Objective To study the feasibility of repair of jaw bone defects by Nano-hydroxyapatite (Nano-HA).
目的研究纳米羟基磷灰石修复颌骨缺损的可行性。
To study the biocompatibility and safety of nano-hydroxyapatite artificial bone for the clinical use in the bone's reconstruction field.
目的评价新型纳米羟基磷灰石人工骨的生物相容性,从而为其在骨缺损修复领域中的临床运用提供依据。
Nano-hydroxyapatite slurry (n-HA) was used to make composite with medical grade polyamide 66 (PA66) and high-density polyethylene (HDPE).
应用纳米羟基磷灰石(nHA)、聚酰胺66(PA66)和高密度聚乙烯(HDPE)制备了生物医用复合材料。
Nano-hydroxyapatite has been widely used as reconstructive and prosthetic material for osseous tissue, owing to its excellent biocompatibility and tissue bioactivity.
纳米羟基磷灰石具有良好的生物相容性和生物活性,是较好的生物材料,被广泛应用于骨组织的修复与替代技术。
Nano - hydroxyapatite was synthesized by hydrothermal method in the submerged circulating impinging stream reactor, using calcium nitrate and sodium phosphate as reactants and acetamide as dispersant.
在浸没循环撞击流反应器中,以硝酸钙和磷酸钠为原料、乙酰胺为分散剂,采用水热法合成了纳米羟基磷灰石。
Bionic acicular nano hydroxyapatite(n HA) was used to make composites with medical grade polyamide (Poly hexamethylene adipamide) by solution blend.
通过溶液共混法制备了羟基磷灰石纳米针晶与聚己二酰己二胺生物医用复合材料。
Conclusion: Nano-zinc-oxide, hydroxyapatite and nanohydroxyapatite have favorable histocompatibility and excellent apical sealing ability, so they are suitable for root filling as root canal sealers.
结论:纳米氧化锌糊剂、羟磷灰石糊剂和纳米羟磷灰石糊剂具有良好的组织相容性和根尖封闭性,可以作为根管封闭剂用于根管充填。
Objective: To approach the change of stress shielding rate of internal fixation materials made of nano zirconia gradient compounded with hydroxyapatite.
目的:探讨氧化锆梯度复合羟基磷灰石内固定材料的应力遮挡率的变化。
The composition of nano granulated ferroferric oxide and nano lamellar hydroxyapatite is realized, and the ferroferric oxide has uniform distribution and no agglomeration.
实现了纳米颗粒状四氧化三铁和纳米层片状羟基磷灰石的复合,四氧化三铁分布均匀,无团聚。
The composition of nano granulated ferroferric oxide and nano lamellar hydroxyapatite is realized, and the ferroferric oxide has uniform distribution and no agglomeration.
实现了纳米颗粒状四氧化三铁和纳米层片状羟基磷灰石的复合,四氧化三铁分布均匀,无团聚。
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