• Title of article

    Antibacterial agent-releasing scaffolds in dental tissue engineering

  • Author/Authors

    Gholami ، Zahra Faculty of Dentistry - Tabriz University of Medical Sciences , Hasanpour ، Shirin Faculty of Dentistry - Tabriz University of Medical Sciences , Sadigh ، Samira Faculty of Dentistry - Tabriz University of Medical Sciences , Johari ، Sana Faculty of Dentistry - Tabriz University of Medical Sciences , Shahveghar ، Zahra Faculty of Dentistry - Tabriz University of Medical Sciences , Ataei ، Kosar Faculty of Dentistry - Tabriz University of Medical Sciences , Javari ، Eelahe Faculty of Dentistry - Tabriz University of Medical Sciences , Amani ، Mahsa Faculty of Dentistry - Tabriz University of Medical Sciences , Javadi Kia ، Leila Faculty of Dentistry - Tabriz University of Medical Sciences , Delir Akbari ، Zahra Faculty of Dentistry - Tabriz University of Medical Sciences , Nazari ، Zahra Faculty of Dentistry - Tabriz University of Medical Sciences , Maleki Dizaj ، Solmaz Dental and Periodontal Research Center - Tabriz University of Medical Sciences , Rezaei ، Yashar Dental and Periodontal Research Center - Tabriz University of Medical Sciences

  • From page
    43
  • To page
    47
  • Abstract
    It seems quite challenging in tissue engineering to synthesize a base material with a range of essential activities, including biocompatibility, nontoxicity, and antimicro-bial activities. Various types of materials are synthesized to solve the problem. This study aimed to provide the latest relevant information for practitioners about antibacterial scaffolds in dental tissue engineering. The PubMed search engine was used to review the relevant studies with a combination of the following terms as search queries: tissue engineering, scaffolds, antimicro-bial, dentistry, dental stem cells, and oral diseases. It is noteworthy to state that only the terms related to tissue engineering in dentistry were considered. The antimicro-bial scaffolds support the local tissue regeneration and prevent adverse inflammatory reactions; however, not all scaffolds have such positive characteristics. To resolve this potential defect, different antimicro-bial agents are used during the synthesis process. Innovative methods in guided tissue engineering are actively working towards new ways to control oral and periodontal diseases.
  • Keywords
    Antimicro , bial agents , Endodontics , Oral diseases , Pediatric dentistry , Periodontitis , Scaffolds , Stem cell , Tissue engineering
  • Journal title
    Journal of Advanced Periodontology and Implant Dentistry
  • Journal title
    Journal of Advanced Periodontology and Implant Dentistry
  • Record number

    2686437