Plasma dexamethasone levels in children given the dexamethasone suppression test

To determine whether children who demonstrate dexamethasone suppression test (DST) nonsuppression have lower plasma dexamethasone levels than DST suppressors, we administered the DST to 73 patients ranging in age from 5-14 years. Plasma dexamethasone levels and postdexamethasone cortisol levels were measured at 4:00 PM on day 2. We found: (1) DST nonsuppressors had significantly lower plasma dexamethasone levels (p less than 0.03) than suppressors; similar trends were observed when the population was divided into depressed and nondepressed patients; (2) mg/m2 dose of dexamethasone was directly correlated with plasma dexamethasone (p less than 0.003) and inversely correlated with postdexamethasone plasma cortisol levels (p less than 0.04); and (3) a statistically significant inverse correlation between plasma dexamethasone levels and postdexamethasone cortisol levels (p less than 0.04). Our findings show that plasma dexamethasone levels are important in evaluating DST results in psychiatrically disturbed children and suggest that dexamethasone dosage for use in the DST in children might be better calculated in terms of body surface area.     

Plasma ACTH and cortisol concentrations before and after dexamethasone

Alteration in the hypothalamic-pituitary-adrenal (HPA) axis occurs in up to 50% of depressed patients and is demonstrated by the failure to suppress cortisol concentrations after dexamethasone administration. Evidence suggesting that these cortisol abnormalities reflect hypothalamic-pituitary dysfunction has been inconsistent. We administered the dexamethasone suppression test to 28 psychiatric inpatients, including 17 cortisol suppressors and 11 nonsuppressors. Adrenocorticotropic hormone (ACTH) concentrations at 8 a.m. pre- and postdexamethasone were significantly greater in cortisol nonsuppressors than in suppressors. Our data support the hypothesis that pituitary ACTH secretion is altered in depressed patients who have HPA axis abnormalities demonstrated by plasma cortisol measurements.     

Noradrenergic function and the cortisol response to dexamethasone in depression

Abnormalities of the hypothalamic-pituitary-adrenal (HPA) axis and the noradrenergic system have been reported in depression. To study possible interrelations between these two systems, plasma free 3-methoxy-4-hydroxyphenylglycol (MPHG) was compared with the cortisol response to dexamethasone in 64 depressed patients. Postdexamethasone cortisol nonsuppressors had higher baseline plasma free MHPG values than did cortisol suppressors. Increased severity of some depressive symptoms was associated with increased postdexamethasone cortisol levels. These results indicate that depressed patients with dexamethasone nonsuppression have increased noradrenergic turnover.     

Cortisol suppression per nanogram per milliliter of plasma dexamethasone in depressive and normal subjects

It has been suggested that dexamethasone pharmacokinetics may affect cortisol suppression during the Dexamethasone Suppression Test (DST). In depressed patients the cortisol response has been shown to negatively correlate with dexamethasone plasma concentrations, which also influence the sensitivity and specificity of the DST. These findings have been interpreted as weakening the utility of the DST. However, the analysis of pre- and post-1 mg DST cortisol concentrations corrected for plasma dexamethasone concentrations suggest that compared with normals (n = 52), patients with major depressive disorder (MDD) as a group (n = 71) had less suppressibility of cortisol to the same plasma dexamethasone concentrations. Moreover, when the MDD patients were evaluated based on DST status, the suppressors had cortisol/dexamethasone ratios (micrograms/dl of cortisol per ng/ml of plasma dexamethasone) similar to the normal controls, whereas the nonsuppressors had ratios that were significantly higher. These data suggest that DST non-suppression, as well as sensitivity and specificity of the DST in depression, is not only attributable to altered dexamethasone disposition, but indeed, there is a genuine reduced sensitivity of cortisol to dexamethasone that still points to an abnormality of the delayed feedback mechanism of the hypothalamic-pituitary-adrenal system in some depressed patients.     

L-5-hydroxytryptophan stimulated cortisol escape from dexamethasone suppression in melancholic patients

The dexamethasone suppression test (DST) was carried out in 62 depressed patients. At 0800 the postdexamethasone cortisol values were determined and 125 mg L-5-hydroxytryptophan (L-5-HTP) was administered. The second cortisol sample at 0930 revealed a significant enhancing effect for L-5-HTP on the postdexamethasone cortisol values in melancholic patients, whereas no effects were detected in minor depressives. Our results show that L-5-HTP converts some DST suppressors into nonsuppressors, whereas the escape from dexamethasone in some nonsuppressors is markedly stimulated. The L-5-HTP-stimulated 0930 postdexamethasone cortisol values performed markedly better than the 0800 DST results: at a cut-off value of greater than or equal to 5 micrograms/dl the sensitivity for melancholia increased from 46% to 68%, and the specificity remained unchanged (96%).     

A longitudinal evaluation of dexamethasone and cortisol plasma concentrations in the dexamethasone suppression test before and during treatment with antidepressant drugs

Thirty depressed in- and outpatients received serial dexamethasone suppression tests (DSTs). Plasma dexamethasone and cortisol concentrations were drawn at 1600 on the day following a 1-mg oral dose of dexamethasone. The first DST was performed after patients were drug-free for a period of 1 week; the second, third, and fourth DSTs while patients received antidepressant medication. Dexamethasone and cortisol concentrations drawn in the drug-free period correlated significantly. The cortisol to dexamethasone ratio changed significantly with time in DST nonsuppressors, suggesting that nonsuppression is associated with an altered pharmacodynamic response of the hypothalamopituitary-adrenal axis to dexamethasone during depression. When dexamethasone concentrations from the drug-free period were compared with those drawn during antidepressant treatment, no significant differences were noted.     

Hypercortisolemia decreases dexamethasone half-life in rabbit

The pharmacokinetics of dexamethasone have been found to be related to endogenous hypothalamic-pituitary-adrenal (HPA) axis activity. Lower plasma dexamethasone levels in psychiatric patients (especially depressed) who are dexamethasone suppression test (DST) nonsuppressors have previously been reported. Since DST nonsuppression is one measure of HPA axis hyperactivity and is usually associated with relatively increased plasma cortisol levels and lower post dose plasma dexamethasone levels, we hypothesized that hypercortisolemia can induce a more rapid disappearance of dexamethasone from plasma. We therefore studied the kinetics of dexamethasone in rabbits before and after a period of sustained hypercortisolemia produced by administration of IM hydrocortisone acetate, a slowly absorbed salt of cortisol. Mean dexamethasone half-life decreased significantly from baseline of 1.92 h on day zero in seven rabbits to 1.17 h on experimental day 17 of induced hypercortisolemia (P<0.001), while there was no significant change in saline treated controls (n=3). Dexamethasone half-life had returned to the baseline levels when retested 88 days later on experimental day 105. The results indicate that pronounced hypercortisolemia decreases dexamethasone half-life in rabbits, and support the concept that increased circulating cortisol levels induce hepatic enzymes that metabolize dexamethasone. Thus, the lower postdexamethasone plasma dexamethasone levels and decreased dexamethasone half-life in DST nonsuppressors may in part reflect the effect of prior or coincident hypercortisolemia.     

Glucocorticoid receptors in depression: relationship to the dexamethasone suppression test

Cytoplasmic glucocorticoid receptor content wa quantitated in lymphocytes from unmedicated depressed patients and control subjects before and after a standardized dexamethasone suppression test. Depressed patients (N = 11) had significantly lower (32%) basal cytoplasmic glucocorticoid receptor content than the control group (N = 14). Suppression of serum cortisol (5.0 micrograms/dl or less) in both control and depressed subjects (N = 16) following dexamethasone (1 mg) was associated with a decrease in lymphocyte cytoplasmic glucocorticoid receptor number, whereas no such change occurred in cortisol nonsuppressors (N = 9). Changes in receptor concentration were positively correlated with postdexamethasone serum cortisol levels and with the inhibitory effect of dexamethasone on mitogen-induced lymphocyte proliferation.     

The plasma dexamethasone variable in depression: test-retest studies and early biophase kinetics

A dexamethasone suppression test (DST) was performed in 45 patients during depressive illness and after recovery. Thirty-one samples from patients in whom plasma cortisol was resistant to the suppressive action of dexamethasone contained significantly lower mean (+/- SD) concentrations of the test drug (0.63 +/- 0.39 ng/ml vs 1.10 +/- 0.53 ng/ml) during illness than after recovery and normalization of the DST. In a control group of 14 patients who exhibited adequate DST suppression during the depressive state and after recovery, the dexamethasone concentrations were unchanged (1.54 +/- 0.91 ng/ml vs. 1.30 +/- 0.92 ng/ml). To investigate further the influence of bioavailability or pharmacokinetics of the test drug on DST results, we conducted a catheter study during sleep in 11 endogenously depressed patients who received an oral 1.5 mg dose of dexamethasone at 11 p.m. The half-life of dexamethasone was markedly lower in five DST nonsuppressors (t1/2 = 160 +/- 33 minutes) than in six DST suppressors (t1/2 = 422 +/- 172 minutes). These preliminary results indicate that metabolism of dexamethasone should be controlled in studies evaluating the clinical utility of the DST.     

The effect of serum dexamethasone concentrations in the dexamethasone suppression test

Serum dexamethasone and cortisol concentrations were measured in a sample of 98 psychiatric inpatients during the course of the 1-mg oral overnight Dexamethasone Suppression Test (DST). Suppressors were found to have significantly higher serum dexamethasone concentrations than nonsuppressors at each time of sampling (8:00 AM, 4:00 PM, and 11:00 PM). There was a significant inverse curvilinear relationship between serum dexamethasone and cortisol concentrations at each sample time. Although serum dexamethasone concentration was a potent determinant of postdexamethasone serum cortisol concentration, there were still significantly higher serum concentrations of cortisol in patients with major depression compared with patients with other disorders when dexamethasone concentrations were statistically controlled. By taking serum dexamethasone concentrations into account in defining DST suppression status, a modest increase in diagnostic specificity was achieved, but no substantial change in sensitivity.     

The relationships between the cortisol responses to dexamethasone and to L-5-HTP, and the availability of L-tryptophan in depressed females

In order to investigate the relationships between the hypothalamic-pituitary-adrenal (HPA)-axis activity, the central serotonergic neurotransmission, and the peripheral metabolism of l-tryptophan (L-TRP), the authors measured the following: the postdexamethasone cortisol values, the cortisol responses to 125 mg 5-hydroxy-L-tryptophan (L-5-HTP) orally, and the total L-TRP/competing amino acids (CAA) ratio in 64 depressed females. Severely depressed females showed significantly lower values for L-TRP/CAA, significantly higher postdexamethasone cortisol values, and cortisol responses to L-5-HTP as compared with minor depressives. Dexamethasone nonsuppressors showed significantly lower L-TRP/CAA values as compared with suppressors. The cortisol responses to dexamethasone were significantly and negatively correlated with the availability of L-TRP. The cortisol responses to L-5-HTP were not related to either the availability of L-TRP or to the postdexamethasone cortisol values.     

Enhanced adrenal sensitivity to exogenous cosyntropin (ACTH alpha 1-24) stimulation in major depression. Relationship to dexamethasone suppression test results

ACTH alpha 1-24 (cosyntropin) (250 micrograms by intravenous bolus) was given to 38 medicated patients with major depressive disorder (MDD) and to 34 normal control subjects. Patients with MDD had significantly higher plasma cortisol concentrations and significantly higher increases in plasma cortisol levels 60 minutes after cosyntropin infusion than did control subjects. Patients who were nonsuppressors in the dexamethasone suppression test had significantly higher 60-minute cortisol concentrations and cortisol increases than did normal subjects and patients with MDD who were suppressors. There were significant, strongly positive correlations between cortisol secretory responses to cosyntropin and postdexamethasone cortisol concentrations in patients with MDD. These findings confirm that adrenal sensitivity to corticotropin (ACTH) is enhanced in MDD and suggest that this endocrine abnormality may be related pathophysiologically to the resistance of cortisol secretion to dexamethasone suppression.     

Function of the adrenal cortex in patients with major depression

Failure to suppress cortisol secretion after administration of dexamethasone occurs in up to 50% of depressed patients. To test whether this hypothalamic-pituitary-adrenal (HPA) overactivity is associated with adrenocortical hyperresponsiveness, we performed dexamethasone suppression tests (DSTs) and adrenocorticotropic hormone (ACTH) stimulation tests in depressed subjects and subjects with other psychiatric disorders. Three groups were defined: depressed nonsuppressors, depressed suppressors, and other suppressors. While predexamethasone and postdexamethasone cortisol concentrations were greater in the depressed nonsuppressor group, ACTH concentrations did not differ among groups. After receiving alpha-ACTH[1-24] (4.2 micrograms/kg), depressed nonsuppressors had greater increases in stimulated cortisol secretion than the other groups. These results demonstrate that in a subgroup of depressed patients, HPA overactivity is associated with adrenocortical hyperresponsiveness.     

Plasma dexamethasone concentrations and differential suppression response of cortisol and corticosterone in depressives and controls

After a dexamethasone suppression test (DST), cortisol, corticosterone, and the test substance were determined by a direct radioimmunoassay in 42 samples obtained from 22 depressed patients and 8 controls. The DST results of both glucocorticoids agreed in most of the tests. In all seven cases with elevated but not definitely abnormal post-DST (1600 hr) cortisol levels (transitional range 30-50 ng/ml) the concurrent determination of corticosterone indicated that this corticosteroid may serve as a potent additional discriminator. Dexamethasone plasma concentrations at 1600 hr after a 1-mg test dose of dexamethasone at 2300 hr were significantly (p less than 0.01) lower in cortisol and corticosterone nonsuppressors than in suppressors. Since these data were obtained 17 hr after ingestion of dexamethasone (half-life 3.5-5 hr) any conclusions about an inverse correlation between dexamethasone and corticosteroid plasma concentrations would be speculative. However, the dexamethasone pharmacokinetics might be an important variable and may contribute to some of the recent uncertainty about the DST.     

Results of the 8 a.m. dexamethasone suppression test constitute a suitable tool for confirming the diagnosis of melancholia. A test unaffected by the variations in the bioavailability of dexamethasone

This prospective study was conducted in order (1) to examine which postdexamethasone cortisol value i.e., 8 a.m., 4 p.m. or peak cortisol - is most suitable as a laboratory test to help confirm the diagnosis of melancholia and (2) to investigate the influence of the dexamethasone levels in the results of the dexamethasone suppression test (DST). To this end we administered the DST to 48 controls and 115 depressed inpatients categorized according to DSM-III. The 8 a.m. and 4 p.m. dexamethasone levels were determined in 100 subjects. We found that an 8 a.m. postdexamethasone cortisol value greater than or equal to 3.5 micrograms/dl was of the most significant diagnostic value in order to separate melancholia from normal controls and/or minor depressives. The 8 a.m. and 4 p.m. dexamethasone values did not differ between healthy controls, minor and severely depressed patients. Although cortisol nonsuppressors exhibited significantly lower dexamethasone values, the predictive value of the DST for melancholia was not affected by the large variation in the bioavailability of dexamethasone.     

Baseline plasma cortisol and dexamethasone test in unselected psychiatric inpatients

The plasma cortisol (PC) level at 08.00 a.m. was assessed in 250 unselected psychiatric inpatients suffering from various disorders, assorted in 8 diagnostic groups. Endogenously depressive patients showed a significantly higher rate of cortisol hypersecretion (PC greater than 560 nmol/l = 20 micrograms/dl) than the neurotically or reactively depressed patients and than schizophrenics or paranoid psychotics. The PC level after the midnight dose of 1 mg dexamethasone was examined in 125 patients at 08.00 a.m. (group I) and in 125 patients at 04.00 p.m. (group II). There was no statistical difference in the rate of dexamethasone test (DST) nonsuppressors (PC greater than 140 nmol/l = 5 micrograms/dl) in the separate diagnostic groups between group I and II, but in the postdexamethasone blood samples at 04.00 p.m., significantly more DST nonsuppressors were detected than in the samples at 08.00 a.m. in the total number of all patients, regardless of their diagnosis. DST nonsuppressors were found in all of our diagnostic groups with the exception of manic syndrome, and their various rates will be discussed and compared with the results of previous studies. The DST shows a high sensitivity in endogenous depression, but its diagnostic value is limited as a result of its relative lack of specificity.     

Age and the dexamethasone suppression test in depression

The authors examined the effects of age on plasma cortisol concentrations of 81 depressed men after dexamethasone administration. Dexamethasone nonsuppression was significantly more frequent in patients older than age 55 than those younger. Similarly, older patients had significantly higher postdexamethasone cortisol concentrations than younger patients at all time points sampled. These differences could not be attributed to severity or to the prevalence of psychosis in older and younger depressed patients.     

Altered plasma dexamethasone and cortisol suppressibility in patients with panic disorders

Some abnormalities in the hypothalamic-pituitary-adrenal (HPA) axis in patients with panic disorders were recently reported. The possibility that the disposition of dexamethasone, which has been reported to influence the Dexamethasone Suppression Test (DST), might be altered in this subgroup of patients has not, as yet, been reported. We report that 4:00 PM dexamethasone plasma concentrations following a 1-mg oral DST were significantly (p less than 0.01) lower in 23 patients with panic disorders (0.49 +/- 0.44 ng/ml) compared to 52 normal control subjects (1.09 +/- 0.64 ng/ml). This is in addition to the significantly higher (p less than 0.05) 4:00 PM postdexamethasone cortisol values per nanogram per milliliter of dexamethasone in the panic disorder patients compared to normal controls (17.7 +/- 29.6 versus 5.0 +/- 11.2 micrograms/dl). The mean percent suppression of cortisol from baseline in panic disorder was normal despite one-half the dexamethasone concentrations in these subjects. The cortisol suppression versus dexamethasone concentration curve was also shifted lower (greater fraction of cortisol suppression) and to the left (toward lower dexamethasone concentrations). These results further suggest that the HPA system is indeed altered in panic disorders, but in a manner that is not readily apparent from the DST alone.     

Serial dexamethasone suppression tests and plasma dexamethasone levels. Effects of clinical response to electroconvulsive therapy in major depression

Serial 1-mg dexamethasone suppression tests with concurrent plasma dexamethasone assessments were conducted in 58 patients with endogenous depression treated with electroconvulsive therapy (ECT). Plasma cortisol levels decreased significantly from pretreatment to immediately posttreatment, and they declined further during the first week after the ECT course, when patients remained drug free. Plasma dexamethasone levels showed an opposite pattern of progressive increases over these three time points. The progressive changes in plasma dexamethasone and cortisol levels seen during the week after ECT indicate that alterations in the bioavailability of dexamethasone and in hypothalamic-pituitary-adrenal axis function may be incomplete immediately after the ECT course. This may partly account for previous inconsistencies in serial dexamethasone suppression test findings with this treatment modality. The major finding was that clinical response was associated with increased plasma dexamethasone levels, whereas changes in cortisol levels were independent of clinical outcome. With ECT, changes in plasma dexamethasone levels may be more related to changes in clinical state than changes in postdexamethasone cortisol levels. The extent to which clinical recovery with other treatments in depression is associated with altered bioavailability of dexamethasone and perhaps other compounds is unknown and in need of investigation.     

Cortisol, ACTH, and beta-endorphin after dexamethasone administration in Parkinson's dementia

The dexamethasone suppression test (DST) has been suggested as an effective tool for differentiating between depression and dementia. After administering 1 mg dexamethasone, we measured cortisol, ACTH, and beta-endorphin levels in 32 nondepressed patients with idiopathic Parkinson's disease (PD) (14 also with dementia) and 20 healthy, age-matched controls. Four of the 20 controls, 9 of the 18 with PD alone, and 8 of the 14 with PD and dementia were dexamethasone nonsuppressors (cortisol value greater than or equal to 5 micrograms/100 ml). PD patients without dementia (nonsuppressors) showed higher basal plasma values of cortisol (22.06 +/- 5.30 micrograms/100 ml) compared with the suppressors (13.38 +/- 3.30 micrograms/100 ml). Plasma ACTH and beta-endorphin responded in a coupled way to dexamethasone challenge. Higher basal levels of both peptides were found among PD patients (demented and nondemented), nonresponders to DST. Thus, the DST does not appear to be effective in differentiating between depression and dementia in PD. In addition, PD nonsuppressors showed higher basal values of plasma ACTH, beta-endorphin, and cortisol (similar to patients with major depression). This suggests that although the depression is clinically undetectable, both disorders may share some pathophysiological features at the hypothalamic hypophyseal adrenal level.