30 Clinical Trials for Various Conditions
This is an observational study to confirm the presence of recurrent or persistent endogenous Cushing's syndrome in patients who have had primary surgical and/or radiation therapy for Cushing's disease and continue to manifest symptoms and signs of hypercortisolemia.
This is a randomized, placebo-controlled, study of SPI-62 in subjects with ACTH-dependent Cushing's syndrome caused by a non-adrenal tumor. Subjects will receive each of the following 2 treatments for 24 weeks: SPI-62 and matching placebo with the option of long-term extension.
This is a long-term, open-label extension study of levoketoconazole in subjects with endogenous Cushing's Syndrome.
OBJECTIVES: I. Determine whether Cushing's syndrome and stress-induced pseudo-Cushing's syndrome can be differentiated by evaluating endogenous corticotropin-releasing hormone activity.
OBJECTIVES: I. Study the relationship between dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis and disorders of mood, vegetative function, and cognition in patients with Cushing's disease. II. Identify subgroups of patients with Cushing's disease who differ in the presence and severity of the depressive syndrome, and uncover HPA axis dysregulation differences among them using corticotropin-releasing hormone, metyrapone, and dexamethasone challenge testing.
OBJECTIVES: I. Evaluate whether chronic hypercortisolemia is specifically toxic to hippocampal cells and causes structural reduction of hippocampal volume in patients with Cushing's syndrome. II. Determine whether reduced hippocampal volume is associated with specific memory dysfunction. III. Examine the relationships of adrenal androgen to hippocampal volume and memory dysfunction. IV. Examine the reversibility of hippocampal structural changes and cognitive dysfunction after cortisol levels are normalized.
This is study with SPI-62 to evaluate the efficacy, safety, and pharmacological effect of SPI-62 in subjects with hypercortisolism related to a benign adrenal tumor. Each subject will receive 2mg of SPI-62 daily.
Cushing's syndrome is a relatively rare disorder caused by prolonged exposure to high levels of the glucocorticoid hormone cortisol. Cushing's syndrome may result from elevated endogenous or exogenous sources of cortisol. Endogenous Cushing's syndrome resulting from cortisol overproduction by the adrenal glands is the subject of this protocol. Patients with exogenous Cushing's syndrome, which develops as a side effect of chronic administration of high doses of glucocorticoids, were not eligible for enrollment in this study. The purpose of this study was to evaluate the safety and efficacy of CORT125134 for treatment of endogenous Cushing's syndrome. The multicenter study was conducted in the United States and in Europe.
This is a non-interventional, multinational, multi-centre study with primary data collection, to further document the safety and efficacy of osilodrostat administered in routine clinical practice in patients treated with osilodrostat for endogenous Cushing's Syndrome
Multicenter, open-label, non-comparative study to evaluate the pharmacokinetics, pharmacodynamics, and tolerability of osilodrostat in children and adolescent patients with Cushing's syndrome.
The purpose of this study is the evaluation of long-term safety of osilodrostat in patients who have already received osilodrostat treatment in a previous Global Novartis-sponsored trial and who, based on investigators' judgement, will continue benefiting with its administration.
This is a double-blind, randomized, placebo-controlled withdrawal and rescue/restoration study in subjects with endogenous Cushing's Syndrome (CS) previously treated with single-arm, open-label levoketoconazole that will assess efficacy, safety, tolerability, and pharmacokinetics of levoketoconazole.
This study will investigate the potential for FK506 binding protein 5 (FKBP5) (and other gene expression markers, for example pentraxin 3 \[PTX-3\], serum/glucocorticoid regulated kinase 1 \[SGK1\], and glycogen synthase kinase 3 beta \[GSK3b\]) to be developed as a biomarker for use in diagnosis of Cushing's syndrome, assessment of effectiveness of medical or surgical treatment, and detection of relapse of endogenous Cushing's syndrome after surgery.
Participants in study C-1073-400 (NCT00569582) will be invited to participate in this extension study to examine the long term safety of mifepristone in the treatment of the signs and symptoms of endogenous Cushing's syndrome. Total treatment duration may be up to 12 months or longer at the discretion of the Investigator.
Patients will receive Corlux (mifepristone) daily for up to 24 weeks. Assessments of the signs and symptoms of Cushing's syndrome will be obtained.
The purpose of this study is to follow participants with Cushing's syndrome during the course of their routine care and to form a data registry to study long term participant outcomes.
Between 10% and 15% of patients with endogenous hypercortisolism (Cushing syndrome) have ectopic (non-pituitary) production of adrenocorticotropin hormone (ACTH) that causes cortisol excess. In approximately 50% of these patients, the tumoral source of ACTH cannot be found initially despite very detailed and extensive imaging, including studies such as computed tomography, magnetic resonance imaging, and octreotide scan (Octreoscan) using the standard dose of indium- 111 pentetreotide (\[111In-DTPA-D-Phe\]-pentetreotide). The sensitivity and specificity of structurally based imaging studies depends on anatomic alterations and the size of the tumor. In contrast, positron emission tomography (PET) and somatostatin ligand imaging detect pathologic tissue based on physiologic and biochemical processes within the abnormal tissue. This protocol tests the ability of \[18F\]-L-3,4-dihydroxyphenylalanine (18F-DOPA) PET, and the somatostatin imaging analogue, 68Ga-DOTATATE-PET, to localize the source of ectopic ACTH production.
The purpose of this study is to determine whether mifepristone is an effective treatment for hyperglycemia due to mild hypercortisolism. * To test the hypothesis that GR blockade with mifepristone will decrease the severity of metabolic syndrome features as measured by waist circumference, lipid profile, body mass index, blood pressure and insulin resistance, measured by HOMA-IR score. * To test the hypothesis that GR blockade with mifepristone will improve QoL, depression and anxiety scores, measured by validated assessments, in patients with mild hypercortisolism.
Study objectives are to obtain safety, pharmacokinetic, and pharmacodynamic data on the effect of mifepristone on glucose metabolism, body weight and the growth-hormone-IGF in children with refractory Cushing's disease.
This is a compassionate use study. In addition to providing compassionate use access to mifepristone, objectives of the study will be to evaluate the safety and utility of mifepristone in the treatment of the signs and symptoms of endogenous Cushing's syndrome when given on a compassionate use basis. The study will only enroll subjects whose physicians have determined that medical treatment is needed to control the symptoms or signs of hypercortisolemia.
This study will evaluate whether the drug mifepristone can improve the symptoms of Cushing's syndrome in people with ectopic adrenal corticotrophin hormone (ACTH) secretion. Cushing's syndrome occurs when the adrenal glands produce too much cortisol, a hormone that helps to regulate the body's use of salt and food. Excessive cortisol is usually the result of too much ACTH, the hormone that causes the adrenal glands to make cortisol. The extra ACTH is made either by a tumor in the pituitary gland (called Cushing's disease) or by a tumor somewhere else (called ectopic ACTH secretion). Mifepristone blocks the action of cortisol in the body. The drug has been used safely to treat a few people with Cushing's syndrome and patients with certain kinds of cancer, gynecological diseases and psychiatric disorders. People between 18 and 85 years of age with Cushing's syndrome caused by EXCESS ACTH secretion may be eligible for this study. Candidates are admitted to the hospital for evaluation to confirm Cushing's syndrome and to determine its cause. The evaluation includes blood and urine tests, imaging tests, dexamethasone and corticotropin-releasing hormone tests and inferior petrosal sinus sampling. Patients determined to have Cushing's syndrome due to ECTOPIC ACTH secretion undergo imaging studies (CT, MRI and a nuclear medicine scan) and begin mifepristone therapy. Participants remain in the hospital for the following tests and procedures: * Physical examination, electrocardiogram (EKG) and blood and urine tests * Completion of medical questionnaires * DEXA scan to determine bone mineral density and body composition * Glucose tolerance test * Urine pregnancy test and ultrasound to measure uterine lining thickness (for women) Patients take mifepristone by mouth 3 times a day. The dose is increased every week or so until symptoms improve or the highest dosage allowed is reached. Patients may remain in the hospital for all or part of the dose-finding part of the study. During this period (usually 2 to 4 weeks), blood pressure, glucose tolerance and blood chemistries are measured and EKG and urinalysis done every 5 to 14 days. When the mifepristone dose is stable patients remain on that dose for at least 2 weeks and are then re-evaluated. Patients then return to the hospital for evaluations every 3 months. Those who do well on the drug may continue to take it for up to 12 months.
The study treatment period is 15 days in length and includes patients with pituitary Cushing's disease who are candidates for surgical intervention as well as and patients who have recurrent Cushing's post operatively.
Cushing Syndrome is an endocrine disorder causing an over production of the hormone cortisol. Cortisol is produced in the adrenal gland as a response to the production of corticotropin (ACTH) in the pituitary gland. Between 10% and 20% of patients with hypercortisolism (Cushing Syndrome) have ectopic production of the hormone ACTH. Meaning, the hormone is not being released from the normal site, the pituitary gland. In many cases the ectopic ACTH is being produced by a tumor of the lung, thymus, or pancreas. However, in approximately 50% of these patients the source of the ACTH cannot be found even with the use of extensive imaging studies such as computed tomography (CT) scans, magnetic resonance imaging (MRI), and nuclear scans (111-indium pentetreotide). The ability of these tests to locate the source of the hormone production is dependent on the changes of anatomy and / or the dose and adequate uptake of the radioactive agent. The inability to detect the source of ectopic ACTH production often results in unnecessary pituitary surgery or irradiation. Unlike the previously described tests, positron emission tomography (PET scan) has the ability to detect pathologic tissue based on physiologic and biochemical processes within the abnormal tissue. This study will test whether fluorine-18-fluorodeoxyglucose (FDG), fluorine-18-dihydroxyphenylalanine (F-DOPA) or use of a higher dose of 111-indium pentetreotide can be used to successfully localize the source of ectopic ACTH production.
Corticotropin Releasing Hormone (CRH) is a hypothalamic hormone made up of 41 amino acids. Amino acids are proteins that when combined make up different substances, like hormones. The order of amino acids in CRH, has been determined, meaning that the hormone can now be synthetically reproduced in a laboratory setting. When CRH is released from the hypothalamus it stimulates the pituitary gland to secrete another hormone, ACTH. ACTH then causes the adrenal glands to make a third hormone, cortisol. This process is known as the hypothalamic-pituitary-adrenal axis. Problems can occur in any of the steps of this process and result in a variety of diseases (Cushing's Syndrome and adrenal insufficiency). Researchers hope that CRH created in a laboratory setting, ovine CRH (oCRH) can be used to help diagnose and treat conditions of the HPA axis. This study will test the relationship for single doses of oCRH in normal volunteers and patients with disorders of the HPA axis. The oCRH will be injected into the patients vein as a single injection or slowly through an IV line over 24 hours. The participants will have blood tests taken to measure hormone levels before, during, and after receiving the oCRH.
Patients with Cushing disease have hormone producing tumors in their pituitary gland. Often these tumors are so small they cannot be detected by magnetic resonance imaging (MRI). The inferior petrosal sinuses are small veins that drain the blood from the pituitary gland. By taking a small sample of blood from these sinuses, doctors can differentiate a small tumor in the pituitary gland from other tumors in the body producing the hormone. Patients with Cushing disease have high levels of the hormone ACTH in the petrosal sinuses. Patients with other causes of Cushing syndrome do not have increased levels of ACTH in the petrosal sinuses. The procedure to collect blood from the petrosal sinus is called Inferior Petrosal Sinus Sampling (IPSS). The technique is very sensitive and can tell the difference between a pituitary tumor and other causes of Cushing syndrome nearly 100% of the time. However, IPSS is very difficult to perform and is only available in a few hospitals. Therefore, researchers are looking for another possible way to diagnose Cushing syndrome that would be less technically difficult and more readily available to patients. ACTH is produced in the pituitary gland as a response to the production of Corticotropin-Releasing Hormone (CRH) in the brain (hypothalamus). This study will compare ACTH levels in the internal jugular veins before and after CRH stimulation with those obtained by conventional IPSS from patients with Cushing's syndrome. Obtaining blood from the jugular veins is a simple, practically risk free procedure that could be done easily in a community hospital on an out patient basis. Researchers believe that CRH stimulation will increase ACTH production from tumors of the pituitary gland (corticotroph adenomas) so that the diagnostic information from jugular venous sampling would be equivalent to that of IPSS. This proposal to develop jugular venous sampling (JVS) with CRH stimulation as a test for the differential diagnosis of Cushing Syndrome would potentially contribute greatly to the medical care of patients with Cushing syndrome, as a less costly, safer and more widely available alternative to IPSS.\<TAB\>
This is a study investigating the hormones and substances important to the stress response. The hormone that is most directly responsible for stress response is called corticotropin-releasing hormone (CRH). CRH is produced in the hypothalamus of the brain and causes the pituitary gland to produce another hormone called ACTH. The hormone ACTH then acts on the adrenal glands causing them to produce the hormone cortisol. Unfortunately, CRH levels are unable to be measured in simple blood samples. However, substances like cortisol and leptin can provide information as to the activity of the hypothalamus. The hormone leptin is associated with the regulation of body weight and the normal maintenance of bodily functions (homeostasis). It is found in fat cell (adipocyes) and communicates the nutritional status of the body to the brain (central nervous system). Research using animals has shown that defects in the communication between leptin and the brain causes obesity (the state of being overweight). It has also been noted that obese humans tend to have high levels of leptin. By studying patients with abnormal genes responsible for leptin production, researchers have found that a least one leptin gene must be intact for the normal secretion of hormones to proceed. These results show that the hormone leptin is produced outside of the brain in fat cells and acts directly on the function of the hypothalamus within the brain. Researchers believe that leptin plays a key role in the normal release of hormones from the HPA axis. Researchers intend on continuing to study the role of leptin in fat distribution, and the activity of the HPA axis in normal volunteers. In addition, this study will focus on the role of leptin in depression, because depression is characterized by changes in food intake, body weight, and neuroendocrine function. Data gathered from this study will provide a better understanding of the causes and medical consequences of major depression.
The purpose of this study is to use brain imaging technology to compare how the brains of adolescents and adults are activated during tasks that involve emotional responses. Evidence suggests that adolescents and adults experience activation in similar brain regions when they engage in tasks that involve the processing of emotional stimuli. However, the degree of task-associated activation may differ between adolescents and adults. This study will use functional magnetic resonance imaging (fMRI) to compare brain activation patterns in adolescents and adults. This study will also be used to develop emotion-evoking fMRI tasks to determine whether there are puberty and age-linked components of brain development.
Background: The adrenal glands are 2 small organs that sit on top of each kidney. They release hormones; these are chemicals that control how the body works. Tumors on or outside the adrenal glands are called functional if they release hormones; they are called nonfunctional if they do not. Doctors who treat adrenal tumors need to know which type a person has. Researchers want to find better ways to learn whether an adrenal tumor is functional. Objective: To see if a new radioactive tracer (\[68Ga\]Ga-PentixaFor) can make it easier to identify functional adrenal tumors with positron emission tomography (PET) scans. Eligibility: People aged 18 years and older with 1 or more adrenal tumors. They must have increased levels of the hormones aldosterone or cortisol. They must also be enrolled in at least 1 other related NIH study (protocols 19-DK-0066, 18-CH-0031, or 09-C-0242). Design: Participants will be screened. They may have imaging scans. Their ability to perform normal activities will be reviewed. Participants will have one PET scan with the study tracer. The tracer will be given through a tube attached to a needle inserted into a vein. Participants will receive the tracer 1 hour before the scan. They will lie still on a bed while a machine captures images of the inside of their body. The scan will take 45 to 90 minutes. Participants heart rate, blood pressure, and rate of breathing will be checked before, during, and after the scan. Participants will have a follow-up visit 3 days after their scan. This visit can be by phone, email, or in person.
The purpose of this study is to allow continued use of pasireotide in patients who are on pasireotide treatment in a Novartis-sponsored study and are benefiting from the treatment as judged by the investigator.
This study investigates the effects of the glucocorticoid hormone cortisol on brain structure and function. Patients with Cushing's disease are studied before and after treatment. Brain imaging and neuropsychologic tests are used to study changes in the hippocampus and thinking and learning functions as well as mood during the period of elevated cortisol. At several intervals after treatment, these are reexamined to study the degree of reversibility of the abnormalities. The contribution of cortisol as well as testosterone and estrogen to dysfunction and recovery is studied. Since elevated cortisol and dysregulation of its secretory system occurs in a significant proportion of the aged and in Alzheimers Disease and Major Depressive Disorder, these studies will help advance knowledge of the role of cortisol in these conditions.