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1)  bone apatite
骨磷灰石
2)  bone-like apatite
类骨磷灰石
1.
The formation of bone-like apatite on the surfaces of the bioceramics and biocomposites;
生物陶瓷及其复合材料表面诱导类骨磷灰石层形成的研究
2.
A study of bone-like apatite formation on PMMA/HA-GF composites surface in SBF;
PMMA/HA-GF复合材料在模拟体液中表面类骨磷灰石的形成
3.
Critical factors on the morphology and structure of Bone-like apatite layers formed on α-TCP and HA surfaces;
影响α-TCP和HA生物陶瓷表面形成类骨磷灰石的形貌、结构的因素研究
3)  bone like apatite
类骨磷灰石
1.
The formation of bone like apatite on the surface of hydroxy apatite (HA) inside SBF of flowing at physiological rate was investigated compared with hydroxyapatite/tricalcium phosphate (HA/TCP) ceramics.
利用模拟人体体液 (SimulatedBodyFluid ,SBF)流动装置 ,研究SBF在人体肌肉组织流率情况下多孔羟基磷灰石 /磷酸三钙 (HA/TCP)和羟基磷灰石 (HA)陶瓷表面和孔壁类骨磷灰石形成。
2.
This study aimed at investigating the influence of the flow rate of simulated body fluid (SBF) (2 ml/min) in skeletal muscle upon the formation of bone like apatite on porous calcium phosphate ceramics.
目的通过对多孔磷酸钙陶瓷在动态和静态模拟体液 (simulatedbodyfluid ,SBF)中类骨磷灰石形成的比较研究 ,探索磷酸钙陶瓷表面类骨磷灰石形成的影响因素 ,从而为理解体内诱导成骨的机理提供依据。
4)  bonelike apatite
骨质磷灰石
1.
The bonding strength of bonelike apatite layer formed on the titanium oxide films to the substrates under different heat treatment temperature is examined under tensile s.
本文研究了钛及钛合金植入材料在不同的电化学、化学处理条件下生物活性薄膜的制备、生物活性骨质磷灰石的形成过程及机理以及不同热处理温度对表面磷灰石与试样基体结合强度的影响。
5)  bone-like hydroxyapatite
类骨状磷灰石
1.
The results show that an excellent biocompatible bone-like hydroxyapatite (HAP) in a spherical or pillar shape with the end plane granularity of 30-50 nm is formed in GBC after immersing in simulated body fluid (SBF) for a certain period.
实验结果表明:通过浸泡于人体模拟液(simulatedbodyfluid,SBF)中,GBC内部会生成具有良好的生物活性类骨状磷灰石(hy droxyapatite,HAP),这些HAP的近似球状和柱状,端面尺寸在30~50nm,且交错生形成玻璃基骨水泥的自固化,提高内部结构的致密性,同时类骨状HAP晶体有利于增强GBC的力学性能。
2.
The results show that an excellent biocompatible bone-like hydroxyapatite(HAP),a sperfical or pillar shape with the end plane granularity 30-50nm,is formed in GBC after immersing a certain period in simulated body fluid(SBF).
实验结果表明:通过浸泡于人体模拟液(simulatedbody fluid,SBF)中GBC 内部会生成具有良好的生物活性的近似球状和柱状,端面尺寸在在30~50nm的类骨状磷灰石(hydroxyapatite,HAP),这些HAP 交错连形成了玻璃基骨水泥的自固化,提高了内部结构的致密性,同时类骨状HAP 品体有利于增强GBC 的力学性能。
6)  hydroxyapatite cement
羟磷灰石骨水泥
1.
Drug releasing test in vitro of hydroxyapatite cement/norvancomycin as drug delivery system;
羟磷灰石骨水泥/去甲万古霉素体外缓释试验
补充资料:跟骨结节骨软骨病


跟骨结节骨软骨病
osteochondrosis of calcaneal tubercle,Sever disease

1907年Haglund首先描述此病。1912年Sever提出系跟骨第二骨化中心缺血性坏死。多见于7~10岁男孩。常有近期剧烈运动史。足后跟肿痛、压痛。严重者足跟不敢着地。X线摄片可见跟骨结节骨骺致密,碎裂,外形不规则。本病可自限。急性期少走路及站立,避免奔跑及跳跃,穿软底鞋,垫高鞋后跟。伴有滑囊炎者可理疗或局部注射醋酸可的松类药物。
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