分析化学
分析化學
분석화학
CHINESE JOURNAL OF ANALYTICAL CHEMISTRY
2015年
1期
121-126
,共6页
王磊君%李钢%郑赛晶%费婷%刘鸿%戚大伟
王磊君%李鋼%鄭賽晶%費婷%劉鴻%慼大偉
왕뢰군%리강%정새정%비정%류홍%척대위
高效液相色谱-质谱联用技术%尿液%代谢物
高效液相色譜-質譜聯用技術%尿液%代謝物
고효액상색보-질보련용기술%뇨액%대사물
Liquid chromatography_tandem mass spectrometry%Urine%Metabolites
采用高效液相色谱_质谱联用技术定量检测人体尿样中丙烯醛、苯、1,3_丁二烯、苯乙烯、巴豆醛的巯基尿酸类代谢物及氰化氢代谢物。将解冻后的尿样经高速离心后,取100μL上清液,加入50μL内标溶液及850μL水后上样分析。色谱分析采用XSELECT HSS T3 C18色谱柱(150 mm×2.1 mm i. d,2.5μm),以乙腈_15 mmol醋酸铵溶液梯度洗脱,流速250μL/min,柱温40℃,在多反应监测模式( MRM)下采用负离子扫描模式进行定量分析。本方法共检测了16名吸烟者和6名非吸烟者的尿样,发现日吸烟量大于25支的吸烟者尿样中的烟气成分代谢物浓度高于非吸烟者。
採用高效液相色譜_質譜聯用技術定量檢測人體尿樣中丙烯醛、苯、1,3_丁二烯、苯乙烯、巴豆醛的巰基尿痠類代謝物及氰化氫代謝物。將解凍後的尿樣經高速離心後,取100μL上清液,加入50μL內標溶液及850μL水後上樣分析。色譜分析採用XSELECT HSS T3 C18色譜柱(150 mm×2.1 mm i. d,2.5μm),以乙腈_15 mmol醋痠銨溶液梯度洗脫,流速250μL/min,柱溫40℃,在多反應鑑測模式( MRM)下採用負離子掃描模式進行定量分析。本方法共檢測瞭16名吸煙者和6名非吸煙者的尿樣,髮現日吸煙量大于25支的吸煙者尿樣中的煙氣成分代謝物濃度高于非吸煙者。
채용고효액상색보_질보련용기술정량검측인체뇨양중병희철、분、1,3_정이희、분을희、파두철적구기뇨산류대사물급청화경대사물。장해동후적뇨양경고속리심후,취100μL상청액,가입50μL내표용액급850μL수후상양분석。색보분석채용XSELECT HSS T3 C18색보주(150 mm×2.1 mm i. d,2.5μm),이을정_15 mmol작산안용액제도세탈,류속250μL/min,주온40℃,재다반응감측모식( MRM)하채용부리자소묘모식진행정량분석。본방법공검측료16명흡연자화6명비흡연자적뇨양,발현일흡연량대우25지적흡연자뇨양중적연기성분대사물농도고우비흡연자。
We developed and validated a method using high performance liquid chromatography ( HPLC ) coupled with electrospray ionization tandem mass spectrometry ( ESI_MS/MS ) to simultaneously quantify 11 urinary volatile organic compound ( VOC ) metabolites. The frozen urinary samples were unfrozen at room temperature and centrifuged to remove settled precipitate. 100 μL of the supernatant and 50 μL of internal standard were added and then diluted by 850μL of water so as to be analyzed by LC_MS/MS. The compounds were separated on a XSELECT HSS T3 column using acetonitrile as mobile phase A and 15 mmol/L ammonium acetate as mobile phase B at a flow rate of 250μL/min. The analytes were determined qualitatively and quantitatively under multi_reaction monitoring ( MRM) and negative polarity mode. The limits of detection ranged from 0 . 5-30 μg/L and the spiked recoveries of the analytes ranged from 89 . 8%-123 . 8% with RSDs of 3 . 1%-14 . 4%. This method was applied to 22 h urine samples collected from 16 smokers and 6 non_smokers. The results showed that the contents of the metabolites in smokerˊs urine were higher than those of nonsmokers, especially, smoking more than 25 cigarettes per day.