View clinical trials related to Adrenal Insufficiency.
Filter by:The aim is to investigate impact of exogenous estrogens on cotisol Levels during synacthen stimulation in female hypogonal patients on estrogen substitution. Both patients with and withour adrenal insufficiency will be studied
Eosinophilic esophagitis (EoE), a chronic inflammatory disease of the esophagus, is a clinical and financial burden to patients if left untreated. Often the natural history of the disease includes development of fibrosis and stricturing of the esophagus, acute food impactions, unplanned emergency room visits, and invasive procedures such as endoscopy. Currently there are no Food and Drug Administration (FDA) approved medications for the treatment of EoE. As such, pharmacologic options approved for use in asthma are used for treatment of EoE and include proton pump inhibitors and swallowed topical steroids. These medications are prescribed chronically as EoE is considered a lifelong disease. Chronic administration of exogenous steroids, when given in inhaled or systemic preparations, can lead to adrenal insufficiency (AI). AI is seen in 7.8% of patients receiving chronic inhaled steroids and 48.7% of patients receiving chronic systemic steroids. The administration of steroids in EoE is unique, as patients typically swallow topical preparations of the drug. The risk of secondary AI from taking swallowed topical steroids is currently unknown, as there has been no study in an adult population assessing this risk as a primary endpoint. Pediatric studies of patients with EoE have shown the risk of AI from swallowed topical steroids to be 5-10%. Based on the risk of AI with inhaled steroids (7.8% prevalence) and the prevalence of AI from swallowed topical steroids in pediatric populations (5-10%), we hypothesize that the risk with swallowed topical steroids is >5%. This could warrant consideration of screening given the potentially serious consequences of undiagnosed AI. To address this hypothesis, this project aims to define the prevalence of developing AI in adults with EoE taking swallowed topical steroids and compare that prevalence to a similar control population of adults with EoE who are taking proton pump inhibitors.
This study is a double-blind, double-dummy, two-way cross-over, randomised, Phase II study to be conducted at approximately 6 investigational sites in 2 countries. The study will compare the efficacy, safety and tolerability of twice daily Chronocort, a modified-release hydrocortisone, with once daily Plenadren, a modified-release hydrocortisone, over a treatment period of up to 2 months in participants aged 18 years and over, diagnosed with primary Adrenal Insufficiency (AI).
Cortisol, a glucocorticoid (GC) hormone secreted from the adrenal glands, is essential for survival. Cortisol also possesses anti-inflammatory actions and GC formulations (prednisolone) are used to treat many inflammatory diseases and conditions. Indeed, three percent of the Danish population (≈ 180.000 individuals) redeems at least one prescription of synthetic GC per year and at least 20,000 patients annually discontinue GC treatment. Pharmacological GC therapy suppresses endogenous cortisol production and thereby induce relative adrenal insufficiency (GIA). The risk of GIA as determined by the adrenal corticotrophic hormone (ACTH) stimulation test has previously been reported to ≈ 25 %, but testing after GC treatment is not routinely performed. Indeed, we have new and unpublished but persuasive evidence to suggest that the risk of GIA after planned cessation of prednisolone treatment for polymyalgia rheumatic (PMR) or giant cell arteritis (GCA) is substantially lower, probably 2%. The reason for this discrepancy is undoubtedly selection bias in the previous publications and the use of inaccurate cortisol assays. At the same time, however, we observed that 25% exhibited pronounced symptoms of adrenal insufficiency based on a questionnaire specific for detecting symptoms of adrenal insufficiency, the so-called AddiQoL-30. Concomitantly, the basal cortisol levels in the same group were significantly lower as compared to the group, who exhibited milder or no symptoms attributable to adrenal insufficiency. This observation aligns with the clinical experience that PMR/GCA patients often complain of fatigue after planned cessation of prednisolone treatment. This often occurs in the absence of objective symptoms or signs of residual PMR/GCA disease activity. The scenario has been designated as "the steroid withdrawal syndrome". We argue, that this may represent a state of relative adrenal insufficiency prompted by long term, high dose prednisolone treatment. The proper way to tackle this clinical conundrum is to perform a proper randomized trial, which so far has not been conducted. Therefore, we will perform the first placebo-controlled randomised controlled trial (RCT) in patients with PMR and GCA after planned cessation of GC treatment. We argue that neither watchful waiting nor routine hydrocortisone replacement are infallible. Our study will be the first evidence-based guidance and aid to GIA patients and thus meet an important need for many thousand patients.
The purpose of this study is to determine the cortisol levels that most accurately diagnose a patient with adrenal insufficiency, a condition in which cortisol levels are too low for daily living.
The main focus of the study is the assessment of hormonal function in the course of COVID-19 infection with special regard for trends predicting clinical events defined as primary endpoints of the study.
In the year of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic several studies have focused on the effect of the COVID-19 on the adrenal cortex, demonstrating conflicting results. Herein, researchers sought to investigate the adrenal response in patients with COVID-19by assessing the diurnal rhythm of salivary cortisol and the adrenal androgen dehydroepiandrosterone (DHEA), as well as the plasma levels of aldosterone and adrenocorticotropic hormone (ACTH) in consecutive patients before the possible therapeutic administration of dexamethasone. To elucidate the potential association between the magnitude of individual immune response and the adrenal cortex response we included serum measurements of interleukin - 6 (IL-6).
The excess of glucocorticoid, whether endogenous or exogenous, results in Cushing's syndrome, associating a particular distribution of fats (accumulation in the face and trunk), a decrease in the thickness of the muscles, diabetes, hypertension or osteoporosis. The level of effects obviously depends on the extent of the excess glucocorticoids, and on the duration of this exposure. However, the manifestations of Cushing's syndrome also depend very much on the sensitivity of each individual to glucocorticoids for each of these conditions. Indeed, for the same duration and level of exposure, some will have diabetes only, others only osteoporosis, others hypertension, while still others will have these three complications. Today the investigators are unable to specify individual risks. For example, will someone develop diabetes when exposed to glucocorticoids? Or on the contrary will blood sugar level remain normal? The same question arises for hypertension and osteoporosis. The deficiency of glucocorticoid, called adrenal insufficiency, causes fatigue and discomfort. The intensity of the signs depends on the depth of the insufficiency. Here again, there is a large variability in the sensitivity of each individual to glucocorticoids: when one substitutes for adrenal insufficiency at a given dose, some individuals will feel well, while others will still remain tired. The investigators are unable to specify participant's individual requirement. The aim of this research is to identify factors that determine individual sensitivity to glucocorticoids. For excess glucocorticoids, the investigators are looking for specific molecular markers for each type of glucocorticoid complication: markers for corticosteroid-induced diabetes, corticosteroid-induced hypertension, or corticosteroid-induced osteoporosis. For adrenal insufficiency, they are also looking for substitute good balance markers for adrenal insufficiency. To answer the research question, it is planned to include 400 subjects exposed to glucocorticoid excess (by excess of endogenous glucocorticoids or induced by corticosteroid therapy) and 100 subjects with adrenal insufficiency. It is also planned to include 100 subjects without excess glucocorticoids but presenting either diabetes, hypertension or osteoporosis; these subjects will constitute a control group. The investigators will perform a very large number of measurements in small amounts of blood and urine, in order to identify a few marks specifically associated with each of the complications. This research will identify, for every person exposed to glucocorticoids, the probability of developping some complications, and reversely the probability of being exempt from other complications.
Introduction: The prevalence and clinical significance of central adrenal insufficiency (CAI) in adult patients with Prader Willi Syndrome (PWS) remains unclear. Aim: To assess the prevalence of CAI in adults with PWS and to analyse the effects of replacement therapy with hydrocortisone (HCT) in patients with suspected CAI. Material and Methods: Twenty one adult patients with PWS were evaluated. Based on peak cortisol at the 30 minute of the high dose short Synacthen test (HDSST), patients were divided into three groups: CAI (central adrenal insufficiency) - peak cortisol <500nmol/L, intermediate (partial AI) - peak cortisol ≥500 nmol/L and <600 nmol/L and AS (adrenal sufficiency) - peak cortisol ≥ 600 nmol/L. In patients with diagnosed CAI HCT replacement treatment was initiated. Body weight, body fat percentage, signs, and symptoms of CAI were evaluated after 6 and 12 months of treatment.
This study aims to define the prevalence and potential pathophysiologic mechanisms underlying relative adrenal insufficiency (RAI) in outpatients with decompensated cirrhosis. Patients will be followed prospectively for up to two years to determine incidence of RAI, whether RAI represents a permanent or dynamic physiologic state in cirrhosis, and to determine whether RAI in this setting is associated with important clinical outcomes.