AI Article Synopsis
- Two cases are discussed where titanium implants successfully integrated with calcified bone and dental tissue, along with a review of relevant literature on this topic.
- One case involved a titanium implant extracted from a human patient which showed both dental and bone tissue integration, while another case in an animal model demonstrated simultaneous osseointegration and new dental tissue formation.
- The literature suggests that dental implants can be inserted into areas with impacted teeth as a less invasive treatment, leading to successful integration without needing to extract the teeth, but challenges remain in maintaining the periodontal tissue long-term and ensuring proper functional properties.
Article Abstract
Two cases of calcified bone and dental tissue integration with titanium implants are presented, along with a review of the literature on their experimental and clinical implications. First, histological analyses of a titanium implant extracted from a patient with iimplant disease revealed the integration of both dental and bone tissue on the implant's surface. Secondly, a biocompatibility study in an animal model documented two implants in contact with tooth roots. Samples from both animal and human models demonstrated simultaneous osseointegration and dental tissue neoformation, with the latter attributed to the activity of cementoblasts. The literature review confirms the formation of cementum around dental implants in contact with teeth. Certain clinical reports have proposed the insertion of implants into bone sites containing impacted teeth as a conservative treatment alternative, avoiding the need for tooth extraction surgery and demonstrating the successful integration of teeth, bone, and dental implants. Furthermore, the documented natural formation of periodontal tissues around dental implants provided a foundation for tissue engineering studies aimed at realizing implant-bone relationships similar to those of natural bone-tooth structures. The primary challenges remain the long-term preservation of periodontal-like tissue formed on implants and the imparting of functional proprioceptive properties.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11595842 | PMC |
| http://dx.doi.org/10.3390/ma17225555 | DOI Listing |
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