View clinical trials related to Cushing's Syndrome.
Filter by: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.
This study is designed to provide information about the cause of two unusual types of Cushing's syndrome and to evaluate quality of life before and after cure of the disease. In Cushing's syndrome, the adrenal glands produce too much of the hormone cortisol. This often causes weight gain, skin changes (bruising and stretch marks), and mood changes such as irritability, easy crying and depression. Adrenocorticotrophic hormone (ACTH) normally regulates cortisol production; when cortisol is low, ACTH rises, stimulating the adrenals to produce more cortisol, and when cortisol is high, ACTH levels fall. In two forms of Cushing's syndrome, however, the adrenal glands produce cortisol even when ACTH is low. Patients 18 years of age and older with Cushing's syndrome not related to ACTH production may participate in this study. Candidates will be have a history and physical examination, electrocardiogram, urine, blood and saliva tests, and a computerized tomography (CT) scan of one or both adrenal glands. They will fill out questionnaires on their disease symptoms, quality of life, and on basic information about themselves, such as marital status, education level, place of residence, etc. Finally, they will have a corticotropin-releasing hormone (CRH) test to confirm that they have the form of Cushing's syndrome under study in this protocol. This test involves collecting blood samples at intervals before and after administration of sheep CRH to measure cortisol and ACTH levels. Participants will undergo 3 to 7 days of testing to determine if their cortisol level rises after taking certain medicines or eating certain foods. These foods and medicines, chosen to mimic or stimulate substances already in the body, are: glucagon, ACTH, gonadotropin-releasing hormone, vasopressin, thyrotropin-releasing hormone, and a mixed meal consisting of a protein, carbohydrate and fat (usually chicken breast and a milkshake-like drink). Blood will be collected at intervals before and after taking the food or medicine to measure cortisol blood levels. Blood will also be collected while the patient is in a standing position and while lying in bed, because changes in posture can cause substances in the body to increase or decrease. Depending on the individual's response to these tests, additional tests may be done with insulin, glucose, luteinizing hormone and follicle-stimulating hormone. Patients who do not respond to these substances will undergo adrenalectomy (surgery to remove one or both adrenal glands). This is standard treatment for this type of Cushing's syndrome. It is usually done by laparoscopy, in which air is injected into the abdomen through tubes inserted through a small incision, enabling the surgeon to see the organs and remove the gland. Part of the removed tissue will be examined to learn about what causes this type of Cushing's syndrome; it may also be used for genetic studies related to the disease. Patients will stay in the hospital for a week to 10 days for observation and treatment and then will be discharged to the care of their own doctor. They will continue to complete the quality of life questionnaire every 3 months for 2 years. Patients with normal adrenal glands who are participating in National Cancer Institute studies and are scheduled for adrenalectomy as part of their standard treatment will also be recruited for this study to serve as controls. The patients will have a 24-hour urine collection, and part of the adrenal gland tissue removed for their treatment will be used for research purposes of this study, possibly including genetic study.
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.
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>
Lentiginosis refers to groups of diseases marked by the presence of pigmented spots on the skin. These conditions are most commonly associated with multiple tumors and changes in hormone producing glands. The cause of these diseases is unknown, but researchers suggest there may be a level of inheritance involved in their development. Meaning to say that some of these diseases may "run in the family" and be passed down form generation to generation. Primary pigmented nodular adrenocortical disease (PPNAD) is a pituitary-independent, primary adrenal form of hypercortisolism characterized by; 1. Resistance to suppression by the drug dexamethasone 2. The body is unable to secrete cortisol in a normal rhythm 3. Distinct microscopic changes of both adrenal glands PPNAD can be associated with tumors (myxomas) of the skin, heart, breast, tumors (swannomas) of the nerve sheaths, pigmented spots (nevi and lentigines) of the skin, growth hormone (GH) producing tumors of the pituitary gland, and tumors of the testicles, ovaries, and thyroid gland. In the presence of these associations the condition is referred to as the Carney Complex. Presently there are no tests for screening of PPNAD and the Carney Complex. In addition, it is unknown how these conditions are genetically transferred from generation to generation. This study proposes to use standard methods of clinical testing for endocrine and nonendocrine diseases and genetic testing in order to; 1. Define the genetic basis for PPNAD and/or the Carney Complex. 2. Determine the molecular changes associated with the development of the tumors. 3. Identify carriers of the disease. 4. Determine the prognosis for carriers and affected individuals. 5. Provide sufficient data for genetic counseling of families with PPNAD and/or Carney Complex.<TAB>
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.