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- Title
Tissue engineering innovations to enhance osseointegration in immediate dental implant loading: A narrative review.
- Authors
Saleh Hasani Jebelli, Mohammad; Yari, Amir; Nikparto, Nariman; Cheperli, Sahar; Asadi, Amirali; Darehdor, Amirmohammad Arabi; Nezaminia, Sayna; Dortaj, Dorara; Hasani Mehraban, Saeed; Hakim, Lotfollah Kamali
- Abstract
The demand for efficient and accelerated osseointegration in dental implantology has led to the exploration of innovative tissue engineering strategies. Immediate implant loading reduces treatment duration and necessitates robust osseointegration to ensure long‐term implant success. This review article discusses the current studies of tissue engineering innovations for enhancing osseointegration in immediate dental implant loading in the recent decade. Keywords "tissue engineering," "osseointegration," "immediate implant loading," and related terms were systematically searched. The review highlights the potential of bioactive materials and growth factor delivery systems in promoting osteogenic activity and accelerating bone regeneration. The in vivo experiment demonstrates significantly improved osseointegration in the experimental group compared to traditional immediate loading techniques, as evidenced by histological analyses and biomechanical assessments. It is possible to revolutionize the treatment outcomes and patient satisfaction in dental implants by integrating bioactive materials and growth factors. Significant statement: In dental implantology, breakthrough tissue engineering approaches are being explored to achieve efficient and rapid osseointegration. Throughout the past decade, several studies have attempted to enhance osseointegration in direct‐loading dental implants. For successful osseointegration of implants, immediate loading aims to reduce treatment duration. These findings highlight the potential of bioactive materials and growth factor delivery systems for stimulating osteogenic activity and accelerating bone regeneration. Based on histological analyses and biomechanical assessments, in vivo studies show significantly improved osseointegration than traditional immediate loading techniques.
- Subjects
DENTAL implants; TISSUE engineering; OSSEOINTEGRATION; BONE regeneration; GROWTH factors
- Publication
Cell Biochemistry & Function, 2024, Vol 42, Issue 2, p1
- ISSN
0263-6484
- Publication type
Article
- DOI
10.1002/cbf.3974