View clinical trials related to Adrenal Insufficiency.
Filter by:Background: - Congenital adrenal hyperplasia (CAH) is a genetic disorder of the adrenal gland. The adrenal gland is located in the abdomen and produces small amounts of hormones such as cortisol, aldosterone, and androgen. These hormones help control blood pressure, protect the body, and maintain good health, especially during development. People with CAH do not make enough cortisol and aldosterone, and make too much androgen. This can lead to serious medical problems. The standard treatment is to take pills that mimic the effects of cortisol and aldosterone. However, treatment with pills can have long-term side effects because of the higher doses needed, and may not work well for some people. - A possible new treatment for CAH is to use a pump to deliver cortisol under the skin. Similar pumps are often used to give insulin to people with diabetes. Researchers think that a cortisol pump might be able to help the body use the cortisol more effectively than taking pills. They want to compare the results of a cortisol pump and standard pill treatments for CAH. Objectives: - To compare the effectiveness of a cortisol pump with standard cortisol pill therapy for CAH. Eligibility: - Men and women at least 18 years of age who have CAH (see more details in Eligibility section below). Design: - This study will involve four inpatient hospital stays at the National Institutes of Health in Bethesda, MD over 6 months (spaced 2 months apart). The first and last stays will last about 5 days. The second and third stays will last about 3 days. - Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. - At the first study visit, participants will provide regular blood and urine samples. They will also have imaging studies. These studies will look at the bones, fat, and muscles in the abdomen and pelvis. - Participants will receive a cortisol pump during the first visit. They will be shown how to use the pump. They will also learn what to do, if they need to take extra "stress dose" cortisol pills. - At the second and third visits, the cortisol dose given with the pump will be adjusted as needed. Blood and urine samples will also be collected. No imaging studies are scheduled for these visits. - The last study visit will have the same tests as the first visit. Participants will be offered the chance to continue with the pump treatment for 1 more year, or go back to their standard pill treatment. Study type: Interventional non-randomized trial Official title: A Pilot Study Assessing the use of Continuous Subcutaneous Hydrocortisone Infusion In the Treatment of Congenital Adrenal Hyperplasia Estimated enrollment: 8 Study Start Date: May 2013 Estimated Study Completion Date: December 2016 Sponsoring Institute: National Institute of Child Health and Human Development <TAB>ELIGIBILITY Inclusion criteria 1. Men and women 18 years of age or older with classic congenital adrenal hyperplasia (21-Hydroxylase deficiency) 2. High adrenal androgens in the blood, and 3. One or more of the following conditions: obesity, fatty liver, risk for diabetes, low bone mass, inability to tolerate cortisol pills Exclusion criteria 1. Pregnancy 2. Breast feeding 3. Use of inhaled or oral steroids for diseases other than CAH 4. Use of estrogen-containing birth control pills 5. Use of medicines that cross-react with hydrocortisone 6. Use of stress dose steroids for illness during the last 30 days prior to joining the study
Cortisol is essential for survival. The importance of cortisol response is most apparent in patients with partial or complete deficiency of glucocorticoids during stressful events such as illness or surgery.
The purpose of this study is to gather safety and effectiveness information about a new formulation of Hydrocortisone (Chronocort®) used to treat patients with a disease called congenital adrenal hyperplasia (CAH). Hydrocortisone is the man-made version of the hormone cortisol, which is released in the body following a regular daily pattern. The objective of the study is to measure the levels of hydrocortisone that are absorbed into the bloodstream once Chronocort® is taken and what affects it has on other hormones in the body. Since Chronocort® is anticipated to mimic the same release pattern of cortisol in the body, it is hoped that patients with CAH will be treated more effectively to manage their disease.
The purpose of this study is to compare the efficacy and effects on the hypothalamus-pituitary-adrenal axis of a single intrabursal injection of two different types of corticosteroids (methylprednisolone and triamcinolone) in patients with calcific shoulder tendinopathy.
The aim of this study is to investigate whether a physiologically low hydrocortisone (HC) dose is better for cognition as compared to a physiologically high HC dose. In addition, quality of life, metabolic profile and somatosensation will be described in relation to HC dose.
Patients with adrenal insufficiency also exhibit an adrenomedullary dysfunction. Furthermore, patients who suffer from both, adrenal insufficiency and type I diabetes more frequently report hypoglycemia, particularly after strenuous activities. The study investigates the counter regulatory hormonal response to physical stress and the impact on cognitive function in subjects with and without Addison's disease, type I diabetes and healthy subjects.
Patients with chronic adrenal insufficiency need to adapt their hydrocortisone replacement dose in conditions of physical or psychological stress to prevent life threatening adrenal crisis. In cases of more severe impairment or unsecure gastrointestinal absorption (e.g. gastroenteritis, severe infectious disease), parenteral administration of the hydrocortisone dose is crucial. The study is conducted to offer patients the possibility to perform hydrocortisone self administration in emergency situations in a way of administration which is easy to perform and accepted by the patient. Therefore, pharmacokinetics and safety of subcutaneous hydrocortisone administration will be studied and compared to intramuscular administration.
The diagnosis of secondary AI is vital to prevent catastrophic events in patients. An optimal test should have a very low margin of error with high sensitivity and specificity, be easy and safe to administer, and have distinct cut off values. Both 1 ug and 250 ug doses have their limitations. Based on our experience over the past six years, we hypothesize that 25 ug ACTH stimulation test may eliminate some of the shortcomings of the LDST (1 ug) and SDST (250 ug). This is supported by our preliminary data and the study by Oelkers et al, which looked at ACTH levels following various doses of cortrosyn injections. Therefore we propose a head to head comparison of 25 ug, 250 ug and 1 ug dose using ITT as gold standard.
Autoimmune Addison's disease (AAD) is a rare and debilitating disease in which an autoimmune attack progressively destroys the adrenal cortex. Untreated it is universally fatal and treated people are absolutely dependent upon steroid medications lifelong, with a consequent excess in morbidity and mortality. A key feature of the adrenal cortex is that its cells are responsive to changes in circulating adrenocorticotrophic hormone (ACTH) concentration. This study aims to regenerate adrenocortical steroidogenic cell function in patients with established autoimmune Addison's disease (AAD) by stimulating proliferation and differentiation of their progenitor cells, the adrenocortical stem cells (ACSCs) (1,2). Using daily subcutaneous ACTH, administered according to two different regimens over 20 weeks, we will investigate whether regeneration of adrenal steroidogenic function through revival of ACSC activity is a realistic possibility.
Currently, it is unknown whether sedation itself induces a rise in serum cortisol levels or if cortisol levels rise under only the most invasive of procedures, regardless of the type of anesthetic agent used. Animal data shows significant alterations in steroid intermediates under anesthesia regardless of the procedure performed. Prior studies in children show general anesthesia and even epidural anesthesia can cause a rise in serum cortisol, but the effects of moderate and deep sedation on cortisol levels during different types of procedures are unknown. General medical practice varies considerably among providers; some provide stress dosing (extra and sometimes high doses of steroids) for sedation for both non-invasive and invasive procedures for patients with known adrenal insufficiency, but the doses given vary considerably. Others provide stress dosing only for the most invasive procedures in this population of patients. Currently there is no published normative data on changes in cortisol levels under moderate and deep sedation in adrenally sufficient children, so the normal response we are trying to mimic is unknown. We propose to measure salivary cortisol levels prospectively in adrenally sufficient children undergoing moderate and deep sedation to determine the normal cortisol response to the stress of sedation for both invasive and non-invasive procedures. Up to 300 adrenally sufficient children will be prospectively recruited to measure salivary cortisol levels during moderate and deep sedation for non-invasive procedures (e.g. MRI, echocardiogram, or other imaging studies), and invasive procedures (e.g. surgery, endoscopy) to determine what the normal cortisol response is to the stress of sedation during these procedures using various anesthetic agents. The primary outcome variable will be to determine peak salivary cortisol measurements during non-invasive and invasive procedures under different levels of sedation using various anesthetic agents, and correlate these with known norms in children to determine if the patient's hypothalamic-pituitary-adrenal axis is under stress.