The dexamethasone suppression test in depressed retarded adults: preliminary findings

This study was undertaken to determine the utility of the Dexamethasone Suppression Test (DST) for diagnosing depression in institutionalized mentally retarded persons. Depressed and nondepressed institutionalized mentally retarded persons were given 1 mg dexamethasone for an overnight DST. Serum cortisol concentrations greater than 4 micrograms/dl at both 8:00 AM and 4:00 PM provided discrimination of depressed from nondepressed groups. Also, using the criteria of serum cortisol concentrations greater than 4 micrograms/dl at 8:00 AM and 4:00 PM, at 4:00 PM and 10:00 PM, or at 8:00 AM, 4:00 PM, and 10:00 PM differentiated these groups. These results suggest that the DST may be useful for detecting melancholia among institutionalized retarded persons.     

Plasma dexamethasone concentrations and the dexamethasone suppression test

Altered bioavailability or altered pharmacokinetics of dexamethasone (dex) may contribute to a positive Dexamethasone Suppression Test (DST) in psychiatric patients. We measured plasma dex and plasma cortisol concentrations in 32 patients with primary major depressive disorder (MDD), 14 patients with other psychiatric disorders, and 16 normal controls. Cortisol was measured by the competitive protein binding (CPB) assay and dex by RIA (IgG Corp.). Additionally, cortisol was measured by a fluorescent polarization immunoassay (FPIA) available on the Abbott TDx analyzer in an attempt to validate this method for use in the DST. The agreement between FPIA and CPB cortisol results was excellent. Depressed nonsuppressors, by definition, had significantly higher mean plasma cortisol concentrations than depressed suppressors, psychiatric controls, and normal volunteers at 8:00 AM, 3:00 PM, and 10:00 PM postdex. When DST nonsuppressors and suppressors were compared regardless of diagnostic group, plasma dex concentrations were significantly lower (p less than 0.01) in the DST nonsuppressors. There was a significant negative correlation between plasma cortisol levels and plasma dex levels across all subjects at 8:00 AM (r = -0.365, n = 44, p less than 0.05). When the subjects were sorted by diagnostic category, there was a strong, but not statistically significant, trend toward lower plasma dex concentrations in the melancholic nonsuppressors versus the melancholic suppressors and between the psychiatric control non-suppressors and the corresponding suppressor group. These relationships disappeared when we restricted our analyses to an empirically derived middle range of plasma dex concentrations within which the DST results were considered to be valid. We conclude that bioavailability or pharmacokinetics of dex may significantly contribute to DST results. Further investigation is needed to determine whether or not the quantification of dex and its metabolites and their determination at which specific timepoints during the DST will enhance the predictive or interpretive value of the DST in psychiatric patients.     

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.     

Effect of high plasma dexamethasone levels on DST sensitivity: dose-response study in depressed patients and controls

The aim of this study was to examine cortisol dynamics over a range of plasma dexamethasone (DEX) levels using a two-dose dexamethasone suppression test (DST). Two doses of DEX (0.5 and 1.5 mg) were administered in a randomized crossover design to 29 inpatients with major depression and 26 controls to identify the upper range of plasma DEX levels that would allow reliable interpretation of DST results. It was hypothesized that due to inappropriately high plasma DEX levels following 1.5 mg, several depressed patients would switch from suppressors after the 1.5 mg dose to nonsuppressors after 0.5 mg. In contrast, the nondepressed controls with high DEX levels following 1.5 mg would remain suppressors after the lower dose. Fourteen patients were identified as having high 4 p.m. DEX levels (greater than 4 nmol/l) after the 1.5 mg DST. Cortisol was suppressed in all of the subjects with high DEX levels. After 0.5 mg, five of the eight depressed patients with high DEX levels switched to nonsuppressors. In contrast, all six controls with high DEX levels remained suppressors. These results indicate that patients with high DEX levels after a 1 mg DST should be retested with a lower dose. This strategy enhances the sensitivity of the DST without loss of specificity.     

Comparison of in vivo and in vitro glucocorticoid sensitivity in depression: relationship to the dexamethasone suppression test

The effect of in vivo (1 mg) and in vitro (10(-7)-10(-10) M) dexamethasone administration on mitogen-induced lymphocyte proliferation was examined in drug-free depressed patients, nondepressed psychiatric patients, as well as normal controls, and was related to the results of a standard overnight Dexamethasone Suppression Test (DST). The effect of oral dexamethasone administration was also examined for its effect on lymphocyte cytosolic glucocorticoid receptor content. Oral dexamethasone administration significantly decreased both phytohemagglutinin (PHA) and concanavalin A (Con-A) induced lymphocyte proliferation, as well as glucocorticoid receptor number in suppressors, whereas dexamethasone failed to decrease these responses in nonsuppressors. Nonsuppressors had significantly lower serum dexamethasone levels compared to suppressors at both 8:00 AM and 4:00 PM. However, when differences in serum dexamethasone levels were covaried out, there were still significant differences between suppressors and nonsuppressors on the dexamethasone-induced mitogen changes, but the changes in glucocorticoid receptor content were no longer significant. In vitro incubation of lymphocytes with dexamethasone produced a dose-related decrease in mitogenesis, which was not different between the depressed and nondepressed groups. However, at physiologically relevant concentrations of dexamethasone (10(-9)-10(-10) M), nonsuppressors as compared to suppressors were more resistant to the immunosuppressive effects of in vitro dexamethasone on the Con-A response. The inhibitory effect of in vitro dexamethasone on Con-A-stimulated lymphocytes was positively correlated with basal 4:00 PM cortisol values. In conclusion, in vitro techniques are useful probes to assess glucocorticoid sensitivity in depression. The present results also further support the hypothesis that glucocorticoid insensitivity is associated with DST nonsuppression.     

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.     

Use of the dexamethasone suppression test in an inpatient setting: a replication and new findings

The dexamethasone suppression test (DST) was administered to 131 depressed and 109 nondepressed psychiatric inpatients. The depressed patients were categorized according to DSM-III as minor depression, major depression without melancholia, and major depression with melancholia and/or with psychotic features. The nondepressed patients were stratified over several DSM-III subcategories. DST nonsuppression was nonspecific for major depression: the mean post-dexamethasone cortisol value and the number of nonsuppressors were not significantly different between the major depressives and the nondepressed psychiatric controls. Within the depressive sample the DST was a significant (p less than 0.01) discriminator between major and minor depression. Postdexamethasone plasma greater than or equal to 3.5 micrograms/dl at 0800h was the most sensitive (39%) and specific (94%) criterion; cortisol values at 1600h and 2300h showed no significant discriminating power for major vs. minor depression. The diagnostic utility of the DST thus appears to be limited to confirming the diagnosis of major depression, once the clinical diagnosis of depression is made. There was no significant influence of age or gender on postdexamethasone cortisol values.     

Urinary free cortisol levels and dexamethasone suppression testing in organic affective disorder associated with hyperthyroidism

Eleven of 32 newly diagnosed untreated patients with hyperthyroidism met DSM-III criteria for organic affective syndrome. Thirty of these patients submitted 24-hour urine specimens for measurement of urinary free cortisol levels, and 31 were given a 1-mg dexamethasone suppression test (DST) before antihyperthyroidism therapy was started. There was no difference in the mean +/- SD urinary free cortisol excretion levels between depressed and nondepressed hyperthyroid patients. One nondepressed patient demonstrated nonsuppression (greater than 5 micrograms/dl) at 8:00 a.m. These results suggest that cortisol abnormalities as reflected by urinary free cortisol levels and DST findings are uncommon in patients with hyperthyroidism whether they are depressed or nondepressed.     

Abnormal results of dexamethasone suppression tests in nondepressed patients with diabetes mellitus

To investigate the specificity of the dexamethasone suppression test (DST) for the diagnosis of major depression in patients with diabetes mellitus, we administered 1 mg of dexamethasone to 30 nondepressed diabetics and to 58 normal controls at 11 PM. Diabetic subjects received hemoglobin A1 (Hb A1) determinations, the Hamilton Rating Scale for Depression (HRSD), and five to eight blood glucose determinations during the 48 hours surrounding the DST. Results demonstrated a significantly higher rate of nonsuppression (plasma cortisol level, greater than or equal to 5 micrograms/dL) at 4 PM the following day among diabetics (43%) than among controls (7%) but no difference between these groups in the rate of nonsuppression at 8 AM. Plasma cortisol level at 4 PM correlated with Hb A1 level but not with duration of illness, HRSD score, mean blood glucose level, or maximum blood glucose excursion. These results suggest that the results of the DST used as a diagnostic test for major depression must be interpreted with caution in patients with diabetes.     

Multiple hormonal responses to morphine: relationship to diagnosis and dexamethasone suppression

Plasma cortisol, prolactin (PRL), growth hormone (GH), and thyroid stimulating hormone (TSH) responses to intravenous morphine (0.1 mg/kg body weight) were investigated in five healthy women and 22 female psychiatric inpatients (eight with major depression, 12 with schizophrenia and two with personality disorders) during a 120 min period. The results were also related to a subsequent dexamethasone suppression test (DST). Morphine caused a strong and progressive decline in plasma cortisol which was uniform in controls, depressed, and nondepressed patients. DST nonsuppressors had significantly higher cortisol levels during the entire period, but the same response to morphine. Morphine strongly stimulated PRL secretion, which was found to be significantly smaller in patients than in controls, but no difference was seen between depressed and nondepressed subjects. GH and TSH showed only minor and variable changes after morphine, with no overall significant differences. The data in this study do not support the assumption of a major alteration in opiate receptor responsivity either in depression or in DST nonsuppressor patients insofar as the regulation of the adrenal, thyroid, GH and PRL hormone secretion is concerned.     

抑郁症伴或不伴糖尿病患者过夜小剂量地塞米松抑制试验的对照研究

目的 探讨下丘脑-垂体-肾上腺轴(HPA)功能异常在抑郁症患者伴发的糖尿病发病机制中的意义.方法 首次诊断为糖尿病的抑郁症患者(病例组)、正常血糖稳态的抑郁症患者(对照组)各40例,于药物治疗前测定空腹血糖、糖负荷后2 h血糖,并行过夜小剂量(1 mg)地塞米松抑制试验.结果 (1)病例组抑制前8:00、16:00及...     

Effects of trauma exposure on the cortisol response to dexamethasone administration in PTSD and major depressive disorder

OBJECTIVE: To evaluate cortisol suppression following 0.5 mg of dexamethasone (DEX) in trauma survivors (N=52) with posttraumatic stress disorder (PTSD), major depressive disorder (MDD), both, or neither disorder, and in subjects never exposed to trauma (N=10), in order to examine interactions between diagnosis and trauma history on cortisol negative feedback inhibition. METHOD: Lifetime trauma exposure and psychiatric diagnoses were assessed and blood samples were obtained at 8:00 a.m. for the determination of baseline cortisol. Participants ingested 0.5 mg of DEX at 11:00 p.m. and blood samples for determination of cortisol and DEX were obtained at 8:00 a.m. the following day. RESULTS: PTSD was associated with enhanced cortisol suppression in response to DEX. Among trauma survivors, the presence of a traumatic event prior to the "focal" trauma had a substantial impact on cortisol suppression in subjects with MDD. Such subjects were more likely to show cortisol alterations similar to those associated with PTSD, whereas subjects with MDD with no prior trauma were more likely to show alterations in the opposite direction, i.e. relative non-suppression. CONCLUSIONS: Cortisol hypersuppression in PTSD appears not to be dependent on the presence of traumatic events prior to the focal trauma. However, prior trauma exposure may affect cortisol suppression in MDD. This finding may have implications for understanding why only some depressed patients show non-suppression on the DST.     

The dexamethasone suppression test in adolescent psychiatric patients

The authors administered a structured psychiatric interview, the Kiddie-SADS, and the dexamethasone suppression test (DST) to 42 adolescent psychiatric inpatients. Of the 26 adolescents diagnosed as depressed, nine (36.4%) failed to suppress cortisol, and of the 16 nondepressed adolescents, three (18.8%) also failed to suppress cortisol. There was no significant association between the diagnosis of depression and the failure to suppress cortisol during the DST. The use of the DST to diagnose endogenous major depressive illness in adolescents seems to be a premature clinical application of an important investigative finding.     

The cortisol and glucocorticoid receptor response to low dose dexamethasone administration in aging combat veterans and holocaust survivors with and without posttraumatic stress disorder.

BACKGROUND: Because alterations in cortisol negative feedback inhibition associated with aging are generally opposite of those observed in posttraumatic stress disorder (PTSD), we examined the cortisol and glucocorticoid receptor (GR) response to dexamethasone (DEX) in older trauma survivors.METHODS: Twenty-three Holocaust survivors (9 men, 14 women), 27 combat veterans (all male), and 10 comparison subjects (7 men, 3 women) provided samples for plasma or salivary cortisol and glucocorticoid receptor determination in mononuclear leukocytes at 8:00 AM on the day of, and following, 0.5 mg of DEX at 11:00 PM.RESULTS: Greater percent suppression of cortisol and lymphocyte GR was observed in older trauma survivors with PTSD compared to survivors without PTSD and comparison subjects. There was a significant main effect of depression in the direction of reduced suppression following DEX, consistent with the effects of DEX in major depressive disorder patients. Responses to DEX were uncorrelated with PTSD symptom severity, but cortisol suppression was associated with years elapsed since the most recent, but not focal, traumatic event.CONCLUSIONS: The response to DEX is generally similar in older and younger trauma survivors, but the findings suggest that age, symptom severity, and lifetime trauma exposure characteristics may influence this response.     

Platelet MAO activity and the cortisol response to dexamethasone in major depression

Previous studies have sometimes found a positive relationship between platelet monoamine oxidase (MAO) activity and dexamethasone nonsuppression in depressed patients. To assess this relationship in more detail, we examined the association between these two biological variables in unmedicated depressed patients. A positive correlation between platelet MAO activity and 8:00 AM serum cortisol levels following an overnight dexamethasone test (1 mg) was observed. The relationship between high and low platelet MAO activity (median split) and suppression of serum cortisol levels was also significant. These relationships were stronger in bipolar patients. Multiple regression revealed that postdexamethasone 8:00 AM dexamethasone levels and platelet MAO activity were independent predictors of the 8:00 AM cortisol levels following dexamethasone. The possibility that platelet MAO activity may be a peripheral marker of brain serotonergic activity which in turn may affect various aspects of the hypothalamo-pituitary-adrenal axis activity, is discussed. We also found that all nine depressed patients studied greater than or equal to 15 days after admission were suppressors. Platelet MAO activity, but not 8:00 AM pre- or postdexamethasone serum cortisol, was related to the severity of depression.     

A modified dexamethasone suppression test for endogenous depression

In order to simplify the dexamethasone suppression test (DST), we have administered a lower dosage of dexamethasone (DEX) and shortened the sampling time to a single morning blood sample. DEX (in dosage increments from 0.125 to 1.0 mg, p.o.) was administered at 2300 h to normal volunteers in a double-blind randomized fashion, and blood samples were taken at 0700 h the following morning. While significant cortisol suppression occurred after the 0.375 mg, 0.5 mg, and 1.0 mg doses of DEX, the 0.5 mg dose was the smallest that clearly suppressed cortisol in all eight subjects. This dose then was used to test the feedback sensitivity of the central nervous system (CNS)-pituitary-adrenal axis in endogenously depressed patients. Twenty endogenously depressed patients and 20 normal volunteers were given both the standard 1.0 mg DST, with post-DEX serum cortisol determined at 1500 h, and the simplified 0.5 mg DST, with post-DEX serum cortisol determined at 0700 h. Four patients (20%) and one control (5%) were nonsuppressors after the 1.0 mg DST, and nine patients (45%) and one control (5%) were nonsuppressors after the 0.5 mg DST. In addition, nine patients with major depression (nonendogenous subtype) and 15 patients with panic attacks also were studied using the 0.5 mg DST. Only 2 of these 24 patients (8%) were nonsuppressors. The results suggest that the single-sample 0.5 mg DST is more sensitive than the standard 1.0 mg DST, and the specificity of the modified test appears comparable to the standard form of the test.     

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.     

Psychopathology and plasma cortisol responses to dexamethasone in prepubertal psychiatric inpatients

This study of 51 prepubertal psychiatric inpatients evaluates plasma cortisol measurements at 8 AM, 4 PM, and 11 PM before and after dexamethasone was administered in counterbalanced order at doses of 0.5 mg and 1.0 mg. Approximately 76.5% of the children had an affective disorder. Major depressive disorder was associated with higher plasma cortisol levels than other disorders. Pre- and postdexamethasone plasma cortisol levels using 0.5 mg dexamethasone exhibited a circadian variation. The optimal criterion for cortisol nonsuppression was 5 micrograms/dl measured at 8 AM after administration of 0.5 mg dexamethasone.     

Anxiety and the dexamethasone suppression test monitored with saliva

To assess the effect of anxiety on response to the Dexamethasone Suppression Test (DST), cortisol concentrations were determined in patients who had various diagnoses, with anxiety as a secondary characteristic. Saliva was collected before and after venepuncture at 4:05 PM following completion of the Leeds Questionnaire at 3:00 PM. Matrix effects, which caused an initial artefactual decrease in cortisol levels in some saliva samples in patients with high anxiety, could be eliminated by repeated freezing/thawing. There was no significant difference between salivary cortisol concentrations before and after venepuncture, indicating that variability in response to the DST is not a correlate of anxiety and stressful venepuncture. There was no association between anxiety scores and plasma or salivary cortisol values: thus, anxiety is unlikely to be a major contributory cause of nonsuppression of hypercortisolemia in the DST.     

The dexamethasone suppression test: interaction of diagnosis, sex, and age in psychiatric inpatients

A group of 277 semiconsecutive psychiatric inpatients manifesting a depressive affect underwent an overnight 1 mg dexamethasone suppression test (DST) and a semistructured diagnostic interview according to DSM-III criteria. For major depressive syndromes (major depression with and without psychosis, bipolar depressed) the sensitivity of the DST was 63.9%, specificity 73.0%, and diagnostic confidence 72.3%. Additionally, a significant interaction between age and baseline cortisol values and nonsuppression rates was found in depressed males but not in nondepressed males nor in depressed and nondepressed females. The authors discuss the implications of these findings.