Stabilization of Submicron Calcium Oxalate Suspension by Chondroitin Sulfate C May Be an Efficient Protection from Stone Formation

机译：硫酸软骨素C对亚微米草酸钙悬浮液的稳定作用可能是防止结石的有效方法

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The influences of chondroitin sulfate C (C6S) on size, aggregation, sedimentation, and Zeta potential of sub-micron calcium oxalate monohydrate (COM) and calcium oxalate dihydrate (COD) crystallites with mean sizes of about 330 nm were investigated using an X-ray diffractometer, nanoparticle size Zeta potential analyzer, ultraviolet spectrophotometer, and scanning electron microscope, after which the results were compared with those of micron-grade crystals. C6S inhibited the conversion of COD to COM and the aggregation of COM and COD crystallitesis; it also decreased their sedimentation rate, thus increasing their stability in aqueous solution. The smaller the size of the COD crystallites, the easier they can be converted to COM. The stability of sub-micron COD was worse than that of micron-grade crystals. C6S can inhibit the formation of calcium oxalate stones.

机译：使用X-射线研究了平均粒径约330 nm的亚微米草酸钙一水合物（COM）和草酸钙二水合物（COD）微晶对硫酸软骨素C（C6S）的尺寸，聚集，沉积和Zeta电位的影响。射线衍射仪，纳米粒度Zeta电势分析仪，紫外分光光度计和扫描电子显微镜，然后将结果与微米级晶体进行比较。 C6S抑制了COD向COM的转化以及COM和COD结晶的聚集；它也降低了它们的沉降速率，从而增加了它们在水溶液中的稳定性。 COD晶体的尺寸越小，它们越容易转换成COM。亚微米COD的稳定性比微米级晶体差。 C6S可以抑制草酸钙结石的形成。

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期刊名称 Bioinorganic Chemistry and Applications
作者
Jun-Jun Li; Jun-Fa Xue; Jian-Ming Ouyang;
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年(卷),期 2013(2013),-1
年度 2013
页码 360142
总页数 9
原文格式 PDF
正文语种
中图分类分子生物学;
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专利

1. Stabilization of Submicron Calcium Oxalate Suspension by Chondroitin Sulfate C May Be an Efficient Protection from Stone Formation [J] . Jun-Jun Li, Jun-Fa Xue, Jian-Ming Ouyang Bioinorganic chemistry and applications . 2013,第Null期

机译：硫酸软骨素C对亚微米草酸钙悬浮液的稳定作用可能是防止结石的有效方法
2. Stabilization of Submicron Calcium Oxalate Suspension by Chondroitin Sulfate C May Be an Efficient Protection from Stone Formation [J] . Jun-JunLi, Jun-FaXue, Jian-MingOuyang Bioinorganic chemistry and applications . 2013,第1期

机译：硫酸软骨素C稳定亚微米草酸钙悬浮液可能是防止结石的有效方法
3. The role of polymer nanosurface roughness and submicron pores in improving bladder urothelial cell density and inhibiting calcium oxalate stone formation [J] . Chun YW, Khang D, Haberstroh KM, Nanotechnology . 2009,第8期

机译：聚合物纳米表面粗糙度和亚微米孔在改善膀胱尿路上皮细胞密度和抑制草酸钙结石形成中的作用
4. Relationship between Components of urinary crystallites and Formation of Calcium Oxalate Stones - An Investigation of 275 Cases of Patients with Calcium Oxalate Stones [C] . Cai-Yan Tan, Jian-Ming Ouyang, Chong-Yu Zhang International Conference on Chemical, Material and Food Engineering . 2015

机译：尿液结晶组分与草酸钙组成的关系 - 对草酸钙175例患者的研究
5. A modeling study of the role of proteins in calcium oxalate kidney stone formation. [D] . Gul, Asiya. 2005

机译：蛋白质在草酸钙肾结石形成中作用的模型研究。
6. Expression of heterologous oxalate decarboxylase in HEK293 cells confers protection against oxalate induced oxidative stress as a therapeutic approach for calcium oxalate stone disease [O] . Abhishek Albert, Vidhi Tiwari, Eldho Paul, 2017

机译：草酸钙脱羧酶在HEK293细胞中的表达赋予草酸诱导的氧化应激保护作用作为草酸钙结石病的治疗方法
7. Stabilization of Submicron Calcium Oxalate Suspension by Chondroitin Sulfate C May Be an Efficient Protection from Stone Formation [O] . Jun-Jun Li, Jun-Fa Xue, Jian-Ming Ouyang 2013

机译：硫酸软骨素C稳定亚微米氧化钙悬浮液C，可以是石材形成的有效保护

Stabilization of Submicron Calcium Oxalate Suspension by Chondroitin Sulfate C May Be an Efficient Protection from Stone Formation

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