Pitfalls in the Diagnosis of Central Adrenal Insufficiency in Children (original) (raw)
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Cortisol Levels in Central Adrenal Insufficiency: Light and Shade
Evaluating children or adolescents with central adrenal insufficiency (CAI) is a difficult task in clinical practice, especially in subjects with hypothalamic-pituitary diseases and partial ACTH deficiency, or in those with recent pituitary surgery or brain irradiation when the adrenal cortex may still be responsive to stress. In 2008, a meta-analysis reported a three-step approach for evaluating patients at risk for CAI with no acute illness. In particular, the authors recommended the evaluation of morning cortisol, a low dose ACTH test (LDST) and the “gold standard” insulin tolerance test or metyrapone test if the low LDCT was not diagnostic. Cortisol and ACTH secretion exhibit significant fluctuation throughout the day. The reference ranges supplied by labs are so wide that they only flag up extremely low cortisol levels. Interpreting the results correctly can be difficult for a physician without an experience in adrenal dysfunctions. The lack of uniformity in these cut-off levels could in part be attributed to differences in study populations, variability of dynamic tests, the use of different serum cortisol assays and dissimilar cut-off peak serum cortisol response indicative of a normal axis response and the difference in the clinical context in which the studies were done. Therefore, laboratories have to advertise the need to establish reference values for given populations, both for basal or stimulated hormone levels. Failure to apply this rule may elicit false-positive and more critically, falsenegative results. LDST (1 μg synthetic ACTH as iv bolus with measurement of serum cortisol) has been proposed as a sensitive test for the diagnosis of CAI. However, the advantage of LDST compared with the high dose test may be offset by the technical difficulties inherent to dilution of 250 μg ampoules. Clinical judgement remains imperative especially regarding the use of glucocorticoid supplementation during extreme stress.
Pediatric Adrenal Insufficiency: Challenges and Solutions
Therapeutics and Clinical Risk Management
Adrenal insufficiency is an insidious diagnosis that can be initially misdiagnosed as other life-threatening endocrine conditions, as well as sepsis, metabolic disorders, or cardiovascular disease. In newborns, cortisol deficiency causes delayed bile acid synthesis and transport maturation, determining prolonged cholestatic jaundice. Subclinical adrenal insufficiency is a particular challenge for a pediatric endocrinologist, representing the preclinical stage of acute adrenal insufficiency. Although often included in the extensive workup of an unwell child, a single cortisol value is usually difficult to interpret; therefore, in most cases, a dynamic test is required for diagnosis to assess the hypothalamic-pituitaryadrenal axis. Stimulation tests using corticotropin analogs are recommended as first-line for diagnosis. All patients with adrenal insufficiency need long-term glucocorticoid replacement therapy, and oral hydrocortisone is the first-choice replacement treatment in pediatric. However, children that experience low cortisol concentrations and symptoms of cortisol insufficiency can take advantage using a modified release hydrocortisone formulation. The acute adrenal crisis is a life-threatening condition in all ages, treatment is effective if administered promptly, and it must not be delayed for any reason.
European Journal of Endocrinology, 2005
Objectives: Patients with organic growth hormone deficiency (GHD) or with structural hypothalamicpituitary abnormalities may have additional anterior pituitary hormone deficits, and are at risk of developing complete or partial corticotropin (ACTH) deficiency. Evaluation of the integrity of the hypothalamic -pituitary -adrenal axis (HPA) is essential in these patients because, although clinically asymptomatic, their HPA cannot appropriately react to stressful stimuli with potentially life-threatening consequences. Design and methods: In this study we evaluated the integrity of the HPA in 24 patients (age 4.2 -31 years at the time of the study) with an established diagnosis of GHD and compared the reliability of the insulin tolerance test (ITT), short synacthen test (SST), low-dose SST (LDSST), and corticotropin releasing hormone (CRH) test in the diagnosis of adrenal insufficiency. Results: At a cortisol cut-off for a normal response of 550 nmol/l (20 mg/dl), the response to ITT was subnormal in 11 subjects, 6 with congenital and 5 with acquired GHD. Four patients had overt adrenal insufficiency, with morning cortisol concentrations ranging between 66.2 -135.2 nmol/l (2.4-4.9 mg/dl) and typical clinical symptoms and laboratory findings. In all these patients, a subnormal cortisol response to ITT was confirmed by LDSST and by CRH tests. SST failed to identify one of the patients as adrenal insufficient. In the seven asymptomatic patients with a subnormal cortisol response to ITT, the diagnosis of adrenal insufficiency was confirmed in one by LDSST, in none by SST, and in five by CRH tests. The five patients with a normal cortisol response to ITT exhibited a normal response also after LDSST and SST. Only two of them had a normal response after a CRH test. In the seven patients with asymptomatic adrenal insufficiency mean morning cortisol concentration was significantly higher than in the patients with overt adrenal insufficiency. ITT was contraindicated in eight patients, and none of them had clinical symptoms of overt adrenal insufficiency. One of these patients had a subnormal cortisol response to LDSST, SST, and CRH, and three exhibited a subnormal response to CRH but normal responses to LDSST and to SST. Conclusion: We conclude that none of these tests can be considered completely reliable for establishing or excluding the presence of secondary or tertiary adrenal insufficiency. Consequently, clinical judgment remains one of the most important issues for deciding which patients need assessment or re -assessment of adrenal function.
Tests of adrenal insufficiency
Archives of Disease in Childhood, 1999
Aim-In suspected adrenal insuYciency, the ideal test for assessing the hypothalamo-pituitary-adrenal axis is controversial. Therefore, three tests were compared in patients presenting with symptoms suggestive of adrenal insuYciency. Method-Responses to the standard short Synacthen test (SSST), the low dose Synacthen test (LDST), and the 08:00 hour serum cortisol concentration were measured in 32 patients. A normal response to the synacthen test was defined as a peak serum cortisol of > 500 nmol/l and/or incremental concentration of > 200 nmol/l. The sensitivity and specificity of the 08:00 hour serum cortisol concentration compared with other tests was calculated. Results-Three patients had neither an adequate peak nor increment after the SSST and LDST. All had a serum 08:00 hour cortisol concentration of < 200 nmol/l. Eight patients had abnormal responses by both criteria to the LDST but had normal responses to the SSST. Three reported amelioration of their symptoms on hydrocortisone replacement. Twenty one patients had a normal response to both tests (of these, 14 achieved adequate peak and increment after both tests and seven did not have an adequate peak after the LDST but had a normal increment). The lowest 08:00 hour serum cortisol concentration above which patients achieved normal responses to both the LDST and SSST was 500 nmol/l. At this cut oV value (compared with the LDST), the serum 08:00 hour cortisol concentration had a sensitivity of 100% but specificity was only 33%. Conclusion-The LDST revealed mild degrees of adrenal insuYciency not detected by the SSST. The value of a single 08:00 hour serum cortisol concentration is limited. (Arch Dis Child 1999;80:330-333)
Pediatric Endocrinology Diabetes and Metabolism, 2018
Approximately 30% of children with idiopathic growth hormone deficiency (IGHD) also suffer from other pituitary hormone deficiencies. Of children with IGHD, approximately 10% are unable to generate appropriate ACTH levels in response to stress. This study was prospectively designed to test the integrity of the adrenal axis in patients with an established diagnosis of IGHD using the glucagon stimulation test (GST). The study population comprised 39 patients with established childhood-onset IGHD. The diagnosis of GHD was established on the basis of failure of GH to increase over 10 ng/ml after two stimulation tests. The GST was performed by intramuscular injection of 1 mg glucagon. The criteria followed to define adrenal deficiency was cortisol less than 167 ng/l in response to GST. The mean peak blood glucose level was 8.64 ±1.71 mmol/l. Analysing the cohort using the cutoff of 167 ng/ml to define adrenal insufficiency under GST, there were 25.64% of children diagnosed: 20% among males and 35.7% among females. Subjects with GH and ACTH deficiency had a mean peak GH of 2.07 ±1.79 ng/ml-significantly lower than GH peak of children with IGHD alone (p < 0,001). The frequency of children with combined somatotroph and corticotroph deficiencies with a GH peak < 3 ng/ml was 21% (p < 0,001). The current study identified a prevalence of adrenal insufficiency of 25.64%, which could predict greater risk for children if untreated, especially because a substantial proportion of patients do not present clinical symptoms.
Frequency of hypoglycemia in children with adrenal insufficiency
Acta Endocrinologica, 1986
The frequency of hypoglycemia in 165 children with primary adrenal insufficiency, 118 of whom had Congenital Adrenal Hyperplasia and 47 Addison's Disease, was 18 %. Half of the hypoglycemic episodes occurred in the neonatal period. Hypoglycemia was isolated in 13 children, revealing the disease in 4 newborns with Congenital Adrenal Hypoplasia and in a boy with 11 B Hydroxylase deficiency. Basal plasma cortisol levels were significantly lower in those of subjects who experienced hypoglycemia ( 47.1 ± 28.6 ng/ml vs. 106.0 ± 86.6 ng/ml, p< 0.001). A significant correlation ( p < 0.001) was found between the plasma concentration of glucose and cortisol at time of hypoglycemia.
Journal of Endocrinology, 1998
The short cosyntropin (synthetic ACTH) test is recognized as the best screening manoeuvre in the assessment of adrenocortical insufficiency. Recent data, however, suggest that i.v. administration of 250 microg cosyntropin could be a pharmacological rather than a physiological stimulus, losing sensitivity for detecting adrenocortical failure. Our objective was to compare 10 vs 250 microg cosyntropin in order to find differences in serum cortisol peaks in healthy individuals, the adrenocortical response in a variety of hypothalamic-pituitary-adrenal axis disorders and the highest sensitivity and specificity serum cortisol cut-off point values. The subjects were 83 healthy people and 37 patients, the latter having Addison's disease (11), pituitary adenomas (7), Sheehan's syndrome (9) and recent use of glucocorticoid therapy (10). Forty-six healthy subjects and all patients underwent low- and standard-dose cosyntropin testing. In addition, 37 controls underwent the low-dose test...
The spectrum of pediatric adrenal insufficiency: insights from 34 years of experience
Journal of Pediatric Endocrinology and Metabolism, 2019
Background Adrenal insufficiency (AI) is a life-threatening disease characterized by deficient production of glucocorticoids and/or mineralocorticoids. It is caused by primary or secondary/tertiary adrenal failure. Prompt diagnosis and management are essential and may even be life-saving. Methods We retrospectively collected clinical, laboratory and radiological data from AI patients observed over 34 years (1984–2017) in a pediatric endocrinology department of a tertiary care hospital. Results Seventy AI patients were identified: 59% with primary adrenal insufficiency (PAI) and 41% with central adrenal insufficiency (CAI). PAI patients were diagnosed at 1.5 ± 4.4 years and followed for 11.6 ± 6.2 years; 85% had classical congenital adrenal hyperplasia (CAH) and 7% had autoimmune PAI. At presentation, 73% had hyponatremia and more than half had mucocutaneous hyperpigmentation, asthenia, anorexia, weight loss, nausea and vomiting. All the patients were treated with hydrocortisone and ...
Annals of Clinical Endocrinology and Metabolism
Background: The main cause of adrenal insufficiency (AI) in paediatric patients is prolonged treatment with corticosteroids. Determination of plasma cortisol (PC) during ACTH test is the most used adrenal function indicator in clinical practice. However, determination of salivary cortisol (SC), a simple test especially useful in children in order to avoid invasive procedures, can be used as an alternative technique for the diagnosis of adrenal disease. Methods: A two-year prospective study (January 2014-January 2016) in paediatric patients (2-18 years of age) treated with corticosteroids for more than fifteen days, who were investigated for suspected AI. Low-dose ACTH test was used to determine adrenal function and samples for SC and PC were obtained simultaneously in basal situation and during the test (at 30, 60 and 90 minutes). Results: 230 samples (118 PC-112 SC) of 30 studies belonging to 20 patients (4 males), mean age 10.93 years ± 3.69 SD. Pearson’s correlation coefficient s...