Una Ivković, Catalina Moreno-Rabié, Arn Mignon, Mostafa EzEldeen, Reinhilde Jacobs
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引用次数: 0
摘要
纳米颗粒正在成为牙髓学中的变革性药物,解决了治疗牙本质-牙髓复合物的挑战。本综述旨在探讨纳米颗粒在牙髓学中的多功能应用,重点关注纳米颗粒在促进组织再生、增强材料性能和作为载体功能方面的作用。根据PRISMA-Scoping Review指南,在Web of Science、PubMed和Scopus上进行了全面的文献检索。初步确定了490篇文章,其中92篇符合初步资格标准。在全文筛选之后,70项研究被纳入定性综合。体外和体内研究的主要发现以表格形式总结。结果显示,研究的纳米材料类型存在明显的不平衡:77%的研究报告了无机纳米材料,而只有23%的研究报告了有机纳米材料。尽管它们的代表性较低,但有机纳米材料显示出相当大的相关性。29%的载体研究报告了壳聚糖,而22%的治疗应用报告了细胞外囊泡。在无机材料中,生物活性玻璃经常被报道,出现在31%的增强剂相关研究中,26%的治疗研究中,13%的载体功能研究中。这些纳米颗粒的最终应用在69%的研究中(直接)盖髓或填充根管,突出了在这些应用中对创新材料的需求。在实验模型方面,75%的研究采用相关细胞系进行体外研究,25%采用动物模型。在这25%的体内研究中,18%也报告了体外研究结果。纳米颗粒在改变牙髓学方面具有重要的前景,提供增强的抗菌功效和生物活性,同时解决了传统材料的关键局限性。然而,在它们的长期生物相容性、可扩展性和与临床工作流程的整合方面仍然存在挑战。这篇综述强调需要转化研究来弥合实验室创新和临床实践之间的差距。
Multifunctional nanoparticles in endodontics: applications, challenges, and future directions
Nanoparticles are emerging as transformative agents in endodontics, addressing challenges in treating the dentin-pulp complex. This scoping review aims to explore multifunctional applications of nanoparticles in endodontics, with a focus on their roles in promoting tissue regeneration through therapeutic effects, enhancing material properties, and serving a carrier function. Following PRISMA-Scoping Review guidelines, a comprehensive literature search was conducted across Web of Science, PubMed, and Scopus. A total of 490 articles were initially identified, of which 92 met the preliminary eligibility criteria. Following full-text screening, 70 studies were included in the qualitative synthesis. Key findings from both in vitro and in vivo studies are summarized in tabular form. Results reveal a notable imbalance in the types of nanomaterials studied: inorganic nanomaterials were reported in 77% of the studies, while only 23% investigated organic nanomaterials. Despite their lower representation, organic nanomaterials demonstrated considerable relevance. Chitosan was reported in 29% of the carrier studies, while extracellular vesicles were featured in 22% of the therapeutic applications. Among inorganic materials, bioactive glass was frequently reported, appearing in 31% of enhancer-related studies, 26% of therapeutic studies, and 13% of those investigating carrier functions. The end applications of these nanoparticles were in 69% of the studies either (direct) pulp capping or root canal filling, highlighting the need for innovative materials in these applications. Regarding experimental models, 75% of the studies conducted in vitro research on relevant cell lines, while 25% employed animal models. Of those 25% in vivo studies, 18% also reported in vitro findings. Nanoparticles hold significant promise for transforming endodontics, offering enhanced antibacterial efficacy and bioactivity while addressing critical limitations of conventional materials. However, challenges remain regarding their long-term biocompatibility, scalability, and integration into clinical workflows. This review emphasizes the need for translational research to bridge the gap between laboratory innovations and clinical practice.
期刊介绍:
Nanoscale Research Letters (NRL) provides an interdisciplinary forum for communication of scientific and technological advances in the creation and use of objects at the nanometer scale. NRL is the first nanotechnology journal from a major publisher to be published with Open Access.
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