Hair steroid analysis offers the possibility to evaluate long-term steroid metabolism. It is especially beneficial when studying the steroid milieu in newborns and children, for example it can provide new insights into steroid metabolism over months and is unaffected by diurnal fluctuations in steroid concentrations. This study describes a quantitative and highly selective high-resolution mass spectrometry method for the simultaneous analysis of multiple steroids from human scalp hair. The developed method utilizes parallel reaction monitoring in the analysis of hydroxylamine derivatized steroids from hair samples first washed with isopropanol, extracted with methanol, and further purified with solid-phase extraction and liquid-liquid extraction. The method was proven suitable for the quantitative analysis of endogenous glucocorticoids (cortisol [1.5-364 pg/mg]; cortisone [3.6-355 pg/mg]; corticosterone [0.7-347 pg/mg]; 11-deoxycortisol [0.1-343 pg/mg]), androgens (testosterone [0.1-288 pg/mg]; dehydroepiandrosterone [0.3-288 pg/mg]; androstenedione [0.1-285 pg/mg]; 11β-hydroxyandrostenedione [0.3-304 pg/mg]), progestogens (pregnenolone [0.1-313 pg/mg]; progesterone [0.1-313 pg/mg]; 17α-hydroxypregnenolone [0.3-315 pg/mg]; 17α-hydroxyprogesterone [0.7-330 pg/mg]; 21-hydroxyprogesterone [0.6-320 pg/mg]), and estrogens (estrone [0.1-267 pg/mg]; estradiol [0.5-274 pg/mg]). In addition, 11-ketoandrostenedione [0.6-60 pg/mg]; dihydrotestosterone [0.3-290 pg/mg]; 11-ketotestosterone [0.1-12 pg/mg]; and 5α-androstanedione [0.6-281 pg/mg] could be analyzed semi-quantitatively. Aldosterone [3.5-346 pg/mg]; 11β-hydroxytestosterone [0.3-300 pg/mg]; and 11-ketodihydrotestosterone [0.3-300 pg/mg] were also included in the method, but their concentrations were below the lower limit of quantification in all tested hair samples. The method was applied for the analysis of authentic hair samples from different age groups ranging from newborns to adults, including mothers within 48 h after delivery. The newborn hair samples displayed the widest variety and had also the highest amounts of steroids in comparison to the samples of the other groups.
Keywords: Hair; High-resolution mass spectrometry; Hormone; Steroid; UPLC-MS.
Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.