无机化学学报
無機化學學報
무궤화학학보
JOURNAL OF INORGANIC CHEMISTRY
2009年
10期
1711-1716
,共6页
王润霞%谢安建%李士阔%张宝成%沈玉华
王潤霞%謝安建%李士闊%張寶成%瀋玉華
왕윤하%사안건%리사활%장보성%침옥화
草酸钙%尿结石%玉米须%抑制
草痠鈣%尿結石%玉米鬚%抑製
초산개%뇨결석%옥미수%억제
calcium oxalate%urine stone%corn silk extract%prohibition
本文采用X射线衍射(XRD)、红外光谱(FTIR)、扫描电子显微镜(SEM)等方法分析了玉米须提取液对正常人尿液中草酸钙晶体形成的影响,通过电导率法研究了草酸钙晶体生长的动力学过程.以及从生物矿化的角度对玉米须提取液影响尿液中草酸钙晶体的可能机理进行了探讨.由于玉米须提取液中有机酸或多糖的羟基、羰基等通过配位作用与Ca~(2+)合形成可溶性配位化合物,减少了Ca~(2+)与Oxa~(2-)的结合能力,从而抑制了CaOxa的成核和生长.同时,可能由于玉米须提取液中有效成分与二水草酸钙(COD)的吸附点键合,增强了COD晶体在溶液中的热力学稳定性.进而抑制了COD晶体向热力学更稳定态的一水草酸钙(COM)晶体转变.结果显示,这种抑制作用随玉米须浓度增大而增大,且COD晶体尺寸随着玉米须浓度的增大而减小.玉米须抑制COD晶体向COM晶体转变的作用为开发预防和治疗尿结石的药物提供了启示.
本文採用X射線衍射(XRD)、紅外光譜(FTIR)、掃描電子顯微鏡(SEM)等方法分析瞭玉米鬚提取液對正常人尿液中草痠鈣晶體形成的影響,通過電導率法研究瞭草痠鈣晶體生長的動力學過程.以及從生物礦化的角度對玉米鬚提取液影響尿液中草痠鈣晶體的可能機理進行瞭探討.由于玉米鬚提取液中有機痠或多糖的羥基、羰基等通過配位作用與Ca~(2+)閤形成可溶性配位化閤物,減少瞭Ca~(2+)與Oxa~(2-)的結閤能力,從而抑製瞭CaOxa的成覈和生長.同時,可能由于玉米鬚提取液中有效成分與二水草痠鈣(COD)的吸附點鍵閤,增彊瞭COD晶體在溶液中的熱力學穩定性.進而抑製瞭COD晶體嚮熱力學更穩定態的一水草痠鈣(COM)晶體轉變.結果顯示,這種抑製作用隨玉米鬚濃度增大而增大,且COD晶體呎吋隨著玉米鬚濃度的增大而減小.玉米鬚抑製COD晶體嚮COM晶體轉變的作用為開髮預防和治療尿結石的藥物提供瞭啟示.
본문채용X사선연사(XRD)、홍외광보(FTIR)、소묘전자현미경(SEM)등방법분석료옥미수제취액대정상인뇨액중초산개정체형성적영향,통과전도솔법연구료초산개정체생장적동역학과정.이급종생물광화적각도대옥미수제취액영향뇨액중초산개정체적가능궤리진행료탐토.유우옥미수제취액중유궤산혹다당적간기、탄기등통과배위작용여Ca~(2+)합형성가용성배위화합물,감소료Ca~(2+)여Oxa~(2-)적결합능력,종이억제료CaOxa적성핵화생장.동시,가능유우옥미수제취액중유효성분여이수초산개(COD)적흡부점건합,증강료COD정체재용액중적열역학은정성.진이억제료COD정체향열역학경은정태적일수초산개(COM)정체전변.결과현시,저충억제작용수옥미수농도증대이증대,차COD정체척촌수착옥미수농도적증대이감소.옥미수억제COD정체향COM정체전변적작용위개발예방화치료뇨결석적약물제공료계시.
In this paper, the effect of corn silk extract on the formation of calcium oxalate crystal in healthy urines was studied by means of scanning electron microscopy (SEM), X-ray diffraction (XRD), fourier transform infrared spectroscopy (FTIR), and the growth process of calcium oxalate crystal was monitored by conductivity instrument. The mechanism of the corn silk extract on the calcium oxalate crystal nucleation and growth was discussed from point of view of biomineralization. The hydroxy and carbonyl of organic acid or polysaccharide existed in corn silk extract can combine with Ca~(2+) by the coordination interaction, resulting in the weaking of binding interaction between Ca~(2+) and Oxa~(2-), which restrains the nucleation and growth of CaOxa crystal. The change from calcium oxalate dehydrate (COD) to calcium oxalate monohydrate (COM), which exhibits high thermodynamic stability, can also be restrained due to the binding action of the surface of COD and organic nolecules. The results indicated that the corn silk extract could not only prohibit the transformation of calcium oxalate monohydrate (COM) to calcium oxalate dehydrate (COD), but also reduce the size of COD. This work may provide an opportunity to enrich the medication of urine stone.
