating the quality of bone by valid and reliable, non-invasive methods which would correlate with the structural properties of those bones in vivo.