Abboud Iyad Ahmed
Institute of Earth and Environmental Sciences, Al al-Bayt University, Al-Mafraq, Jordan.
Environ Geochem Health. 2008 Feb;30(1):11-20. doi: 10.1007/s10653-007-9103-3. Epub 2007 May 3.
Due to the increase in the number of urinary calculi disease cases in Jordan, stone samples were collected from patients from various Jordanian hospitals (Princes Basma (PBH), King Abdullah University (KAUH), Al-Basheer (ABH) and Al-Mafraq (AMH)). This study concentrates on the effect of trace metals in patients of urinary calculi. Trace metals were detected in 110 urinary calculi samples using X-ray fluorescence (XRF) and atomic absorption spectroscopy (AAS) techniques. Of the calculi examined, 21 were pure calcium oxalate (CaOax), 29 were mixed calcium oxalate/uric acid, 23 were mixed calcium oxalate/phosphate (apatite), 25 were phosphate calculi (apatite/struvite), five were mixed calcium oxalate monohydrate/struvite, four were urate calculi (mixed ammonium acid urate/sodium acid urate) and three were pure cystine calculi. The concentration measurement of Ca and other trace metals levels has been found useful in understanding the mechanism of stone formation and in evaluating pathological factors. It has been found that Ca is the main constituent of the urinary calculi, especially those stones composed of calcium oxalate and calcium phosphate. The concentration of most of the trace metals that were analyzed was (Ca = 48.18, Na = 1.56, K = 0.9, Mg = 3.08, Fe = 1.17, Al = 0.49, Zn = 0.7, Cu = 0.19, Mn = 0.029, P = 10.35, S = 1.88, Sr = 0.306, Mo = 0.2, Cr = 0.146, Co = 0.05, Ni = 0.014)%. In conclusion, metals concentration in Jordanian patient's urinary calculi samples was higher than its equivalents of other patients'. It has been noted that there is no concentration of toxic trace elements (like Li, V, Pb, Cd, and As). Some heavy metals, however, were detected Mo, Cr, Co and Ni as traces. P and S ions are present in few calculi stones as traces.
由于约旦尿路结石疾病病例数量增加,从约旦各医院(巴斯玛公主医院(PBH)、阿卜杜拉国王大学医院(KAUH)、巴希尔医院(ABH)和马弗拉克医院(AMH))的患者中收集了结石样本。本研究聚焦于微量金属对尿路结石患者的影响。使用X射线荧光(XRF)和原子吸收光谱(AAS)技术在110份尿路结石样本中检测到了微量金属。在所检查的结石中,21份为纯草酸钙(CaOax),29份为草酸钙/尿酸混合结石,23份为草酸钙/磷酸盐混合结石(磷灰石),25份为磷酸盐结石(磷灰石/鸟粪石),5份为一水合草酸钙/鸟粪石混合结石,4份为尿酸盐结石(尿酸铵/尿酸钠混合结石),3份为纯胱氨酸结石。已发现钙及其他微量金属水平的浓度测量有助于理解结石形成机制和评估病理因素。已发现钙是尿路结石的主要成分,尤其是那些由草酸钙和磷酸钙组成的结石。所分析的大多数微量金属的浓度为(钙 = 48.18、钠 = 1.56、钾 = 0.9、镁 = 3.08、铁 = 1.17、铝 = 0.49、锌 = 0.7、铜 = 0.19、锰 = 0.029、磷 = 10.35、硫 = 1.88、锶 = 0.306、钼 = 0.2、铬 = 0.146、钴 = 0.05、镍 = 0.014)%。总之,约旦患者尿路结石样本中的金属浓度高于其他患者的相应浓度。已注意到不存在有毒微量元素(如锂、钒、铅、镉和砷)富集情况。然而,检测到了一些痕量重金属,如钼、铬、钴和镍。磷和硫离子在少数结石中以痕量存在。
