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| Author | : John Samuel Lawrence Colombo |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2010 |
| Genre | : Dental implants |
| ISBN | : |
| Author | : Junyuan Li |
| Publisher | : Open Dissertation Press |
| Total Pages | : |
| Release | : 2017-01-27 |
| Genre | : |
| ISBN | : 9781361385210 |
This dissertation, "Effects of Surface-modified Titanium Implants on Osseointegration in Irradiated Bone" by Junyuan, Li, 黎俊媛, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Radiotherapy is a common treatment for head and neck cancers. However, it compromises bone healing. Titanium implanthas been shown to be a predictable method for replacing missing teeth. Clinical studies revealed that implant failure rate in irradiated regionwas high. Many studies showed that modifications of implant surface could enhance implant osseointegration by improving cell attachment, cell growth and bone formation. Nevertheless, there were few studies investigating the effect of implant surface modification on osseointegration in irradiated bone. In the first experiment, the effect of fluoride-modified (FM) titanium surface on irradiated osteoblast attachment was assessed. The morphology and chemical composition of FM surface was assessed by SEM, AFM and XPS. Osteoblasts received 0Gy, 2Gy, 4Gy, 6Gy, 8Gy, 10Gy radiation. Cell number, fluorescence intensity and cell area of irradiated osteoblasts were assessed. The number of osteoblasts onFM surface was fewer than those on NF surface after 0Gy, 2Gy, 8Gy and 10Gy radiation. Cell area of osteoblasts on FM surface was less at 2Gy radiation but larger at 6Gy radiation than on NF surface. The fluorescence intensity of osteoblasts was also higher on NF surface than on FM surface after receiving 0Gy, 2Gy, 4Gy, 10Gy radiation. In the second experiment, an animal model was established to study the effect of radiation on osseointegration. Rabbits were divided into 15Gy and 30Gy radiation groups. Only the left leg was exposed to radiation, and the right leg was protected from radiation. Totally, 24 implants were inserted. Implant stability quotient (ISQ), bone volume to total volume (BV/TV), bone-to-implant contact (BIC), and bone growth rate were measured. After 15Gy and 30Gy of radiation, ISQ and BV/TV were significantly reduced. At week 3, 15Gy radiation group displayed slower bone growth rate comparing with the control side. Fluorochrome results showed that the 30Gy radiation side had a significantly slower apposition of new bone.In addition, BIC on30Gy radiation side was notablypoorer than that on 15Gy radiation side and on 30Gy control side. Based on the animal model, the third experiment investigated effects of calcium phosphate nanocrystals on implant osseointegration in irradiated bone. Titanium implants treated with nano-scale calcium phosphate (CaP) crystals served as the test group while ones with dual acid-etching only served as the control group. The left leg of rabbits received 15Gy radiation and implants were placed in the irradiated leg. Significant higher ISQ was detected in the nano-CaP group at week 12. The bone growth rate in nano-CaP group was more than doubled than the control group at both week 6 and week 9. The fourth experiment evaluated artifacts on micro-CT images caused by titanium dental implant. Implants were assigned into four groups: (1) implant only; (2) implant with covering screw; (3) implant with resin embedding; and (4) implant with covering screw and resin embedding. Each implant was scanned by micro-CT at 3 angulations. Implant angulation was the most determining factor followed by resin embedding. Minimal metallic artifacts were obtainedin non-embedded implants with its axis paralleling to X-ray. DOI: 10.5353/th_b5312315 Subjects: Osseointegration Dental implants
| Author | : Karan Gulati |
| Publisher | : Springer Nature |
| Total Pages | : 259 |
| Release | : 2023-02-27 |
| Genre | : Technology & Engineering |
| ISBN | : 3031215656 |
This book provides a comprehensive technical and scientific overview of the surface modification of titanium dental implants. Coverage ranges from basic concepts of surface modification to advanced micro- and nano-engineering strategies employed to achieve augmented bioactivity to meet the needs of compromised patient conditions. A special focus of the book is advanced state-of-the-art electrochemically anodized nanostructures fabricated on implants towards enhanced bioactivity and local therapy. Surface Modification of Titanium Dental Implants will keep you current in the domain of titanium dental implants and will provide an improved understanding of their performance and application. The book will benefit engineers, clinicians, and researchers in biomaterials, biomedical engineering, dental and bone implants, nano-engineering, and technology.
| Author | : Adriano Piattelli |
| Publisher | : Woodhead Publishing |
| Total Pages | : 286 |
| Release | : 2016-10-27 |
| Genre | : Technology & Engineering |
| ISBN | : 0081002882 |
Bone Response to Dental Implant Materials examines the oral environment and the challenges associated with dental biomaterials. Understanding different in vivo and in vitro responses is essential for engineers to successfully design and tailor implant materials which will withstand the different challenges of this unique environment. This comprehensive book reviews the fundamentals of bone responses in a variety of implant materials and presents strategies to tailor and control them. Presents a specific focus on the development and use of biomaterials in the oral environment Discusses the basic science of the dental interface and its clinical applications Contains important coverage on the monitoring and analysis of the dental implant interface
| Author | : Ranj Salaie |
| Publisher | : |
| Total Pages | : |
| Release | : 2018 |
| Genre | : |
| ISBN | : |
| Author | : Per-Ingvar Brånemark |
| Publisher | : Quintessence Publishing (IL) |
| Total Pages | : 360 |
| Release | : 1985 |
| Genre | : Medical |
| ISBN | : |
" This book provides the prosthodontist and oral surgeon for the first time with a safe, predictable, and scientifically proven method for permanently anchoring artificial tooth abutments in the jawbones. It combines the osseointegration research results of biologists, physicists, bioengineers, oral surgeons, and prosthodontists to demonstrate step-by-step how to achieve long-term osseointegration of dental implants" -- Amazon.
| Author | : 黎俊媛 |
| Publisher | : |
| Total Pages | : 316 |
| Release | : 2013 |
| Genre | : Dental implants |
| ISBN | : |
| Author | : Lertrit Sarinnaphakorn |
| Publisher | : |
| Total Pages | : 586 |
| Release | : 2009 |
| Genre | : |
| ISBN | : |
| Author | : Mustafa Hayati Atala |
| Publisher | : |
| Total Pages | : |
| Release | : 2017 |
| Genre | : |
| ISBN | : |
Background: Osseointegration of dental implants can be considered as the main factor for successful implant stability. This healing process can be related with the surface of dental implants because the surface properties of dental implants affect bone apposition and cell responses. Dental implants have hybrid nature consisting of: implant body which is intrabony part, implant neck which contact with soft tissue and the last part interact with oral environment. So, dental implants have several interfaces and there is a challenge between bacterial colonization and cell functional integration of the dental implant surfaces. Various surface modifying methods such as blasting,etching, anodizing or coating with biomaterials are introduced. Surface modifications of dental implants is one of the most widely researched fields of implant dentistry. These surface modifications improve the adsorbtion of protein, cells and so result in faster osseointegration. However, no reports have demonstrated the superiority of one surface treatment over the other. Aim/Hypothesis: The purpose of this systematic review was to evaluate the clinical success of different implant surface properties and acquire actual results.Materials and Methods: An electronic search was conducted in MEDLINE (PubMed search form). The study is based on the Cochrane Review Methods. The main question is u2018Which implant surface modification technique is best in terms of clinical outcomes?u2019 In last decades (from January 2008 to December 2018), published clinical studies on implants with different surface properties were independently evaluated two reviewers (K.D. and M.H.A.) based on the inclusion criteria. In vitro studies, animal studies, retrospective studies, non-comparative studies and case reports were excluded. (1) Comparative clinical studies of different implant surfaces reporting one year or longer follow-up period, (2) more than ten patients including studies and (3) articles to consider mean marginal bone loss result were included.Results: A total of 2604 articles were evaluated from database. 110 articles is repeated, 2357 articles are animal studies and cell studies, 137 articles not relevant outcomes, 21 clinical studies were evaluated. 3 studies excluded because follow-up smaller than 1 year. Remaining 18 studies met the inclusion criteria and included to the review (Table 1). The modification methods were classified as physically, chemically or biochemically treated. Generally implant failure was related with smoking habit. Because of the low number of studies assesing each surface modification for failure, annual failure rates were not measured by surface modification technique. u0130mplant success were favorable for all modification techniques, but chemically and biochemically modification procedures can improve osseointegration at initial stage.Conclusions and Clinical u0130mplications: Within the limitation of this systematic review, it can be concluded that biochemical and chemical techniques can accelerate osseointegration process and may be prefered for early loading planning. However, the studies have different methods and it is difficult to figure out scientifically that superiority of one surface modification technique over another. Further comparative and long term clinical studies are required to identify exact results about the surface modification techniques.
| Author | : Abdulqadir Rampurawala |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2019 |
| Genre | : Electronic books |
| ISBN | : |
Orthodontic miniscrews have had a considerable impact on modern orthodontic treatment, not only by providing a new source of anchors for anchorage-demanding cases, but also for force management and control. Whilst miniscrews need to be mechanically stable during treatment to provide sufficient anchorage and predictable force control, as temporary anchorage devices they need also be easy to remove after orthodontic treatment. These requirements differentiate orthodontic miniscrews from dental implants - which once placed, are not to be removed - and dictate the approach as to how their clinical performance can be optimized. Over the past decade, various titanium surface modifications and improvements in implant surface topography have shown to enhance osseointegration of endosseous dental implants. Some of these techniques have helped provide a similar enhancement of the biomechanical potential of orthodontic miniscrews as well. In this perspective, we present a brief discussion on all such reported techniques followed by a detailed account of the most recently proposed ultraviolet photofunctionalization technique - a novel chair-side surface modification method.
