Altered glucocorticoid metabolism in girls with central obesity

Cortisol/Cortisone Ratio in Youth with Obesity One Year Following Sleeve Gastrectomy

Background: Glucocorticoid metabolites are associated with body composition measures and are altered with weight status. Metabolic and bariatric surgery (MBS) results in significant changes in weight and body composition. However, MBS effects on glucocorticoid metabolites are unknown. Objective: To evaluate (i) changes in the cortisol/cortisone ratio in youth with obesity 12 months after sleeve gastrectomy (SG) compared with nonsurgical controls with obesity (NS), and (ii) associations of these changes with body composition changes. Methods: A total of 38 participants 13-25 years old with obesity (29 female) were followed for 12 months. Half underwent SG, and the other half were followed with routine care (nonsurgical, NS). Fasting blood was assessed for cortisol and cortisone using liquid chromatography-mass spectroscopy as part of metabolomic analysis, and the cortisol/cortisone ratio was calculated. A single-slice MRI of the abdomen was performed to assess subcutaneous and visceral adipose tissue (SAT, VAT). Hepatic steatosis was assessed by computed tomography (CT). Results: SG did not differ from NS for baseline clinical characteristics, other than the mean age (SG 18.0 ± 0.46 vs. NS 16.6 ± 0.50 years, P = 0.041), BMI (BMI, 47.23 ± 1.5 vs. 41.32 ± 1.1 kg/m2, P = 0.003) weight and VAT, which were higher in SG. Significant reductions were noted over 12 months in BMI, BMI z-score, VAT, and SAT within the SG versus NS groups (P ≤ 0.001). Over 12 months, groups did not differ for changes in cortisol/cortisone ratio after controlling for age at baseline (P = 0.293). The ratio trended to decrease within the SG group [-1.40 (-5.08, 0.06), P = 0.080], particularly among those that had completed puberty (P = 0.048). No associations were found between changes in the cortisol/cortisone ratio and changes in body composition. Conclusions: The cortisol/cortisone ratio trended to decrease 12 months following SG. However, no associations were found between changes in the cortisol/cortisone ratio and changes in body composition. Studies with larger numbers of participants are necessary to confirm these findings.

The Impact of Obesity on the Excretion of Steroid Metabolites in Boys and Girls: A Comparison with Normal-Weight Children

Obesity in childhood is associated with several steroid changes, which result from excess body mass. The aim of this study was to evaluate steroid metabolism in children with obesity compared with those with normal weight, especially in relation to sex and puberty progress. We analyzed the clinical data of 191 children, aged between 5 and 18 years, with 115 affected (64 girls and 51 boys) and 76 unaffected (35 girls and 41 boys) by obesity. Routine clinical assessment and pubertal stage evaluation based upon Tanner's scale were performed. In addition, to evaluate the impact of puberty, children with pre-adolescence and advanced puberty were divided into separate subgroups. Then, 24 h urine steroid excretion profiles were analyzed by gas chromatography/mass spectrometry. Significant differences in the excretion of steroid metabolites were found between normal weight children and children with obesity, especially in the prepubertal cohort. In this group, we observed enhanced activity in all the pathways of adrenal steroidogenesis. Raised excretion of mineralocorticoid derivatives such as tetrahydro-11-deoxycorticosterone, tetrahydrocorticosterone, and 5α-tetrahydrocorticosterone supported increased activity of this track. No significant differences were detected in the excreted free forms of cortisol and cortisone, while the excretion of their characteristic tetrahydro-derivatives was different. In pre-adolescent children with obesity, α-cortol and especially α-cortolone appeared to be excreted more abundantly than β-cortol or β-cortolone. Furthermore, in children with obesity, we observed elevated androgen excretion with an enhanced backdoor pathway. As puberty progressed, remarkable reduction in the differences between adolescents with and without obesity was demonstrated.

Self-Declared and Measured Prevalence of Glucocorticoid Use in Polish Athletes

Glucocorticoids (GCs) are included in the list of prohibited substances and methods in sport published annually by the World Anti-Doping Agency (WADA). In its 2022 update, the WADA list prohibits all injectable routes of administration of GCs for use during in-competition periods. Previously, GCs were prohibited in-competition when administered by oral, intravenous, intramuscular, or rectal routes, but local injections (in addition to topical applications) were allowed. This study first investigated the prevalence of GC use by athletes in Poland, declared in 2130 doping control forms, and the related 2130 urine samples analysed at the Polish Anti-Doping Laboratory. Second, the validity of the analytical methodology to detect GCs was evaluated with the updated WADA requirement for substance-specific minimum reporting levels and considering the proposed washout periods. Despite the new regulation in place, the use of 30 different GC preparations were declared in a total of 162 occurrences (8% of the tests) with therapeutic purposes. Laboratory analyses resulted in the presence of GCs in 16 occurrences with only two samples with a concentration triggering an adverse analytical finding. Our study allowed us to confirm that the applied methodology for the determination of GCs in urine samples (ultra-high-performance liquid chromatography–tandem mass spectrometry) remains fully valid after the latter regulation change while the challenge to assess the timing and administration route for GCs persists.

Clinical and Technical Aspects in Free Cortisol Measurement

Accurate measurement of cortisol is critical in adrenal insufficiency as it reduces the risk associated with misdiagnosis and supports the optimization of stress dose. Comprehensive assays have been developed to determine the levels of bioactive free cortisol and their clinical and analytical efficacies have been extensively discussed because the level of total cortisol is affected by changes in the structure or circulating levels of corticoid-binding globulin and albumin, which are the main reservoirs of cortisol in the human body. Antibody-based immunoassays are routinely used in clinical laboratories; however, the lack of molecular specificity in cortisol assessment limits their applicability to characterize adrenocortical function. Improved specificity and sensitivity can be achieved by mass spectrometry coupled with chromatographic separation methods, which is a cutting-edge technology to measure individual as well as a panel of steroids in a single analytical run. The purpose of this review is to introduce recent advances in free cortisol measurement from the perspectives of clinical specimens and issues associated with prospective analytical technologies.