首页> 外文期刊>Free Radical Biology and Medicine: The Official Journal of the Oxygen Society >Determination of urinary malondialdehyde by isotope dilution LC-MS/MS with automated solid-phase extraction: a cautionary note on derivatization optimization.
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Determination of urinary malondialdehyde by isotope dilution LC-MS/MS with automated solid-phase extraction: a cautionary note on derivatization optimization.

机译:同位素稀释LC-MS / MS自动固相萃取法测定尿中的丙二醛:衍生化优化的注意事项。

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摘要

A highly sensitive quantitative LC-MS/MS method was developed for measuring urinary malondialdehyde (MDA). With the use of an isotope internal standard and online solid-phase extraction, urine samples can be directly analyzed within 10 min after 2,4-dinitrophenylhydrazine (DNPH) derivatization. The detection limit was estimated as 0.08 pmol. This method was further applied to assess the optimal addition of DNPH for derivatization and to measure urinary MDA in 80 coke oven emission (COE)-exposed and 67 nonexposed workers. Derivatization optimization revealed that to achieve complete derivatization reaction, an excess of DNPH is required (DNPH/MDA molar ratio: 893-8929) for urine samples that is about 100 times higher than that of MDA standard solutions (molar ratio: 10-80). Meanwhile, the mean urinary concentrations of MDA in COE-exposed workers were significantly higher than those in nonexposed workers (0.23+/-0.17 vs 0.14+/-0.05 mumol/mmol creatinine, P<0.005). Urinary MDA concentrations were also significantly associated with the COE (P<0.005) and smoking exposure (P<0.05). Taken together, this method is capable of routine high-throughput analysis and accurate quantification of MDA and would be useful for assessing the whole-body burden of oxidative stress. Our findings, however, raise the issue that derivatization optimization should be performed before it is put into routine biological analysis.
机译:开发了一种用于测定尿中丙二醛(MDA)的高灵敏度定量LC-MS / MS方法。通过使用同位素内标和在线固相萃取,可以在2,4-二硝基苯肼(DNPH)衍生化后10分钟内直接分析尿液样品。检出限估计为0.08 pmol。该方法还用于评估DNPH的最佳添加量,以进行衍生化,并测量80名焦炉排放(COE)和67名未暴露工人的尿MDA。衍生化优化表明,要实现完全的衍生化反应,尿液样品需要过量的DNPH(DNPH / MDA摩尔比:893-8929),是MDA标准溶液(摩尔比:10-80)的100倍左右。同时,接触COE的工人的平均MDA浓度显着高于未接触COD的工人(0.23 +/- 0.17 vs 0.14 +/- 0.05 mumol / mmol肌酐,P <0.005)。尿MDA浓度也与COE(P <0.005)和吸烟暴露(P <0.05)显着相关。综上所述,该方法能够进行常规的高通量分析和MDA的准确定量,对于评估全身的氧化应激负担很有用。然而,我们的发现提出了一个问题,即在将衍生化优化应用于常规生物学分​​析之前,应先对其进行优化。

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