Urinary stone analysis in a patient with hyperuricemia to determine the mechanism of stone formation.

Kaneko K; Yoshida N; Okazaki K; Yamanobe T; Yamaoka N; Yasuda M; Ogata N; Yamada Y; Uchida S; Fujimori S

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Urinary stone analysis in a patient with hyperuricemia to determine the mechanism of stone formation.

机译：高尿酸血症患者的尿路结石分析，以确定结石形成的机制。

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In order to determine the mechanism of urinary stone formation in patients with hyperuricemia, we analyzed the crystal components and matrix proteins in a urinary stone from such a patient. Micro-area X-ray spectrometry and infrared (IR) spectroscopy suggested that the outside of the stone was composed of calcium oxalate monohydrate (COM) and the inside of uric acid (UA). Proteomic analysis identified 37 and 14 proteins from the inside and outside of the stone, respectively, as matrix proteins. The proteins that were identified in an ethylenediaminetetraacetic acid (EDTA) fraction were able to bind calcium ions. Thus, calcium-binding proteins may play a significant role in the formation of urinary stones in patients with hyperuricemia.

机译：为了确定高尿酸血症患者尿结石形成的机制，我们分析了此类患者尿结石的晶体成分和基质蛋白。微区X射线光谱和红外（IR）光谱表明，石头的外部由一水草酸钙（COM）和尿酸（UA）组成。蛋白质组学分析分别从石材内部和外部鉴定出37种和14种蛋白质为基质蛋白质。在乙二胺四乙酸（EDTA）馏分中鉴定出的蛋白质能够结合钙离子。因此，钙结合蛋白可能在高尿酸血症患者的尿结石形成中起重要作用。

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《Nucleosides, nucleotides and nucleic acids 》 |2011年第12期| 共5页
作者
Kaneko K; Yoshida N; Okazaki K; Yamanobe T; Yamaoka N; Yasuda M; Ogata N; Yamada Y; Uchida S; Fujimori S;
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正文语种 eng
中图分类生物化学 ;
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1. Urinary stone analysis in a patient with hyperuricemia to determine the mechanism of stone formation. [J] . Kaneko K, Yoshida N, Okazaki K, Nucleosides, nucleotides and nucleic acids . 2011 ,第10a12期

机译：高尿酸血症患者的尿路结石分析，以确定结石形成的机制。
2. Idiopathic recurrent calcium urolithiasis (IRCU): variation of fasting urinary protein is a window to pathophysiology or simple consequence of renal stones in situ? A tripartite study in male patients providing insight into oxidative metabolism as possible driving force towards alteration of urine composition, calcium salt crystallization and stone formation. [J] . Schwille PO, Schmiedl A, Wipplinger J European journal of medical research. . 2009 ,第9期

机译：特发性尿路结石性尿路结石症（IRCU）：空腹尿蛋白的变化是病理生理学的窗口还是原位肾结石的简单后果？一项针对男性患者的三方研究提供了对氧化代谢的了解，而氧化代谢是改变尿液成分，钙盐结晶和结石的可能驱动力。
3. Stone clustering of patients with cystine urinary stone formation. [J] . Purohit RS, Stoller ML Urology . 2004 ,第4期

机译：膀胱结石患者的胱氨酸尿结石形成。
4. Relationship between uric acid stone formation and urinary crystallite components -- an investigation of 109 cases of patients with UA stones [C] . Qin Gui, Poonam Bhadja, Jian-Ming Ouyang International Conference on Advanced Materials, Technology and Application . 2017

机译：尿酸石形成与尿液晶体成分的关系 - 对UA石患者109例患者的研究
5. High urinary calcium excretion and familial aggregation of hypertension, kidney stone disease, obesity, excessive weight gain and type 2 diabetes in patients with calcareous stones. [D] . Mente, Andrew. 2007

机译：钙质结石患者的尿钙排泄量高以及高血压，肾结石病，肥胖，体重增加过多和2型糖尿病的家族聚集。
6. The effect of preincubation of seed crystals of uric acid and monosodium urate with undiluted human urine to induce precipitation of calcium oxalate in vitro : implications for urinary stone formation. [O] . Phulwinder K. Grover, Rosemary L. Ryall 2002

机译：将尿酸和尿酸一钠的晶种与未稀释的人尿液预孵育在体外诱导草酸钙沉淀的影响：对尿结石形成的影响。
7. A Study of Urinary Stone by X-Ray Diffraction I.Preliminary Experiment of X-Ray Diffraction a nd Analysis of Main Components of Urinary Stone by X-Ray Powder Diffraction [O] . 麻生田幸雄 1959

机译：X射线衍射对尿路结石的研究I.X射线衍射的初步实验及X射线粉末衍射对尿路结石主要成分的分析

Urinary stone analysis in a patient with hyperuricemia to determine the mechanism of stone formation.

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