Comparison of the Bone Forming Ability of Different Sized-alpha Tricalcium Phosphate Granules using a Critical Size Defect Model of the Mouse Calvaria

Q4 Engineering
Tomoko Tokuda, Y. Honda, Y. Hashimoto, N. Matsumoto
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引用次数: 2

Abstract

63 Introduction Bone defects attributed to serious periodontitis, trauma, and injury are commonly encountered in the fields of dentistry, craniofacial surgery, and orthopedics. Although autogenous bone grafting is still considered the gold standard for treatment, this process has several drawbacks, such as the requirement of a second surgery and the limited availability of collectable bone [1]. Artificial bone grafts are thought to be promising alternatives to autogenous bone grafts. Several calcium phosphate (CaP)-based biomaterials, such as hydroxyapatite (HA), tricalcium phosphate (TCP), and octacalcium phosphate (OCP), have been intensively investigated for use as artificial bone because, under appropriate conditions, these materials show excellent biocompatibility and bioactivity [2, 3]. High-temperature TCP, known as alpha-tricalcium phosphate (-TCP), is often prepared by the sintering of amorphous precursors with the proper composition [4]. Its calciumto-phosphate ratio is theoretically 1.50. In general, -TCP dissolves more easily than OCP, -TCP, and HA under neutral pH conditions [4]. Furthermore, -TCP converts to apatite in aqueous solution over time [5], to lowComparison of the Bone Forming Ability of Different Sized-alpha Tricalcium Phosphate Granules using a Critical Size Defect Model of the Mouse Calvaria
不同大小磷酸三钙颗粒在小鼠颅骨缺损模型中的成骨能力比较
由于严重的牙周炎、创伤和损伤引起的骨缺损在牙科、颅面外科和矫形外科领域中很常见。虽然自体骨移植仍然被认为是治疗的金标准,但这种方法有几个缺点,例如需要第二次手术和可收集的骨bb0的有限可用性。人工骨移植被认为是替代自体骨移植的一种很有前途的方法。几种基于磷酸钙(CaP)的生物材料,如羟基磷灰石(HA)、磷酸三钙(TCP)和磷酸八钙(OCP),已经被广泛研究用于人工骨,因为在适当的条件下,这些材料表现出优异的生物相容性和生物活性[2,3]。高温TCP,称为α -磷酸三钙(-TCP),通常是由具有适当成分[4]的无定形前体烧结制备的。理论上,它的钙磷比是1.50。一般来说,在中性pH条件下,-TCP比OCP、-TCP和HA更容易溶解。此外,-TCP在水溶液中随着时间的推移会转化为磷灰石,从而在小鼠颅骨的临界尺寸缺陷模型中比较不同大小的α磷酸三钙颗粒的成骨能力
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来源期刊
Nano Biomedicine
Nano Biomedicine Engineering-Biomedical Engineering
CiteScore
0.30
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