Ragini Bhake scite author profile

Hormonal systems are major regulators of metabolic and cognitive function and many of these, including the critical stress-responsive hypothalamic-pituitary-adrenal (HPA) axis, release their constituent hormones in a circadian manner. This circadian rhythmicity is made up from an underlying approximate hourly ultradian rhythm. In order to understand the importance of both circadian and ultradian rhythms in man it is important to be able to carry out multiple sampling studies over extended periods in a subject's home setting, which is the most meaningful physiological setting for homeostatically important hormones. This study has developed a novel automated sampling system that, when used in combination with a microdialysis system, collects timed samples of microdialysis fluid over a full 24 h in individuals going about their normal everyday activity. The apparatus has the capacity to provide sufficient sample volumes to measure changes in hormone concentration over 24 h, including the important period when subjects are asleep.

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Subcutaneous pulsatile glucocorticoid replacement therapy

Russell

Durant

Ataya

et al. 2014

Clinical Endocrinology

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SummaryThe glucocorticoid hormone cortisol is released in pulses resulting in a complex and dynamic ultradian rhythm of plasma cortisol that underlies the classical circadian rhythm. These oscillating levels are also seen at the level of tissues such as the brain and trigger pulses of gene activation and downstream signalling. Different patterns of glucocorticoid presentation (constant vs pulsatile) result not only in different patterns of gene regulation but also in different neuroendocrine and behavioural responses. Current ‘optimal’ glucocorticoid replacement therapy results in smooth hormone blood levels and does not replicate physiological pulsatile cortisol secretion. Validation of a novel portable pulsatile continuous subcutaneous delivery system in healthy volunteers under dexamethasone and metyrapone suppression. Pulsatile subcutaneous hydrocortisone more closely replicates physiological circadian and ultradian rhythmicity.

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Continuous Free Cortisol Profiles in Healthy Men

Bhake

Russell

Kershaw

et al. 2019

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Context In humans, approximately 95% of circulating cortisol is bound to corticosteroid-binding globulin and albumin. It is only the free fraction that is biologically active and can activate signaling pathways via glucocorticoid hormone receptors in cells. Microdialysis is a well-established technique that enables the sampling of molecules in different compartments of the body, including extracellular fluid. This is the first study validating a rapid sampling microdialysis method measuring free cortisol in the subcutaneous and blood compartments of healthy volunteers. Methods Healthy nonsmoking volunteers (42 men, aged 18–24 years; body mass index 18–25 kg/m2) received placebo (saline), 250 μg Synacthen, or 1 mg dexamethasone with 10-minute sampling to measure total and free cortisol (subcutaneous, intravenous, and saliva) for an hour before and 4 hours after administration. Results Following stimulation by Synacthen, total serum cortisol and free cortisol in both compartments rose significantly, achieving and maintaining maximum levels between 2 and 3 hours following the stimulus. A decline in cortisol levels was evident after the administration of dexamethasone or placebo, but there was a clear pulsatile activity around lunchtime in the latter group, which was prominent in the blood compartment (total and free cortisol). There was good correlation between serum total and free cortisol (subcutaneous and intravenous) in the Synacthen and dexamethasone groups with no significant delay (less than 5 minutes) between total and free cortisol. Conclusions This seminal study demonstrated the dynamic responses of total blood cortisol and microdialysis derived free cortisol in blood, subcutaneous tissue, and saliva in men.

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Continuous Free Cortisol Profiles—Circadian Rhythms in Healthy Men

Bhake

Kluckner

Stassen

et al. 2019

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Context The pituitary–adrenal axis had historically been considered a representative model for circadian rhythms. A recently developed portable collection device has provided the opportunity to evaluate free cortisol profiles using the microdialysis approach in individuals free to conduct their day-to-day activities in their own surroundings. Methods Two separate experiments were conducted in healthy male volunteers. The total and subcutaneous (SC) free cortisol levels were measured at 10-minute intervals for a 24-hour period in one experiment, and the SC free cortisol levels were measured at 20-minute interval for 72 consecutive hours in free-living individuals in the second experiment. Results The characteristic circadian rhythm was evident in both serum total and SC free cortisol, with the lowest levels achieved and maintained in the hours surrounding sleep onset and the peak levels occurring in every individual around waking. In all free-living individuals, the circadian rhythm was consistent across the 72-hour period, despite a wide range of activities. All the participants also showed increased cortisol after the consumption of lunch. The lowest levels during all 24-hour periods were observed during the hours after lights off, at the onset of sleep. Conclusions To the best of our knowledge, the present study is the first to report up to three consecutive 24-hour measurements of SC free cortisol in healthy individuals. We believe our study is a landmark study that paves the way for ambulatory monitoring of free cortisol profiles continuously for a period of 72 hours in free-living individuals performing their day-to-day activities whether healthy or with diseases involving the hypothalamic–pituitary–adrenal axis.

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Ragini Bhake

Automated 24-hours sampling of subcutaneous tissue free cortisol in humans

Subcutaneous pulsatile glucocorticoid replacement therapy

Continuous Free Cortisol Profiles in Healthy Men

Continuous Free Cortisol Profiles—Circadian Rhythms in Healthy Men

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