Toenails as biomarker of exposure to essential trace metals: A review
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Abstract
Health problems associated with essential trace metals can result from both inadequate (i.e., low intake) and
excessive exposures (i.e., from environmental and/or occupational source). Thus, measuring the exposure level
is a real challenge for epidemiologists. Among non-invasive biomarkers that intend to measure long-term exposure
to essential trace metals, the toenail is probably the biological matrix with the greatest potential.
This systematic review collects the current evidence regarding the validity of toenail clippings as exposure
biomarker for trace metals such as boron, cobalt, copper, iron, manganese, molybdenum, selenium, silicon,
vanadium and zinc. Special attention was paid to the time-window of exposure reflected by the toenail, the
intraindividual variability in exposure levels over time in this matrix, and the relationship of toenail with other
biomarkers, personal characteristics and environmental sources.
Our search identified 139 papers, with selenium and zinc being the most studied elements. The variability
among studies suggests that toenail levels may reflect different degrees of exposure and probably correspond to
exposures occurred 3–12 months before sampling (i.e., for manganese/selenium). Few studies assessed the reproducibility
of results over time and, for samples obtained 1–6 years apart, the correlation coefficient were
between 0.26 and 0.66. Trace metal levels in toenails did not correlate well with those in the blood and urine and
showed low-moderate correlation with those in the hair and fingernails.
Available data suggests that for some elements (Se, Mn, Zn) toenail concentrations reflect long-term external
exposures in fairly reproducible levels, while for other metals, this association has not yet been assessed. Among
dietary factors, only toenail selenium showed clear associations with the intake of supplements or specific foods.
The toenail levels could also represent occupational exposure, for instance, Mn exposure in welders. The scarcity
of information on other essential trace elements, together with the great heterogeneity among studies makes the
validation of the usage of toenails as biomarkers of exposure to these elements difficult. Standardization of
sample collection, quality control, analytical techniques and reporting procedures might facilitate further research
focused on the clear understanding of the significance of essential levels in this promising matrix and
would enhance its utility in epidemiological research.
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Bibliographic citation
Gutiérrez-González, E., García-Esquinas, E., de Larrea-Baz, N. F., Salcedo-Bellido, I., Navas-Acien, A., Lope, V., Gómez-Ariza, J. L., Pastor, R., Pollán, M., & Pérez-Gómez, B. (2019). Toenails as biomarker of exposure to essential trace metals: A review. In Environmental Research (Vol. 179, p. 108787). Elsevier BV. https://doi.org/10.1016/j.envres.2019.108787














