INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONS
Peri‐implantitis is an inflammatory disease of hard and soft tissues around osseointegrated implants, followed by a progressive damage of alveolar bone. Oral microorganisms can adhere to all types of surfaces by the production of multiple adhesive factors. Inherent properties of materials will influ...
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| Format: | Article |
| Language: | English |
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Romanian Dental Association for Education
2024-06-01
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| Series: | Romanian Journal of Medical and Dental Education |
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| Online Access: | https://journal.adre.ro/innovation-in-biocompatible-materials-for-dental-implants-current-perspective-and-situations/ |
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| author | Asaftei Victoria Ciornei Mădălina Țabără Eduard Lucian Agop-Forna Doriana Maxim Alexandra Norina Forna |
| author_facet | Asaftei Victoria Ciornei Mădălina Țabără Eduard Lucian Agop-Forna Doriana Maxim Alexandra Norina Forna |
| author_sort | Asaftei Victoria |
| collection | DOAJ |
| description | Peri‐implantitis is an inflammatory disease of hard and soft tissues around osseointegrated implants, followed by a progressive damage of alveolar bone. Oral microorganisms can adhere to all types of surfaces by the production of multiple adhesive factors. Inherent properties of materials will influence not only the number of microorganisms, but also their profile and adhesion force onto the material surface. In this perspective, strategies to reduce the adhesion of pathogenic microorganisms on dental implants and their components should be investigated in modern rehabilitation concepts in implant dentistry. To date, several metallic nanoparticle films have been developed to reduce the growth of pathogenic bacteria. However, the main drawback in these approaches is the potential toxicity and accumulative effect of the metals over time. In view of biological issues and in attempt to prevent and/or treat peri‐implantitis, biomaterials as carriers of antimicrobial substances have attracted special attention for application as coatings on dental implant devices. In this review we overview currently available biomaterial systems that can be used in the field of oral implantology.
The osseointegration rate of titanium dental implants is related to their composition and surface roughness. Rough-surfaced implants favor both bone anchoring and biomechanical stability. Osteoconductive calcium phosphate coatings promote bone healing and apposition, leading to the rapid biological fixation of implants. The different methods used for increasing surface roughness or applying osteoconductive coatings to titanium dental implants are reviewed. The future of dental implantology should aim to develop surfaces with controlled and standardized topography or chemistry. This approach will be the only way to understand the interactions between proteins, cells and tissues, and implant surfaces. The local release of bone stimulating or resorptive drugs in the peri-implant region may also respond to difficult clinical situations with poor bone quality and quantity. These therapeutic strategies should ultimately enhance the osseointegration process of dental implants for their immediate loading and long-term success. |
| format | Article |
| id | doaj-art-c104a351f56e40699b3a26307b851a0f |
| institution | Kabale University |
| issn | 2393-1531 2393-1108 |
| language | English |
| publishDate | 2024-06-01 |
| publisher | Romanian Dental Association for Education |
| record_format | Article |
| series | Romanian Journal of Medical and Dental Education |
| spelling | doaj-art-c104a351f56e40699b3a26307b851a0f2025-01-08T07:40:56ZengRomanian Dental Association for EducationRomanian Journal of Medical and Dental Education2393-15312393-11082024-06-011331720INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONSAsaftei Victoria0Ciornei Mădălina1Țabără Eduard Lucian2Agop-Forna Doriana3Maxim Alexandra4Norina Forna5“Gr. T. Popa" U.M.Ph. - Iași, Romania, Faculty of Dentistry, Department of Implantology, Removable Dentures, Dentures Technology“Gr. T. Popa" U.M.Ph. - Iași, Romania, Faculty of Dentistry, Department of Implantology, Removable Dentures, Dentures Technology“Gr. T. Popa" U.M.Ph. - Iași, Romania, Faculty of Dentistry, Department of Implantology, Removable Dentures, Dentures Technology“Gr. T. Popa" U.M.Ph. - Iași, Romania, Faculty of Dentistry, Department of SurgeryDentist, private practice“Gr. T. Popa" U.M.Ph. - Iași, Romania, Faculty of Dentistry, Department of Implantology, Removable Dentures, Dentures TechnologyPeri‐implantitis is an inflammatory disease of hard and soft tissues around osseointegrated implants, followed by a progressive damage of alveolar bone. Oral microorganisms can adhere to all types of surfaces by the production of multiple adhesive factors. Inherent properties of materials will influence not only the number of microorganisms, but also their profile and adhesion force onto the material surface. In this perspective, strategies to reduce the adhesion of pathogenic microorganisms on dental implants and their components should be investigated in modern rehabilitation concepts in implant dentistry. To date, several metallic nanoparticle films have been developed to reduce the growth of pathogenic bacteria. However, the main drawback in these approaches is the potential toxicity and accumulative effect of the metals over time. In view of biological issues and in attempt to prevent and/or treat peri‐implantitis, biomaterials as carriers of antimicrobial substances have attracted special attention for application as coatings on dental implant devices. In this review we overview currently available biomaterial systems that can be used in the field of oral implantology. The osseointegration rate of titanium dental implants is related to their composition and surface roughness. Rough-surfaced implants favor both bone anchoring and biomechanical stability. Osteoconductive calcium phosphate coatings promote bone healing and apposition, leading to the rapid biological fixation of implants. The different methods used for increasing surface roughness or applying osteoconductive coatings to titanium dental implants are reviewed. The future of dental implantology should aim to develop surfaces with controlled and standardized topography or chemistry. This approach will be the only way to understand the interactions between proteins, cells and tissues, and implant surfaces. The local release of bone stimulating or resorptive drugs in the peri-implant region may also respond to difficult clinical situations with poor bone quality and quantity. These therapeutic strategies should ultimately enhance the osseointegration process of dental implants for their immediate loading and long-term success.https://journal.adre.ro/innovation-in-biocompatible-materials-for-dental-implants-current-perspective-and-situations/biomaterialsdental implants. |
| spellingShingle | Asaftei Victoria Ciornei Mădălina Țabără Eduard Lucian Agop-Forna Doriana Maxim Alexandra Norina Forna INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONS Romanian Journal of Medical and Dental Education biomaterials dental implants. |
| title | INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONS |
| title_full | INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONS |
| title_fullStr | INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONS |
| title_full_unstemmed | INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONS |
| title_short | INNOVATION IN BIOCOMPATIBLE MATERIALS FOR DENTAL IMPLANTS: CURRENT PERSPECTIVE AND SITUATIONS |
| title_sort | innovation in biocompatible materials for dental implants current perspective and situations |
| topic | biomaterials dental implants. |
| url | https://journal.adre.ro/innovation-in-biocompatible-materials-for-dental-implants-current-perspective-and-situations/ |
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