Nonocclusive Sweat Collection Combined with Chemical Isotope Labeling
LC–MS for Human Sweat Metabolomics and Mapping the Sweat Metabolomes
at Different Skin Locations
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Abstract
Human
sweat is an excellent biofluid candidate for metabolomics
due to its noninvasive sample collection and relatively simple matrix.
We report a simple and inexpensive method for sweat collection over
a defined period (e.g., 24 h) based on the use of a nonocclusive style
sweat patch adhered to a skin. This method was combined with differential
chemical isotope labeling (CIL) LC–MS for mapping the metabolome
profiles of sweat samples collected from skins of the left forearm,
lower back, and neck of 20 healthy volunteers. Three 24-h sweat samples
were collected at three different days from each subject for examining
day-to-day metabolome variations. A total of 342 LC–MS runs
were carried out (two runs were discarded due to instrumental issue),
resulting in the detection and relative quantification of 3140 sweat
metabolites with 84 metabolites identified and 2716 metabolites mass-matched
to metabolome databases. Multivariate and univariate analyses of the
metabolome data revealed a location-dependence characteristic of the
sweat metabolome, offering a possibility of mapping the sweat metabolic
differences according to skin locations. Significant differences in
male and female sweat metabolomes could be detected, demonstrating
the possibility of using the sweat metabolome to reveal biological
variations among different comparative groups. Thus, the combination
of noninvasive sweat collection and CIL LC–MS is a robust analytical
tool for sweat metabolomics with potential applications including
daily monitoring of the sweat metabolome as health indicators, discovering
sweat-based disease biomarkers, and metabolomic mapping of sweat collected
from different areas of skin with and without injuries or diseases