光谱学与光谱分析 |
|
|
|
|
|
XRD, FTIR and Thermoluminescence Spectra of Different Types of Urinary Stones |
YANG Jin, HE Jie-yu, OUYANG Jian-ming* |
Institute of Biomineralization and Lithiasis Research, Jinan University, Guangzhou 510632, China |
|
|
Abstract Using thermoluminescence spectrometer, X-ray diffraction and Fourier transform infrared spectroscopy, the chemical compositions of four types of kidney stones were investigated. They are calcium oxalate, uric acid, calcium phosphate and magnesium ammonium phosphate calculi (struvite). Experimental results showed that in the 305 cases of stones, calculi oxalate stones were found to account for 63%, uric acid stones 22%, calcium phosphate stones 8%, struvite 5%, and the stones with other compositions 2%. There were significant differences in the thermoluminescence spectra among the 4 types of urinary stones, which can provide an important basis for the clinic diagnosis of urinary stone types.
|
Received: 2010-08-01
Accepted: 2010-11-02
|
|
Corresponding Authors:
OUYANG Jian-ming
E-mail: toyjm@jnu.edu.cn
|
|
[1] ZHONG Yu-chu, JIANG Jian-ping, LI Si-liang(钟余初, 蒋建平, 李思亮). Chin. J. Endourology(中华腔镜泌尿外科杂志), 2010, 4(3): 237. [2] Butterweck V, Khan S R. Planta Med., 2009, 75(10): 1095. [3] YUAN Ming-jin, HAN Rui-hong, ZHANG Liang(袁明金, 韩瑞红, 张 亮). Journal of Practical Diagnosis and Treatment(实用诊断与治疗杂志), 2005, 19(2): 151. [4] CHEN Zhi-qiang, YU Xiao(陈志强, 余 虓). J. Clin. Surg.(临床外科杂志), 2008, 16(11): 734. [5] Estepa L, Daudon M. Biospectroscopy, 1997, 3(5): 347. [6] Benramdane L, Bouatia M, Idrissi M O B, et al. Spectros. Lett., 2008, 41(2): 72. [7] Wilson E V, Bushiri M J, Vaidyan V K. AIP Conference Proceedings, 2008, 1075: 155. [8] Schwille P O, Schmiedl A, Manoharan M. Clin. Chem. Lab. Med., 2004, 42(3): 283. [9] Song T R, Shen S J, Yin Y L, et al. Acta Petrol. Miner., 1994, 13(2): 149. [10] Bhatt P A, Paul P. J. Chem. Sci., 2008, 120(2): 267. [11] Miake Y, Yamazaki T, Yanagisawa T, et al. J. Hard Tissue Biol., 2009, 18(2): 111. [12] DA Xue-juan, GAO Bai-yuan, YI Hai-sheng(达雪娟, 高柏原, 伊海生). Computing Techniques for Geophysical and Geochemical Exploration(物探化探计算技术), 2009, 31(1): 58. [13] MI Hua, DENG Yao-liang(米 华, 邓耀良). Journal of Modern Urology(现代泌尿外科杂志), 2009, 14(1): 74. [14] Halperin M L, Cheema D S, Kamel K S. Semin Nephrol., 2006, 26(6): 441. [15] YE Zhang-qun(叶章群). Chin. J. Exp. Surg.(中华实验外科杂志), 2005, 22(3): 261. |
[1] |
ZHU Ya-ming1, 2, ZHAO Xue-fei1, 2*, GAO Li-juan1, CHENG Jun-xia1. Quantitative Analysis of Structure Changes on Refined Coal Tar Pitch with Curve-Fitted of FTIR Spectrum in Thermal Conversion Process[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(07): 2076-2080. |
[2] |
HU Hua-ling1, 2, 3, LI Meng2, 3*, HE Xiao-song2, 3, XI Bei-dou2, 3, ZHANG Hui2, 3, LI Dan2, 3, HUANG Cai-hong2, 3, TAN Wen-bing2, 3. FTIR Spectral Characteristics of Rice Plant Growing in Mercury Contaminated Soil[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(07): 2081-2085. |
[3] |
MA Dian-xu1, LIU Gang1*, OU Quan-hong1, YU Hai-chao1, LI Hui-mei1, SHI You-ming2. Discrimination of Common Wild Mushrooms by FTIR and Two-Dimensional Correlation Infrared Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(07): 2113-2122. |
[4] |
FU Wei1,2, PENG Zhao2, ZENG Xiang-wei3, QIN Jian-xun4, LI Xue-biao5, LAI Sheng2, LI Xiao-ting2, ZHANG Yin-meng2. Quantitative Analysis of Mineral Composition in Granite Regolith Based on XRD-Rietveld Full-Spectrum Fitting Method[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(07): 2290-2295. |
[5] |
ZHANG Hao1, 2, 5, WANG Lin3, LONG Hong-ming2, 4, 5. Study on Composite Activating Mechanism of Alkali Steel Slag Cementations Materials by XRD and FTIR[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(07): 2302-2306. |
[6] |
DENG Yu-qing, CHEN Tao*. Influence Factors of Transparency on Shuikeng Stone from Shoushan[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(05): 1400-1405. |
[7] |
YE Ting1, QIAO Hai-xia1, HUANG Yong1,2*, GUO Jia-chi1, MA Meng-chu1, RU Ping1, CHEN Fang-fang1, YUAN Cui-fang1, LIU Huan1, SU Zhuo-bin3, ZHANG Xue-jiao1*, GAO Yuan4. Preparation and Characterization of Silicon, Silver, Fluorine Co-Modified Hydroxyapatite Nano-Biofilms[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(04): 1198-1202. |
[8] |
CHEN Hang1, MEI Chang-tong1, LUO Wen2, XU Mo-su3, REN Yi4, YIN Wen-xuan4*. Comparative Study on Microstructure of Flocculant/Catkin with Natural Fiber[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(03): 929-932. |
[9] |
ZHANG Fang1, 2, 3, ZHANG Wei-jie1, 3, DING Yan-yan1, 3, ZHAO Zhong-guo1, 3, GE Hao1, 3. XRD Diffraction Characteristics and Microscopic Morphology of Carbonates in Saline-Alkaline Soil from the Shore of the Aibi Lake[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(12): 3893-3899. |
[10] |
ZHANG Li-juan1, 2, WANG Shu-tao1*, YANG Zhe1, CHENG Peng-fei1. The Determination and Characterization of Main Components in Patchouli Based on the XRF, PXRD and FTIR[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(12): 3889-3892. |
[11] |
HU Wen-hua, DONG Jun, CHI Zi-fang*, REN Li-ming. Preparation and Spectroscopy Characterization of Magnetic Pb(Ⅱ)-Ion Surface Imprinted Polymers(Fe3O4/GO-IIP)[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(11): 3499-3503. |
[12] |
ZHANG Fang-kun, LIU Tao*, GUAN Run-duo. In-situ ATR-FTIR Measurement of Solution Concentration Based on Temperature-Related Spectra Difference Analysis[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(10): 3011-3015. |
[13] |
YE Shu-bin1,2, SHEN Xian-chun1,2, XU Liang1*, JIN Ling1, HU Rong1,2, HU Yang1,2, LI Ya-kai1,2, LIU Jian-guo1, LIU Wen-qing1. A Fast Qualitative Analysis Method of Fourier Transform Infrared Spectra Based on LASSO Method[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(10): 3037-3041. |
[14] |
LIANG Xiao-wen1, SHI Lei2*. Design of a Moving Mirror Scanning System for Portable Interferometer[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(10): 3255-3259. |
[15] |
YE Song1,ZHANG Bing-ke1, 2,YANG Hui-hua1,ZHANG Wen-tao1,DONG Da-ming2*. Identification of Beef Spoilage Processes Using the Infrared Spectrum of Volatiles[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(09): 2751-2755. |
|
|
|
|