Application of thermal ionization mass spectrometry to investigations of molybdenum absorption in humans
1995; Elsevier BV; Volume: 148; Issue: 3 Linguagem: Inglês
10.1016/0168-1176(95)04262-j
ISSN1873-2801
AutoresA. Giussani, Ch. Hansen, Fridtjof Nüsslin, E. Werner,
Tópico(s)Trace Elements in Health
ResumoAbstract Thermal ionization mass spectrometry (TIMS) has been developed for the detection of Mo in biological samples in order to enable investigations on absorption and biokinetics in humans. A double rhenium filament technique is employed for sample evaporation and ionization, coupled with a quadrupole filter. The negative MoO 3 ions that are produced are then collected on a secondary electron multiplier and isotopic ratios are measured. A correction must be performed to take into account the isotopic composition of oxygen. The technique has been optimized for the determination of Mo down to 10 ng loaded on the evaporation filament. Preliminary tests were applied to aqueous solutions. Subsequently, measurements were performed on human urine samples, and finally the technique was applied to investigations on the intestinal absorption of Mo in humans. The technique proves to be quite simple and reliable in application, and enables widely ranging studies on molybdenum metabolism and biokinetics in humans to be performed without employing radioactive tracers.
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