Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant
Metallic dental implants have been extensively used in clinical practice due to their superior mechanical properties, biocompatibility, and aesthetic outcomes. However, their integration with the surrounding soft tissue at the mucosal region remains challenging and can cause implant failure due to t...
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my.uniten.dspace-370862025-03-03T15:47:20Z Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant Safaei M. Mohammadi H. Beddu S. Mozaffari H.R. Rezaei R. Sharifi R. Moradpoor H. Fallahnia N. Ebadi M. Jamil M.S.M. Zain A.R.M. Yusop M.R. 36612136800 55573732500 55812080500 56789924600 56958027100 56374298500 56605064600 57752551100 57204197808 14037490700 56109090300 57217851414 Animals Anti-Bacterial Agents Biofilms Dental Implants Humans Metal Nanoparticles Surface Properties Titanium antiinfective agent metal nanoparticle silver titanium antiinfective agent titanium antibacterial activity antifungal activity bacterial membrane biocompatibility biofilm bone development bullock clinical practice collagen fiber connective tissue cytotoxicity encapsulation human immune response immunomodulation immunotherapy in vitro study in vivo study macrophage microenvironment nonhuman osteoporosis pharmaceutics pharmacology phenotype product development review saliva soft tissue stretching tissue reaction tooth implant topography animal biofilm chemistry drug effect surface property Metallic dental implants have been extensively used in clinical practice due to their superior mechanical properties, biocompatibility, and aesthetic outcomes. However, their integration with the surrounding soft tissue at the mucosal region remains challenging and can cause implant failure due to the peri-implant immune microenvironment. The soft tissue integration of dental implants can be ameliorated through different surface modifications. This review discussed and summarized the current knowledge of topography-mediated immune response and topography-mediated antibacterial activity in Ti dental implants which enhance soft tissue integration and their clinical performance. For example, nanopillar-like topographies such as spinules, and spikes showed effective antibacterial activity in human salivary biofilm which was due to the lethal stretching of bacterial membrane between the nanopillars. The key findings of this review were (I) cross-talk between surface nanotopography and soft tissue integration in which the surface nanotopography can guide the perpendicular orientation of collagen fibers into connective tissue which leads to the stability of soft tissue, (II) nanotubular array could shift the macrophage phenotype from pro-inflammatory (M1) to anti-inflammatory (M2) and manipulate the balance of osteogenesis/osteoclasia, and (III) surface nanotopography can provide specific sites for the loading of antibacterial agents and metallic nanoparticles of clinical interest functionalizing the implant surface. Silver-containing nanotubular topography significantly decreased the formation of fibrous encapsulation in per-implant soft tissue and showed synergistic antifungal and antibacterial properties. Although the Ti implants with surface nanotopography have shown promising in targeting soft tissue healing in vitro and in vivo through their immunomodulatory and antibacterial properties, however, long-term in vivo studies need to be conducted particularly in osteoporotic, and diabetic patients to ensure their desired performance with immunomodulatory and antibacterial properties. The optimization of product development is another challenging issue for its clinical translation, as the dental implant with surface nanotopography must endure implantation and operation inside the dental microenvironment. Finally, the sustainable release of metallic nanoparticles could be challenging to reduce cytotoxicity while augmenting the therapeutic effects. ? 2024 Safaei et al. Final 2025-03-03T07:47:20Z 2025-03-03T07:47:20Z 2024 Review 10.2147/IJN.S461549 2-s2.0-85195016362 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85195016362&doi=10.2147%2fIJN.S461549&partnerID=40&md5=17fb466f7b9bbd3ea0641081e162462d https://irepository.uniten.edu.my/handle/123456789/37086 19 4835 4856 All Open Access; Gold Open Access; Green Open Access Dove Medical Press Ltd Scopus |
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Animals Anti-Bacterial Agents Biofilms Dental Implants Humans Metal Nanoparticles Surface Properties Titanium antiinfective agent metal nanoparticle silver titanium antiinfective agent titanium antibacterial activity antifungal activity bacterial membrane biocompatibility biofilm bone development bullock clinical practice collagen fiber connective tissue cytotoxicity encapsulation human immune response immunomodulation immunotherapy in vitro study in vivo study macrophage microenvironment nonhuman osteoporosis pharmaceutics pharmacology phenotype product development review saliva soft tissue stretching tissue reaction tooth implant topography animal biofilm chemistry drug effect surface property |
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Animals Anti-Bacterial Agents Biofilms Dental Implants Humans Metal Nanoparticles Surface Properties Titanium antiinfective agent metal nanoparticle silver titanium antiinfective agent titanium antibacterial activity antifungal activity bacterial membrane biocompatibility biofilm bone development bullock clinical practice collagen fiber connective tissue cytotoxicity encapsulation human immune response immunomodulation immunotherapy in vitro study in vivo study macrophage microenvironment nonhuman osteoporosis pharmaceutics pharmacology phenotype product development review saliva soft tissue stretching tissue reaction tooth implant topography animal biofilm chemistry drug effect surface property Safaei M. Mohammadi H. Beddu S. Mozaffari H.R. Rezaei R. Sharifi R. Moradpoor H. Fallahnia N. Ebadi M. Jamil M.S.M. Zain A.R.M. Yusop M.R. Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant |
| description |
Metallic dental implants have been extensively used in clinical practice due to their superior mechanical properties, biocompatibility, and aesthetic outcomes. However, their integration with the surrounding soft tissue at the mucosal region remains challenging and can cause implant failure due to the peri-implant immune microenvironment. The soft tissue integration of dental implants can be ameliorated through different surface modifications. This review discussed and summarized the current knowledge of topography-mediated immune response and topography-mediated antibacterial activity in Ti dental implants which enhance soft tissue integration and their clinical performance. For example, nanopillar-like topographies such as spinules, and spikes showed effective antibacterial activity in human salivary biofilm which was due to the lethal stretching of bacterial membrane between the nanopillars. The key findings of this review were (I) cross-talk between surface nanotopography and soft tissue integration in which the surface nanotopography can guide the perpendicular orientation of collagen fibers into connective tissue which leads to the stability of soft tissue, (II) nanotubular array could shift the macrophage phenotype from pro-inflammatory (M1) to anti-inflammatory (M2) and manipulate the balance of osteogenesis/osteoclasia, and (III) surface nanotopography can provide specific sites for the loading of antibacterial agents and metallic nanoparticles of clinical interest functionalizing the implant surface. Silver-containing nanotubular topography significantly decreased the formation of fibrous encapsulation in per-implant soft tissue and showed synergistic antifungal and antibacterial properties. Although the Ti implants with surface nanotopography have shown promising in targeting soft tissue healing in vitro and in vivo through their immunomodulatory and antibacterial properties, however, long-term in vivo studies need to be conducted particularly in osteoporotic, and diabetic patients to ensure their desired performance with immunomodulatory and antibacterial properties. The optimization of product development is another challenging issue for its clinical translation, as the dental implant with surface nanotopography must endure implantation and operation inside the dental microenvironment. Finally, the sustainable release of metallic nanoparticles could be challenging to reduce cytotoxicity while augmenting the therapeutic effects. ? 2024 Safaei et al. |
| author2 |
36612136800 |
| author_facet |
36612136800 Safaei M. Mohammadi H. Beddu S. Mozaffari H.R. Rezaei R. Sharifi R. Moradpoor H. Fallahnia N. Ebadi M. Jamil M.S.M. Zain A.R.M. Yusop M.R. |
| format |
Review |
| author |
Safaei M. Mohammadi H. Beddu S. Mozaffari H.R. Rezaei R. Sharifi R. Moradpoor H. Fallahnia N. Ebadi M. Jamil M.S.M. Zain A.R.M. Yusop M.R. |
| author_sort |
Safaei M. |
| title |
Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant |
| title_short |
Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant |
| title_full |
Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant |
| title_fullStr |
Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant |
| title_full_unstemmed |
Surface Topography Steer Soft Tissue Response and Antibacterial Function at the Transmucosal Region of Titanium Implant |
| title_sort |
surface topography steer soft tissue response and antibacterial function at the transmucosal region of titanium implant |
| publisher |
Dove Medical Press Ltd |
| publishDate |
2025 |
| _version_ |
1826077536219561984 |
| score |
13.244413 |