Plasma aldosterone and corticosterone responses to adrenocorticotropin, angiotensin, potassium, and stress in spontaneously hypertensive rats

The responses of plasma aldosterone and corticosterone to ACTH, angiotensin II (AII), and potassium chloride (KCl) infusion and the aldosterone, corticosterone and PRA responses to immobilization stress were studied in 2-month-old spontaneously hypertensive rats (SHR) and age-matched Wistar-Kyoto (WKY) normotensive controls. Basal levels of plasma aldosterone and corticosterone were greater and PRA was less in the SHR than in the WKY. Aldosterone and corticosterone responses to graded AII were similar in both groups. Aldosterone and corticosterone responses to graded doses of KCl and ACTH, however, were significantly greater in SHR than in WKY normotensive rats. Plasma corticosterone, PRA, and aldosterone responses to immobilization stress were reduced in SHR compared to WKY. At 2 months of age, blood pressure was definitely elevated in SHR and was associated with low PRA and relatively high basal levels of aldosterone and corticosterone. Discordance between the renin-angiotensin system and mineralocorticoid secretion in the SHR may be due to enhanced adrenal sensitivity to factors such as ACTH and potassium. Suppressed PRA in SHR may be due, in part, to increased mineralocorticoid secretion, resulting in sodium retention and intravascular volume expansion.     

LIMITED ADRENAL RESERVE IN PARACOCCIDIOIDOMYCOSIS: CORTISOL AND ALDOSTERONE RESPONSES TO 1–24 ACTH

Adrenal function in twenty-three patients with paracoccidioidomycosis (South American Blastomycosis) has been assessed by measuring the response to adrenocortical stimulation with 1-24 ACTH. Two patients with overt Addison's disease showed very low basal levels and the complete absence of an increase in either cortisol or aldosterone secretion. Six patients showed probable diminished adrenal reserve in terms of cortisol and three patients showed diminished reserve in terms of aldosterone function. These findings indicate an incidence of significant hypoadrenalism in 44% of hospitalized patients with disseminated paracoccidioidomycosis.     

Effects of high-dose ketoconazole and dexamethasone on ACTH-stimulated adrenal steroidogenesis in orchiectomized prostatic cancer patients

The effects of high-dose ketoconazole (i.e. 400 mg every 8 h) therapy on adrenal steroidogenesis were investigated in 7 patients with advanced prostatic cancer who no longer responded to orchiectomy. An ACTH challenge was performed before and on days 14 and 28 of high-dose ketoconazole treatment. During the last 14 days, dexamethasone (0.5 mg twice daily) was administered together with ketoconazole. High-dose ketoconazole alone lowered the basal levels of the androgens by 49-66%. It almost completely inhibited their stimulation by ACTH, whereas plasma progesterone was doubled. Basal cortisol was only slightly lowered, but the response to ACTH stimulation was markedly blunted. Basal and stimulated plasma aldosterone remained unaffected. Both basal and stimulated 11-deoxycortisol, 11-deoxycorticosterone, and, to a lesser extent, corticosterone rose more markedly after ketoconazole than after placebo. The basal and stimulated plasma adrenal androgen levels were further reduced after combined ketoconazole-dexamethasone treatment, whereas plasma corticosterone, 11-deoxycortisol, and 11-deoxycorticosterone were lowered in the same way as cortisol. Aldosterone and progesterone profiles were similar to those observed under high-dose ketoconazole, but plasma 17 alpha-hydroxyprogesterone increased more markedly than after high-dose ketoconazole alone. These results demonstrate that high-dose ketoconazole lowers plasma androgen levels in orchiectomized patients and partly inhibits the gluco- and mineralocorticoid syntheses, especially after ACTH-stimulation. The addition of dexamethasone does not only correct the possible consequence of the impairment of the cortisol production by high-dose ketoconazole, but it further reduces the androgen levels and lowers the plasma concentrations of most precursors, for instance 11-deoxycorticosterone, which has some physiological mineralocorticoid activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Diagnosis and therapy surveillance in Addison's disease: rapid adrenocorticotropin (ACTH) test and measurement of plasma ACTH, renin activity, and aldosterone.

The rapid ACTH injection test is an indirect screening test for adrenocortical insufficiency. As a supplement to this test, we evaluated the practicability of single measurements of plasma cortisol, ACTH, aldosterone, and PRA as a definitive diagnostic test of primary adrenocortical insufficiency (PAI). We also tested the value of PRA measurements during treatment with hydro- and fludrocortisone (HC and FC) as a guide for correct mineralocorticoid substitution. In 45 patients with PAI, results of the rapid ACTH test and single measurements of the four hormones (all tests between 0800-0900 h) were compared. Single hormone measurements were also made in 55 normal subjects and 46 patients with pituitary disease (cortisol and ACTH only), most of them with mild to severe secondary adrenocortical insufficiency (SAI). The rapid ACTH test was abnormal in 100% of 41 patients with PAI tested. Plasma ACTH, PRA, and the ratios of ACTH/cortisol and PRA/plasma or urinary aldosterone were clearly elevated in 100% of the patients with PAI. The ACTH/cortisol ratio also distinguished 100% of patients with PAI from those with SAI, but not always control subjects from those with SAI. Thus, dynamic tests (CRH or insulin tests) are indicated if SAI is suspected. PAI and involvement of zona fasciculata and glomerulosa function can be diagnosed with high reliability by measuring cortisol, ACTH, aldosterone, and PRA either together with the rapid ACTH test or later, after a short interval of steroid substitution. PRA measurements during treatment with HC and FC correlated better with the mineralocorticoid dose than plasma potassium and sodium levels. PRA measurement is a valuable guide for FC replacement therapy. It should be titrated into the upper normal range to avoid under- and overtreatment.     

Computed tomography and ultrasonography of the adrenal glands in paracoccidioidomycosis. Comparison with cortisol and aldosterone responses to ACTH stimulation

Fifteen patients with proven disseminated paracoccidioidomycosis (PCM) had computed tomography (CT) and ultrasonography (US) performed to evaluate the form, shape, density and size of their adrenal glands. Plasma and urinary cortisol were determined and adrenal reserve assessed by measuring the cortisol and aldosterone responses to synthetic ACTH. The adrenal CT showed unilateral lesions in two cases and bilateral in another four. The US study showed more frequent alterations, unilateral in seven and bilateral in three subjects. Combining both methods increased the sensitivity to 85% of the cases. All patients had normal plasma cortisol concentrations and normal or increased urinary cortisol excretion. Plasma aldosterone concentration was also normal except in one patient with hypokalemia. Seven patients showed diminished cortisol responses, five had subnormal aldosterone responses and in five plasma aldosterone concentration increased more than normally after stimulation by ACTH. There was an incidence of limited adrenal reserve in 53% of the patients on ACTH stimulation. No correlation was evident between the disorders in adrenal steroid responses to ACTH and changes in morphology revealed by CT and/or US.     

Response of plasma ACTH and adrenocortical hormones to potassium loading in essential hypertension

The effect of potassium loading on plasma adrenocortical hormones concentrations in 9 patients with essential hypertension (EH) was investigated. The plasma renin activity (PRA), plasma concentrations of growth hormone (GH), ACTH, cortisol, deoxycorticosterone (DOC), 18-hydroxy-deoxycorticosterone (18-OH-DOC) and aldosterone, and serum electrolytes were measured before and after potassium chloride (KC1) infusion (0.33 mEq/kg/h, for one hour). The KC1 infusion caused significant increases in serum potassium levels and plasma levels of GH, ACTH, cortisol, DOC, 18-OH-DOC and aldosterone, while PRA remained unchanged. Regression analysis at 30 min revealed significant positive correlations between delta ACTH and delta cortisol, between delta ACTH and delta DOC, between delta ACTH and delta 18-OH-DOC. However, the relationship between delta ACTH and delta aldosterone was not statistically significant. These results suggest that (1) acute potassium loading causes a significant increase in the plasma ACTH level and increased levels of adrenocortical hormones may be produced by increased ACTH secretion, and (2) it may be considered that a part of the increased level of plasma aldosterone following acute potassium loading may arise from increased ACTH secretion in EH.     

17-alpha-hydroxylase deficiency in three siblings: short- and long-term studies.

We have studied a family (12 members) with 3 patients (2 adult females and 1 pubertal-aged genotypic male) affected by congenital adrenal hyperplasia due to 17-alpha-hydroxylase deficiency, all of whom presented as phenotypically female subjects with lack of sexual development and with hypokalemic hypertension. The baseline hormonal pattern revealed low glucocorticoid levels (17-hydroxyprogesterone, plasma and urinary cortisol, cortisol secretion rate), as well as androgen (testosterone and dehydroepiandrosterone sulfate) and estrogen (17-beta-estradiol) levels, since the defect is present at both adrenal and gonadal levels. As a consequence ACTH, LH, and FSH concentrations were high. Otherwise steroids not requiring 17-alpha-hydroxylation, such as deoxycorticosterone, corticosterone and their 18-hydroxylated compounds, were secreted in excess with the exception of aldosterone whose levels were undetectable; baseline plasma renin activity levels were suppressed. Short-term dexamethasone treatment normalized potassium and reduced blood pressure and the abnormal mineralocorticoid levels. During chronic ACTH suppression with low doses of glucocorticoids (8 years), electrolyte disturbances were corrected, blood pressure was normalized in 2 cases but only reduced in the third; plasma renin activity returned to normal range within four years in all the patients, while urinary aldosterone was normalized only after 8 years of therapy and became partially responsive to posture, ACTH, angiotensin II, and furosemide. The other mineralocorticoids were reduced but remained above the normal range. The HLA-genotyping in all the family members revealed that the gene responsible for 17-alpha-hydroxylase deficiency was not linked to the HLA system. Measurement of plasma steroids (deoxycorticosterone, corticosterone, aldosterone) in this family revealed that the heterozygotes were different from the control population only in their ACTH-stimulated corticosterone levels.     

The Assessment of the Hypothalamic-Pituitary-Adrenal Axis After Oncological Treatment in Pediatric Patients with Acute Lymphoblastic Leukemia

Objective:Oncologic treatment can affect the adrenal glands, which in stressful situations may lead to life threatening adrenal crisis. The aim of the study was to assess adrenal function in pediatric acute lymphoblastic leukemia (ALL) survivors and to identify the best markers for this assessment.Methods:Forty-three ALL survivors, mean age 8.5±3.6 years and 45 age and sex-matched healthy controls were recruited to the study. ALL patients were assessed once within five years following oncological treatment completion. Fasting blood samples were collected from all participants to measure: fasting blood glucose (FBG); cortisol; aldosterone; plasma renin activity (PRA); dehydroepiandrostendione-sulfate (DHEA-S); and adrenocorticotropic hormone (ACTH). Moreover, diurnal profile of cortisol levels and 24-hour urinary free cortisol (UFC) were assessed. ALL survivors underwent a test with 1 ug of synthetic ACTH.Results:The study revealed lower level of PRA (1.94±0.98 ng/mL/h vs 3.61±4.85 ng/mL/h, p=0.029) and higher FBG (4.6±0.38 mmol/L vs 4.41±0.39 mmol/L, p=0.018) in the ALL group compared to controls. UFC correlated with evening cortisol (p=0.015, r=0.26), midnight cortisol (p=0.002, r=0.33), and DHEA-S (p=0.004, r=0.32). UFC also correlated with systolic and diastolic blood pressure (p=0.033, r=0.23 and p=0.005, r=0.31, respectively). The ACTH test confirmed impaired adrenal function in 4/43 ALL survivors (9%). Two of the patients who needed permanent hydrocortisone replacement had low UFC, midnight cortisol and DHEA-S levels.Conclusion:These results highlight the importance of reviewing adrenal gland functionality after chemo/radiotherapy in ALL survivors. DHEA-S proved to be a good marker to assess the adrenal glands after oncological therapy. Post-treatment disturbances of the adrenal axis could be associated with metabolic complications.     

Adrenocortical responsiveness to graded ACTH infusions in normal young and elderly human subjects

The responses of plasma cortisol, aldosterone, dehydroepiandrosterone (DHEA) and dehydroepiandrosterone sulfate (DHEA-S) to graded ACTH infusions (from 50 mU/h to 1,000 mU/h) in elderly subjects were compared with those in young subjects. There were no significant differences between young and elderly subjects in terms of the levels of plasma cortisol during ACTH infusion. The increment in median serum cortisol increase observed in elderly subjects was also equal to that found in young subjects. Plasma aldosterone concentration showed a gradual increase in response to ACTH infusion in both young and elderly individuals. There was no significant difference between the response of young and aged subjects. Significant increases in serum DHEA in response to ACTH infusion were observed in both young and aged individuals, however, the median increase of serum DHEA (delta DHEA) in the elderly subjects was markedly lower than that in the young ones. Serum DHEA-S concentrations prior to ACTH infusion were significantly lower in the elderly subjects. With graded infusions of ACTH, plasma DHEA-S concentrations in young subjects tended to increase gradually, whereas there was no significant increase in plasma DHEA-S concentrations in the elderly. These results are indicative that the responses of adrenal androgens in elderly subjects to small, graded doses of ACTH infusion are preferentially impaired; however, the responses of cortisol and aldosterone are well maintained.     

Dissociation of cortisol and adrenal androgen secretion in patients with secondary adrenal insufficiency.

Plasma cortisol, dehydroepiandrosterone (DHA), dehydroepiandrosterone sulfate (DHAS), and androstenedione (delta4-A) were measured by RIA during ACTH infusion in preadrenarchal children with constitutional short stature, normal adults, and patients with secondary adrenal insufficiency resulting from hypothalamic-pituitary disease or corticosteroid therapy. The plasma levels of all four steroids were decreased in patients with secondary adrenal insufficiency compared to normal adults, but the decrease in DHA and DHAS was considerably greater than that in cortisol and delta4-A, resulting in significant decreases in the plasma ratios of DHA to cortisol, DHAS to cortisol, DHA to delta4-A, and DHAS to delta4-A (P less than 0.00001). The decreased DHA and DHAS responses to ACTH persisted in one glucocorticoid-treated patient after glucocorticoid therapy was terminated and the cortisol response to ACTH had normalized. The data suggest that adrenal atrophy due to hypothalamic-pituitary disease or corticosteroid therapy is associated with a greater impairment in the secretion of the delta5 adrenal androgens DHA and DHAS than in the secretion of cortisol and delta4-A, and that the capacity to secrete cortisol and delta4-A recovers more rapidly than the capacity to secrete the delta5 adrenal androgens when corticosteroid therapy is withdrawn.     

The dissociation of renin and aldosterone during critical illness

A syndrome of elevated PRA accompanied by inappropriately low plasma aldosterone (ALDO) levels has been identified in some critically ill patients. To determine whether this phenomenon is due to a disturbance in factors that stimulate ALDO, we measured PRA, angiotensin II (AII), potassium (K+), and ACTH levels in 83 patients admitted to an intensive care unit. In 59 patients, PRA was greater than 2.0 ng/ml X h. Of these, 24 had an ALDO to PRA ratio (ALDO/PRA) below 2 (group I), and 35 had an ALDO/PRA ratio of 2 or more (group II). An ALDO/PRA ratio below 2 was deemed inappropriately low. Despite markedly elevated PRA [34 +/- 12 (+/- SE) ng/ml X h], the group I patients had inappropriately low ALDO levels (19 +/- 5 ng/dL). Patients in group II had significantly higher ALDO levels (48 +/- 6 ng/dL) despite lower PRA (9 +/- 1 ng/ml X h). AII levels were appropriately elevated in group I (39 +/- 26 pg/mL) and significantly greater (P less than 0.5) than those in group II. PRA correlated well with AII in both groups. There were no differences in plasma ACTH or K+ in these 2 groups, and plasma cortisol levels were similarly elevated in both groups of patients. Of 66 consecutively studied patients, 14 (21%) had inappropriate ALDO (group I). Mortality was significantly greater in group I (75%) than in group II (46%; P less than 0.001). In summary, a significant subset (21%) of seriously ill patients have inappropriately low ALDO levels despite elevated PRA. This dissociation is not due to an impairment of AII production or changes in plasma ACTH or K+. This phenomenon is associated with a higher mortality during critical illness. In light of evidence of decreased adrenal androgen secretion during severe illness, this dissociation of renin and aldosterone may represent an additional adrenal adaptation designed to promote cortisol production in critically ill patients.     

EFFECTS OF NALOXONE ON THE PITUITARY-ADRENAL AXIS IN PATIENTS WITH DEXAMETHASONE-SUPPRESSIBLE HYPERALDOSTERONISM

Endogenous opioids may normally modulate the function of the hypothalamo-pituitary-adrenal axis. We investigated whether opioid peptides play any role on aldosterone secretion in dexamethasone-suppressible hyperaldosteronism (DSH). Clinical and hormonal effects of i.v. administration of naloxone (10 mg as a bolus) in two siblings affected by this disease and in eight normal volunteers were studied. In normals, naloxone caused a significant increase in plasma cortisol compared with placebo, an insignificant increase in ACTH and no change in plasma renin activity (PRA) and aldosterone level. In DSH patients there was a slight increase in plasma cortisol, no change in PRA and a marked rise of aldosterone level. In five normals retested after dexamethasone 2 mg, baseline ACTH and cortisol were reduced and no response to naloxone was observed compared to naloxone alone. After dexamethasone, aldosterone levels were suppressed in DSH patients and unchanged in normals, and did not respond to naloxone in any case. In conclusion, naloxone may increase the responsiveness of adrenal zona fasciculata to physiological levels of ACTH in normals, since the slight increase in ACTH seems inadequate to explain per se the marked cortisol elevation. The marked aldosterone rise after naloxone indicates an underlying adrenal rather than pituitary abnormality in patients with DSH, and possibly implicates endogenous opioids.     

Adrenal androgen response to metyrapone, adrenocorticotropin, and corticotropin-releasing hormone stimulation in children with hypopituitarism

We determined the adrenal steroid responses to metyrapone, ACTH, and CRH in 12 ACTH-intact and 5 ACTH-deficient hypopituitary children to determine the mechanisms that control adrenal androgen secretion. Serum adrenal androgen concentrations [dehydroepiandrosterone (DHEA) and delta 4-androstenedione (delta 4-A)] rose in response to oral administration of metyrapone (450 mg/m2 X dose, every h for 7 doses) in ACTH-intact hypopituitary children with multiple or isolated pituitary hormone deficiencies [mean postmaryrapone level: DHEA, 225 ng/dL (range, 27-566); delta 4-A, 313 ng/dL (range, 105-651)], except in 2 young children in whom DHEA did not rise. These adrenal androgens did not rise in all ACTH-deficient hypopituitary children [mean postmetyrapone level: DHEA, 11.0 ng/dL (range, 3-16); delta 4-A, 6.2 ng/dL (range, 3-10)]. The increases in both serum cortisol and adrenal androgens, including DHEA sulfate, in response to short term ACTH infusion (40 U in 6 h) in ACTH-intact hypopituitary children were normal or above normal, while these steroid responses were significantly (P less than 0.05-0.01) lower in ACTH-deficient hypopituitary children compared to normal values. However, prolonged administration of ACTH (40 U/day, or im) for 6 days to 2 ACTH-deficient hypopituitary children resulted in normal DHEA responses to the 6-h ACTH stimulation test (DHEA levels after the first test, 14 and 30 ng/dL, after priming, 80 and 50 ng/dL). Furthermore, CRH administration to 4 ACTH-deficient patients caused a rise in serum DHEA and cortisol in patients with a normal ACTH response, while those with a poor ACTH response had a lesser rise in DHEA and cortisol. These data suggest that ACTH is the major tropic hormone for adrenal androgen secretion.     

Circadian variations in plasma levels of hypophyseal, adrenocortical and testicular hormones in men infected with human immunodeficiency virus

Alterations in the circadian time structure of the secretion of several hormones were investigated in 13 male patients infected with human immunodeficiency virus (HIV). Seven were asymptomatic (classified CDC II, according to the criteria of the Atlanta Centers for Disease Control), and 6 had acquired immunodeficiency syndrome (CDC IV). Ten healthy males volunteered as controls. Plasma levels of dehydroepiandrosterone (DHEA) and its sulfate (DHEA-S), cortisol, testosterone, ACTH, and beta-endorphin were determined by RIA in blood samples obtained every 4 h from 0830-0830 h the next morning. Data were analyzed both by two-way analysis of variance and the cosinor method. Circadian rhythms were statistically validated for each of the six hormones in each of the three groups of subjects. Compared with the control subjects, mesors (24-h adjusted means) were significantly higher for cortisol and lower for DHEA, DHEA-S, and ACTH (P less than 0.001 for all four hormones) in all HIV-infected patients. Plasma testosterone mesors were similar in controls and CDC II patients, but decreased significantly in the CDC IV patient group (P less than 0.05). Analysis of the circadian rhythms of plasma hormone levels clearly indicated an altered adrenal hormonal state in HIV-infected male patients, even during the asymptomatic period of the infection. For instance, plasma cortisol at 0430 h was more than twice as high in HIV-infected patients as it was in time-qualified controls. Although patients already had elevated plasma cortisol and lowered adrenal androgen levels at this stage, hypogonadism was not observed, as gauged by plasma testosterone concentrations. We speculate that the primary hormonal defect in HIV-infected patients is increased cortisol secretion resulting from circadian-varying stimulation of the adrenal cortex by a factor other than pituitary ACTH. This factor might be a stimulating substance secreted primarily by infected immune cells. Excess cortisol would lower adrenal androgen secretion by shifting adrenal steroid biosynthesis toward glucocorticoids and decreasing pituitary ACTH secretion via a negative feedback mechanism.     

Acute effect of captopril on aldosterone secretory responses to endogenous or exogenous adrenocorticotropin

The aldosterone secretory response to Captopril (12.5 mg, orally) was studied in five normal men. Endogenous ACTH and epinephrine secretion was stimulated by the induction of hypoglycemia. Normally this stimulus increases plasma cortisol, GH, aldosterone, and PRA. Administration of captopril resulted in a blunted plasma aldosterone response to hypoglycemia, but no concomitant blunting of the plasma cortisol response. The responses of other hormones, with the exception of PRA, were not affected. When exogenous ACTH was administered to the same men with and without captopril, the plasma aldosterone response was again blunted by captopril, while the plasma cortisol response was unaffected. We conclude that angiotensin II may be required for ACTH to stimulate aldosterone secretion. Alternatively, the possibility that captopril may selectively inhibit aldosterone secretion at the adrenal cellular level cannot be excluded.     

Human fetal adrenal definitive and fetal zone metabolism of pregnenolone and corticosterone: alternate biosynthetic pathways and absence of detectable aldosterone synthesis

In the rhesus monkey and ovine fetus in utero, aldosterone concentrations do not rise in response to surgical stress, ACTH, or angiotensin-II, all of which are secretagogues for this mineralocorticoid in the adult. To assess the mechanism of this phenomenon in the human fetus, metabolism of pregnenolone and corticosterone by second trimester human fetal adrenal definitive zone and fetal zone tissue was studied. After incubation of fresh tissue with trace amounts of [3H]pregnenolone or [3H]corticosterone, the products of metabolism were separated using high performance liquid chromatography and quantified. The delta 5-3 beta-hydroxysteroids 17-hydroxypregnenolone and dehydroepiandrosterone and their sulfates comprised 85-90% of metabolized pregnenolone. In the fetal zone, cortisol was the predominant secreted delta 4-3-ketosteroid, accounting for 6-8% of the metabolized pregnenolone. In the definitive zone, progesterone and corticosterone were the predominant secreted delta 4-3-ketosteroids, each accounting for about 2% of the metabolized pregnenolone. 11-Dehydrocorticosterone and sulfates were the only metabolites detected after incubation of fetal adrenal tissue with corticosterone. 11-Dehydrocorticosterone accounted for more than 80% of the metabolized corticosterone in the definitive zone and 50% in the fetal zone. Incubations with secretagogues or antioxidants (10 nmol/L ACTH, 10 nmol/L angiotensin-II, 21 mmol/L potassium, 100 mmol/L dimethylsulfoxide, 5 mumol/L metyrapone, or 100 mumol/L butylated hydroxyanisole) did not change the pattern or extent of precursor metabolism. No aldosterone, 18-hydroxycorticosterone, or 18-hydroxydeoxycorticosterone was detected in baseline or stimulated incubations of human fetal tissue. In contrast, adult human zona glomerulosa metabolized corticosterone to aldosterone, 18-hydroxycorticosterone, and 11-dehydrocorticosterone under similar conditions.(ABSTRACT TRUNCATED AT 250 WORDS)     

Adrenal function in 23 children with paracoccidioidomycosis

Adrenal involvement by Paracoccidioides brasiliensis was described at necropsies and in many clinical studies, but only in adults. Therefore, the aim of this study was to evaluate adrenal function in children with paracoccidioidomycosis. Twenty-three children with the systemic form of paracoccidioidomycosis were evaluated and divided in two Groups: Group A (n = 8) included children before treatment and Group B (n = 15) children after the end of treatment. Plasma cortisol (basal and after ACTH test), ACTH, renin activity, aldosterone, sodium and potassium were measured. They were within normal range in all cases, except for renin activity and aldosterone, which were elevated in some cases. Group A patients showed basal and post-ACTH cortisol levels significantly greater than Group B patients. The results showed that adrenal function was not compromised in these children with paracoccidioidomycosis.     

Dissociated recovery of cortisol and dehydroepiandrosterone sulphate after treatment for Cushing's syndrome.

We have studied the variation of ACTH, cortisol and DHEA-S plasma levels in 6 patients before and up to 15 months after surgical remission of Cushing's syndrome in order to compare the relative dependency of cortisol and adrenal androgens towards ACTH. Three patients with adrenal adenoma were treated by unilateral adrenalectomy. Three other patients with Cushing's disease underwent transsphenoidal pituitary tumorectomy. Preoperative ACTH was undetectable in patients with adrenal adenoma and high-normal or elevated in patients with Cushing's disease. All patients became rapidly hypocortisolemic after surgery and ACTH and cortisol levels eventually recovered at different intervals. Patients with adrenal adenoma had an initially low DHEA-S which failed to normalize for the entire follow-up period. Patients with Cushing's disease had normal or high-normal DHEA-S which became low immediately after surgery, following ACTH decrease, and it remained low during the entire follow-up period. In conclusion, after removal of corticotropic inhibition secondary to excess cortisol, DHEA-S remains suppressed for a longer period of time than cortisol. Moreover it only takes a short period of relatively low ACTH (after pituitary tumor excision) to induce a long lasting DHEA-S inhibition. Therefore the DHEA-S secreting adrenal cells seem to be more sensitive to the lack of corticotropic stimulation than cortisol secreting cells.     

A study on dehydroepiandrosterone sulfate in patients with essential hypertension

Alterations in the concentration of plasma dehydroepiandrosterone sulfate (DHEA-S) and cortisol in patients with essential hypertension (EH) were investigated. The subjects were 25 patients with EH: 7 of low plasma renin activity (PRA) group, 10 of normal PRA group and 8 of high PRA group; 7 normal subjects were used as the controls. Plasma DHEA-S and cortisol were measured before and after the following tests: (1) circadian rhythm (6:00, 16:00 and 24:00), (2) furosemide (0.7 mg/kg) test, (3) ACTH (12.5 IU/4 hr) infusion test, (4) dexamethasone (1.0 mg) test, (5) furosemide (0.7 mg/kg) test under dexamethasone (1.0 mg) treatment, (6) metopirone (1.5 g) test, (7) angiotensin II (8 ng/kg/min, 30 min) infusion test and (8) saline (1000 ml/hr) test. The alterations of the endogenous ACTH-adrenal hormone system as well as the renin-angiotensin-aldosterone system induced by these tests did not cause significant changes of plasma levels of DHEA-S in the 3 groups with EH. However, significant enhancement of plasma DHEA-S was observed after both the administration of exogenous ACTH and angiotensin II. It is considered that the responsiveness of DHEA-S to ACTH may increase in the low and normal PRA groups and that the responsiveness of DHEA-S to angiotensin II may increase in the high PRA group. Based on these results, it is suggested that plasma DHEA-S hardly or only partially participates as a causal factor of EH.     

Mineralocorticoid excess and inhibition of 11 β-hydroxysteroid dehydrogenase in patients with ectopic ACTH syndrome

OBJECTIVE: 11 beta-Hydroxysteroid dehydrogenase protects renal mineralocorticoid receptors from cortisol by converting cortisol to inactive cortisone. We hypothesize that 11 beta-dehydrogenase is inhibited by ACTH, providing a mechanism whereby cortisol induces hypokalaemic alkalosis in ectopic ACTH syndrome. DESIGN/MEASUREMENTS: The principal sources of plasma cortisone were assessed by selective venous catheterization with measurement of cortisol and cortisone by radioimmunoassays. The effect of ACTH on peripheral plasma cortisol/cortisone ratio was assessed in healthy volunteers during circadian rhythm, insulin induced hypoglycaemia, and infusions with exogenous ACTH or cortisol. In patients with Cushing's syndrome plasma cortisol/cortisone ratios were related to plasma potassium, corticosterone, and 11-deoxycorticosterone concentrations. PATIENTS: Catheterization was performed in 24 patients with valvular or ischaemic heart disease. Cushing's syndrome patients included: 15 with pituitary adenoma; two with adrenal adenoma; and nine with ectopic ACTH secretion. RESULTS: Plasma cortisol/cortisone ratios were low in renal vein and high in hepatic vein. In healthy volunteers plasma cortisone increased during cortisol infusion but did not change with increases in endogenous or exogenous ACTH. Plasma cortisol/cortisone ratios were higher in ectopic ACTH syndrome than in other forms of Cushing's syndrome. However, the cortisol/cortisone ratio was no better a predictor of hypokalaemia than the levels of 11-deoxycorticosterone or corticosterone. CONCLUSIONS: Peripheral conversion of cortisol to cortisone occurs mainly in the kidney and is inhibited by ACTH. In ectopic ACTH syndrome the characteristic mineralocorticoid excess can be accounted for by a combination of increased secretion of cortisol, corticosterone and of 11-deoxycorticosterone and decreased inactivation of cortisol and corticosterone by 11 beta-dehydrogenase.