We conclude that in the diagnosis of central hypoadrenalism, ACTH [1-24] stimulation tests may give misleading results compared to the IHT. The use of low bolus doses of ACTH [1-24] (1.0, 0.5 or 0.1 microg) or a high dose prolonged infusion does not greatly improve the sensitivity of ACTH [1-24] testing. Dynamic tests that provide a central stimulus remain preferable in the assessment of patients with suspected ACTH deficiency.
The insulin hypoglycemia test (IHT) is widely regarded as the "gold standard" for dynamic stimulation of the hypothalamic-pituitary-adrenal (HPA) axis. This study aimed to investigate the temporal relationship between a rapid decrease in plasma glucose and the corresponding rise in plasma adenocorticotropic hormone (ACTH), and to assess the reproducibility of hormone responses to hypoglycemia in normal humans. Ten normal subjects underwent IHTs, using an insulin dose of 0.15 U/kg. Of these, eight had a second IHT (IHT2) and three went on to a third test (IHT3). Plasma ACTH and cortisol were measured at 15-min intervals and, additionally, in four IHT2s and the three IHT3s, ACTH was measured at 2.5- or 5-min intervals. Mean glucose nadirs and mean ACTH and cortisol responses were not significantly different between IHT1, IHT2 and IHT3. Combined data from all 21 tests showed the magnitude of the cortisol responses, but not the ACTH responses, correlated significantly with the depth and duration of hypoglycemia. All subjects achieved glucose concentrations of of < or = 1.6 mmol/l before any detectable rise in ACTH occurred. In the seven tests performed with frequent sampling, an ACTH rise never preceded the glucose nadir, but occurred at the nadir, or up to 15 min after. On repeat testing, peak ACTH levels varied markedly within individuals, whereas peak cortisol levels were more reproducible (mean coefficient of variation 7%). In conclusion, hypoglycemia of < or = 1.6 mmol/l was sufficient to cause stimulation of the HPA axis in all 21 IHTs conducted in normal subjects. Nonetheless, our data cannot reveal whether higher glucose nadirs would stimulate increased HPA axis activity in all subjects. Overall, the cortisol response to hypoglycemia is more reproducible than the ACTH response but, in an individual subject, the difference in peak cortisol between two IHTs may exceed 100 nmol/l.
Leptin, produced by adipocytes, has homeostatic effects on body fat mass through inhibition of appetite and stimulation of the sympathetic nervous system. Several studies have reported that high-dose exogenous glucocorticoids increase circulating leptin concentrations in humans. Conversely, leptin has inhibitory effects on the hypothalamic-pituitary-adrenal (HPA) axis, both at the hypothalamic and adrenal levels. We hypothesized that acute hypercortisolism, in the physiological range, may not alter leptin secretion. Four stimuli of the HPA axis were administered to eight healthy male volunteers in a placebo-controlled study. On separate afternoons, in a randomised order, fasting subjects received i.v. injections of saline, naloxone (125 microg/kg); vasopressin (0.0143 IU/kg); naloxone and vasopressin in combination; or insulin (0.15 U/kg; a dose sufficient to induce hypoglycaemia). Plasma concentrations of adrenocorticotrophic hormone (ACTH), cortisol and leptin were measured before and for 120 min after the injection. The cortisol secretory response was greatest after insulin-hypoglycaemia, this response was significantly greater than that following naloxone, naloxone/vasopressin, or vasopressin alone. Despite the cortisol release, leptin concentrations were not increased after any stimulus. Insulin-hypoglycaemia was associated with a decrease in leptin concentration at 60 and 90 min, while naloxone did not alter leptin concentrations. However, basal leptin concentrations were positively correlated with integrated ACTH and cortisol responses to naloxone, but did not correlate with ACTH or cortisol responses to the other stimuli. Thus acute elevations of plasma cortisol, in the physiological range, do not appear to influence plasma leptin concentrations. The fall in plasma leptin concentration after insulin-induced hypoglycaemia may reflect catecholamine secretion after this stimulus.
1. An elevation in blood pressure has been consistently observed 24 h after adrenocorticotropic hormone (ACTH) administration and is caused by increased ACTH-stimulated cortisol secretion, in association with increased cardiac output. The aim of the present study was to investigate the previously undefined time of onset of this increase in blood pressure in normal humans. 2. Ten normal healthy volunteers received 250 mg ACTH-[1-24], in 500 mL normal saline, infused at a constant rate over 8 h. Six subjects also received a placebo infusion (normal saline only). Blood pressure, heart rate and cortisol levels were determined hourly. Adrenocorticotropic hormone (ACTH-[1-24] plus native ACTH) was measured at 0, 1, 7 and 8 h. 3. Infusion of ACTH-[1-24] produced maximal secretion rates of cortisol, resulting in a mean peak plasma level of 985 +/- 46 nmol/L at 8 h. In response, blood pressure and heart rate rose significantly by 2 h and remained generally elevated for the duration of the infusion. 4. The early onset of haemodynamic responses is consistent with classical steroid receptor-mediated genomic mechanisms, but could be due non-genomic mechanisms. 5. The cardiovascular consequences of therapeutic use of ACTH are well recognized. This results of the present study suggest that even diagnostic administration of ACTH, delivered over a few hours, may raise blood pressure.
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