受自然启发的材料-牙科材料的领先一步

Tomasz “Tomi” Kupka
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摘要

玻璃离聚体是目前广泛应用于龋病治疗的首选生物材料。牙科材料科学的发展包括在传统材料中插入新的成分。在自然启发的背景下,提出了基于文献的牙科修复材料发展综述大纲。这篇文章是对整个研究界的致敬,对于所有上市和未上市的,在整个时代参与牙科材料科学的关键发明和地球上人类福祉的里程碑。结果。自新石器时代以来,人类一直在寻找一种在外观和功能上模仿自然器官的物质来替代缺失的牙齿组织,我们称之为仿生方法。然而,这种修复哲学并不是指硬牙组织的自然成分。也许,还有另一种从自然中汲取灵感的概念,用于未来牙科材料的设计。受自然启发的合成超越了美学和解剖学上的相似性,并深入研究了自然系统的机械、物理化学特征或结构阶段。在这种情况下,可以考虑将纯玻璃离聚物作为起始材料。然而,寻找具有类似于牙釉质/牙本质/牙骨质的结构-相组成,并转化为原始宿主硬组织的合成自然启发介材料,应侧重于长形羟基磷灰石偶极子控制,以产生和组织成牙釉质棱镜,以及垂直的簇/束在类似三维秩序的尖栅栏中交织排列。先前的研究结果证实了在玻璃离聚体中形成磷灰石-搪瓷样组织的可能性,这是有希望的。包含磷酸钙纳米晶/替代玻璃填料的概念似乎具有前瞻性。基于人工牙多肽与天然粘接剂改性类似物交联的聚电解质有机基质的未来作用仍未被发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nature-inspired Material – A Step Ahead in Dental Materials
Glass-ionomer is first choice widely used biomaterial in caries disease. The evolution of dental material science includes insertion of new components into conventional material. A literature-based review outline of biomaterials for dental restorations development was presented in nature-inspired context. This article is a tribute to the entire research community, for all listed and unlisted, involved throughout the ages in the science of dental materials with the key inventions and milestones for humanity well-being on Earth. Results. Since the Neolithic, the human mind has been seeking for a matter to replace missing tooth tissue imitating/mimicking natural organ in appearance and function, what we call biomimetic/biomimicry approach. However, this restoring philosophy does not refer to the natural composition of hard tooth tissues. Possibly, there is another one concept of drawing inspiration from nature for the design of future dental materials. Nature-inspired synthesis goes beyond aesthetic/and anatomical similarities, and delves into the mechanistic, physico-chemical features or structure-phase of natural systems. In this context, pure glass-ionomer might be taken into consideration as a starting material. However, the search for synthetic nature-inspired mesomaterial with a structural-phase composition analogous to enamel/dentine/cementum, transforming into the original host hard tissues, should focus on elongated hydroxyapatite dipole control for creating and organizing into enamel prisms, and the interwoven alignment of perpendicular clusters/bunches in a picket-fence resembling three-dimensional order. The results of previous studies confirming the possibility of the formation of apatite-enamel-like tissue in glass-ionomer are promising. The concept of inclusion of calcium phosphate nanocrystals/substitution of glass filler seems to be forward-looking. The future role of polyelectrolyte organic matrix based on synthetic tooth polypeptides crosslinked with modified analogues of natural adhesives is still undiscovered.
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