Biomaterials science and surface engineering strategies for dental peri-implantitis management

Yu, Ya-Meng; Lu, Yu-Pu; Zhang, Ting; Zheng, Yu-Feng; Liu, Yun-Song; Xia, Dan-Dan

doi:10.1186/s40779-024-00532-9

Cited by 3 publications

(2 citation statements)

References 341 publications

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“…As a result, the primary preventive strategy of peri-implantitis is surface modification which could inhibit biofilm formation. Yu et al [ 99 ] summarized these modifications, such as introducing functional coatings or antibacterial surface topography. Nevertheless, these strategies with positive outcomes are rarely transformed into clinical application [ 99 ].…”

Section: Current Modifications Of Bone Repair Materialsmentioning

confidence: 99%

“…Yu et al [ 99 ] summarized these modifications, such as introducing functional coatings or antibacterial surface topography. Nevertheless, these strategies with positive outcomes are rarely transformed into clinical application [ 99 ]. One of the reasons is that, the actual microbial composition and organization of periodontal flora are much more complicated than that of in vitro sterile environment or in vivo experimental animals lived in SPF barrier environment.…”

Section: Current Modifications Of Bone Repair Materialsmentioning

confidence: 99%

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Advances in biomaterials for oral-maxillofacial bone regeneration: spotlight on periodontal and alveolar bone strategies

Li,

Wang,

Feng

et al. 2024

Regenerative Biomaterials

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The intricate nature of oral-maxillofacial structure and function, coupled with the dynamic oral bacterial environment, presents formidable obstacles in addressing the repair and regeneration of oral-maxillofacial bone defects. Numerous characteristics should be noticed in oral-maxillofacial bone repair, such as irregular morphology of bone defects, homeostasis between hosts and microorganisms in the oral cavity, and complex periodontal structures that facilitate epithelial ingrowth. Therefore, oral-maxillofacial bone repair necessitates restoration materials that adhere to stringent and specific demands. This review starts with exploring these particular requirements by introducing the particular characteristics of oral-maxillofacial bones, and then summarizes the classifications of current bone repair materials in respect of composition and structure. Additionally, we discuss the modifications in current bone repair materials including improving mechanical properties, optimizing surface topography and pore structure, and adding bioactive components such as elements, compounds, cells, and their derivatives. Ultimately, we organize a range of potential optimization strategies and future perspectives for enhancing oral-maxillofacial bone repair materials, including physical environment manipulation, oral microbial homeostasis modulation, osteo-immune regulation, smart stimuli-responsive strategies and multifaceted approach for poly-pathic treatment, in the hope of providing some insights for researchers in this field. In summary, this review analyzes the complex demands of oral-maxillofacial bone repair, especially for periodontal and alveolar bone, concludes multifaceted strategies for corresponding biomaterials, and aims to inspire future research in the pursuit of more effective treatment outcomes.

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Section: Current Modifications Of Bone Repair Materialsmentioning

confidence: 99%

Section: Current Modifications Of Bone Repair Materialsmentioning

confidence: 99%