Review Article
The Role of Zirconia Implants in Implantology: Potential Benefits and Challenges
Andres Felipe Aguirre-Osorio*
Issue:
Volume 11, Issue 1, June 2025
Pages:
1-9
Received:
19 December 2024
Accepted:
3 January 2025
Published:
11 February 2025
Abstract: Background: The search for an alternative to titanium dental implants has been ongoing for over 50 years. While titanium implants have significantly improved patients' quality of life, concerns about titanium sensitivity and corrosion have prompted interest in ceramic implants. Zirconia, in particular, offers biocompatibility and aesthetic benefits, especially for patients with thin gingival biotypes or those prone to gingival recession. Objective: This review aims to summarize the current knowledge on the use of zirconia ceramics in dental implant prosthodontics and assess its potential to replace titanium while maintaining high success rates. Methods: A review of the literature was conducted, focusing on zirconia implants, including one-piece and two-piece designs, covering mechanical properties, osseointegration, clinical outcomes, and challenges. Results: Zirconia implants show promising advantages, such as reduced sensitivity, minimal ion release, and improved aesthetics, particularly in patients concerned with the cosmetic outcomes of titanium implants. However, challenges remain, including mechanical fragility, surface treatment needs, and the risk of early failure. Despite these challenges, advancements in zirconia implant design and surface modifications have led to improved clinical outcomes, though zirconia implants have not yet reached the routine use of titanium implants. Conclusions: Zirconia implants present potential as a non-metallic alternative to titanium. However, their clinical use is still evolving, and further research and development are needed to ensure their long-term success and mechanical performance.
Abstract: Background: The search for an alternative to titanium dental implants has been ongoing for over 50 years. While titanium implants have significantly improved patients' quality of life, concerns about titanium sensitivity and corrosion have prompted interest in ceramic implants. Zirconia, in particular, offers biocompatibility and aesthetic benefits...
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Research Article
Antibacterial Activity of Aloe schweinfurthii Gel in the Preservation of Periodontal Ligament Cells of an Erupted Immature Permanent Tooth
Mengong Moneboulou Hortense Perpetue*,
Ndjoh Jules Julien,
Ekono Effa Francky,
Nnanga Nga Emmanuel,
Bengondo Messanga Charles,
Aka Louka Kattie
Issue:
Volume 11, Issue 1, June 2025
Pages:
10-19
Received:
16 January 2025
Accepted:
3 February 2025
Published:
6 March 2025
DOI:
10.11648/j.ijdm.20251101.12
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Abstract: Effective management of an expelled tooth requires its rapid transport to the dental office, in a liquid adapted to cell survival. For this, some preservation media have been evaluated in tropical areas with regenerative and antibacterial properties. These inaccessible and/or non-regenerative media have pushed our research towards alternative media including Aloe schunfurthii. Our general objective was to evaluate the antibacterial activity of Aloe schweinfurthii gel on the survival of periodontal ligament cells of an expelled immature permanent tooth. To achieve this objective, we conducted an experimental study. It was carried out at the Yaoundé University Hospital on extracted immature permanent premolars that were preserved in Aloe schweinfurthii gel at different dilutions and pH. Cell vitality was read using optical microscopy after aqueous eosin staining at three-hour intervals. The antibacterial activity was determined from bacterial samples of the periodontal ligaments of the premolars according to three successive steps ranging from the culture of the bacterial strains to the determination of the diameters and the inhibition parameters. The Chi 2 test was used to compare the vitality of the different media. The methodology used allowed us to obtain results which showed that the Aloe schweinfurthii gel had a CMB/MIC ratio lower than 4, revealing a bactericidal activity on all the bacteria tested. The results obtained allowed us to conclude that the Aloe schweinfurthii gel is bactericidal in the conservation of the cells of the periodontal ligaments of an expelled immature permanent tooth.
Abstract: Effective management of an expelled tooth requires its rapid transport to the dental office, in a liquid adapted to cell survival. For this, some preservation media have been evaluated in tropical areas with regenerative and antibacterial properties. These inaccessible and/or non-regenerative media have pushed our research towards alternative media...
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