Energy dispersive X-ray fluorescence spectrometry for the direct multi-element analysis of dried blood spots

Home-based collection protocols for clinical specimens are actively pursued as a means of improving life quality of patients. In this sense, dried blood spots (DBS) are proposed as a non-invasive and even self-administered alternative to sampling whole venous blood. This contribution explores the po...

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Bibliographic Details
Published in:Spectrochimica acta. Part B: Atomic spectroscopy 2018-01, Vol.139, p.13-19
Main Authors: Marguí, E., Queralt, I., García-Ruiz, E., García-González, E., Rello, L., Resano, M.
Format: Article
Language:English
Subjects:
Analysis
Blood
Clinical paper
Copper
DBS
Detection
Dispersion
Economic analysis
EDXRF
Elements
Energy
Energy dispersive X ray spectroscopy
Feasibility studies
Fluorescence
Iron
Methods
Quality of life
Spectrometry
Spectrum analysis
Trace elements
X ray fluorescence analysis
X-ray fluorescence
Zinc
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Summary:Home-based collection protocols for clinical specimens are actively pursued as a means of improving life quality of patients. In this sense, dried blood spots (DBS) are proposed as a non-invasive and even self-administered alternative to sampling whole venous blood. This contribution explores the potential of energy dispersive X-ray fluorescence spectrometry for the simultaneous and direct determination of some major (S, Cl, K, Na), minor (P, Fe) and trace (Ca, Cu, Zn) elements in blood, after its deposition onto clinical filter papers, thus giving rise to DBS. For quantification purposes the best strategy was to use matrix-matched blood samples of known analyte concentrations. The accuracy and precision of the method were evaluated by analysis of a blood reference material (Seronorm™ trace elements whole blood L3). Quantitative results were obtained for the determination of P, S, Cl, K and Fe, and limits of detection for these elements were adequate, taking into account their typical concentrations in real blood samples. Determination of Na, Ca, Cu and Zn was hampered by the occurrence of high sample support (Na, Ca) and instrumental blanks (Cu, Zn). Therefore, the quantitative determination of these elements at the levels expected in blood samples was not feasible. The methodology developed was applied to the analysis of several blood samples and the results obtained were compared with those reported by standard techniques. Overall, the performance of the method developed is promising and it could be used to determine the aforementioned elements in blood samples in a simple, fast and economic way. Furthermore, its non-destructive nature enables further analyses by means of complementary techniques to be carried out. [Display omitted] •A methodology for the direct analysis of DBS samples by EDXRF is provided.•Accurate and precise results for P, S, Cl, K and Fe quantification in DBS samples•Na, Ca, Cu, Zn determination is hindered by filter paper and instrumental blanks.•Quantification by matrix-matched blood samples of known analyte concentrations•Good agreement between DBS-EDXRF method results and those using standard techniques
ISSN:0584-8547
1873-3565
DOI:10.1016/j.sab.2017.11.003