通过掺入硅酸钙提高玻璃离子水门合剂的生物活性

Biomatter Pub Date : 2016-01-01 DOI:10.1080/21592535.2015.1123842

Song Chen, Yixiao Cai, H. Engqvist, W. Xia

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引用次数: 18

摘要

玻璃离子水门剂(GIC)是一种非生物活性的牙科水门剂。在凝固过程中，受丙烯酸组分的驱动，GIC的pH值呈酸性。在不影响其力学性能的情况下使GIC碱性是一个挑战。一种策略是添加具有碱性的缓慢反应系统。本研究的目的是研究形成基于玻璃离子水门合剂和硅酸钙组合的生物活性牙科材料的可能性。两种类型的GIC作为对照。硅灰石(CS也表示β-CaSiO3)或矿物三氧化骨料(MTA)被加入到两种类型的GIC中。比较了改性GIC与对照GIC对材料配方的凝固时间、抗压强度、pH值和生物活性的影响。在改性水泥表面发现了磷灰石晶体，而在对照水泥表面没有发现磷灰石晶体。掺入20%硅酸钙或20% MTA后，水泥的抗压强度保持不变。此外，经20% MTA改性的GIC抗压强度在浸泡14 d期间有所提高(p < 0.05)。

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Enhanced bioactivity of glass ionomer cement by incorporating calcium silicates

ABSTRACT Glass ionomer cements (GIC) are known as a non-bioactive dental cement. During setting the GIC have an acidic pH, driven by the acrylic acid component. It is a challenge to make GIC alkaline without disturbing its mechanical properties. One strategy was to add slowly reacting systems with an alkaline pH. The aim of the present study is to investigate the possibility of forming a bioactive dental material based on the combination of glass ionomer cement and calcium silicates. Two types of GIC were used as control. Wollastonite (CS also denoted β-CaSiO3) or Mineral Trioxide Aggregate (MTA) was incorporated into the 2 types of GIC. The material formulations’ setting time, compressive strength, pH and bioactivity were compared between modified GIC and GIC control. Apatite crystals were found on the surfaces of the modified cements but not on the control GIC. The compressive strength of the cement remained with the addition of 20% calcium silicate or 20% MTA after one day immersion. In addition, the compressive strength of GIC modified with 20% MTA had been increased during the 14 d immersion (p < 0 .05).

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Biomatter

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