尿囊素镁结石中无细菌痕迹：介观和原子尺度的结构研究。

Absence of bacterial imprints on struvite-containing kidney stones: a structural investigation at the mesoscopic and atomic scale.

机构信息

Laboratoire de Physique des Solides, Université Paris XI, Orsay, France.

出版信息

Urology. 2012 Apr;79(4):786-90. doi: 10.1016/j.urology.2011.08.054. Epub 2011 Nov 23.

DOI:10.1016/j.urology.2011.08.054

PMID:22112288

Abstract

OBJECTIVE

Bacterial imprints are always observed on highly carbonated apatite kidney stones but not struvite kidney stones. Struvite and carbonated apatite stones with a high CO(3)(2-)/PO(4)(3-) rate are believed to develop from infections, but their structural differences at the mesoscopic scale lack explanation.

METHODS

We investigated 17 urinary calculi composed mainly of struvite or carbonated apatite by Fourier transform infrared, scanning electron microscopy, and powder neutron diffraction techniques.

RESULTS

Carbonated apatite but not struvite stones showed bacterial imprints. If the same stone contained both carbonated apatite and struvite components, bacterial imprints were observed on the carbonated apatite but not the struvite part. Moreover, neutron powder diffraction experiments revealed the crystal size of struvite stones were larger than that of carbonated apatite stones (250 ± 50 vs 50 nm).

CONCLUSION

Bacterial imprints may appear more easily on kidney stones with small nanocrystals, such as carbonated apatite than with large nanocrystals, such as struvite. This approach may help identify bacteria contributing to stone formation, perhaps with negative results of urine culture.

摘要

目的

高碳酸磷灰石肾结石上总是能观察到细菌印痕，但鸟粪石肾结石上没有。人们认为高碳酸磷灰石和鸟粪石结石是由感染引起的，但其在介观尺度上的结构差异缺乏解释。

方法

我们通过傅里叶变换红外、扫描电子显微镜和粉末中子衍射技术研究了 17 个主要由鸟粪石或碳酸磷灰石组成的尿路结石。

结果

只有碳酸磷灰石结石而不是鸟粪石结石显示出细菌印痕。如果同一结石同时含有碳酸磷灰石和鸟粪石成分，则细菌印痕仅出现在碳酸磷灰石部分，而不在鸟粪石部分。此外，中子粉末衍射实验表明，鸟粪石结石的晶体尺寸大于碳酸磷灰石结石（250±50 对 50nm）。

结论

与大纳米晶体（如鸟粪石）相比，小纳米晶体（如碳酸磷灰石）结石上可能更容易出现细菌印痕。这种方法可能有助于识别导致结石形成的细菌，也许尿液培养结果为阴性。

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尿囊素镁结石中无细菌痕迹：介观和原子尺度的结构研究。

Absence of bacterial imprints on struvite-containing kidney stones: a structural investigation at the mesoscopic and atomic scale.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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