Cushing’s Testing at NIH

Posted on May 21, 2017 by MaryO
Rank Status Study
1 Recruiting Study to Evaluate CORT125134 in Patients With Cushing’s Syndrome

Condition: Cushing’s Syndrome
Intervention: Drug: CORT125134
2 Recruiting Cushing’s Disease Complications

Condition: Cushing’s Disease
Intervention: Other: Exams and questionnaires
3 Recruiting The Accuracy of Late Night Urinary Free Cortisol/Creatinine and Hair Cortisol in Cushing’s Syndrome Diagnosis

Condition: Cushing Syndrome
Intervention:
4 Recruiting Treatment for Endogenous Cushing’s Syndrome

Condition: Endogenous Cushing’s Syndrome
Intervention: Drug: COR-003
5 Recruiting Saliva Cortisol Measurement as a Screening Test for Suspicious Cushings Syndrome in Children.

Condition: Cushings Syndrome
Intervention: Other: Children refered to the obesity clinic
6 Recruiting Safety and Efficacy of LCI699 for the Treatment of Patients With Cushing’s Disease

Condition: Cushing’s Disease
Intervention: Drug: LCI699
7 Recruiting Treatment of Cushing’s Disease With R-roscovitine

Condition: Cushings Disease
Intervention: Drug: R-roscovitine
8 Recruiting A Study of ATR-101 for the Treatment of Endogenous Cushing’s Syndrome

Condition: Cushing Syndrome
Interventions: Drug: ATR-101;   Drug: Placebos
9 Recruiting Evaluation of 68Ga-DOTATATE PET/CT, Octreotide and F-DOPA PET Imaging in Patients With Ectopic Cushing Syndrome

Condition: Cushing Syndrome
Interventions: Drug: F-DOPA PET Scan;   Drug: Mifepristone;   Drug: Ga-DOTATATE;   Drug: Octreoscan;   Other: CT, MRI
10 Not yet recruiting Endocrine Cardiomyopathy in Cushing Syndrome: Response to Cyclic GMP PDE5 inhibitOrs

Condition: Cushing’s Syndrome Cardiomyopathy
Intervention: Drug: Tadalafil
11 Recruiting Long-term Beneficial Metabolic Effects of Adrenalectomy in Subclinical Cushing’s Syndrome of Adrenal Incidentaloma

Condition: Cushing Syndrome
Intervention: Procedure: surgery
12 Recruiting Long Term Safety and Efficacy of Pasireotide s.c. in Patients With Cushing’s Disease

Condition: Cushings Disease
Intervention: Drug: SOM230
13 Recruiting New Imaging Techniques in the Evaluation of Patients With Ectopic Cushing Syndrome

Condition: Cushing Syndrome
Interventions: Drug: Pentetreotide;   Drug: 18-F-fluorodeoxyglucose;   Drug: (18F)-L-3,4-dihydroxyophenylalanine (18F-DOPA)
14 Not yet recruiting Targeting Iatrogenic Cushing’s Syndrome With 11β-hydroxysteroid Dehydrogenase Type 1 Inhibition

Condition: Iatrogenic Cushing’s Disease
Interventions: Drug: AZD4017 and prednisolone;   Drug: Placebo Oral Tablet and prednisolone
15 Not yet recruiting Assessment of Persistent Cognitive Impairment After Cure of Cushing’s Disease

Condition: Cushing’s Disease
Intervention: Device: Virtual radial task in 3D
16 Recruiting Biomarker Expression in Patients With ACTH-Dependent Cushing’s Syndrome Before and After Surgery

Condition: Cushing’s Syndrome
Intervention:
17 Recruiting Efficacy and Safety Evaluation of Osilodrostat in Cushing’s Disease

Condition: Cushing’s Disease
Interventions: Drug: osilodrostat;   Drug: osilodrostat Placebo
18 Recruiting Effects of Metyrapone in Patients With Endogenous Cushing’s Syndrome

Condition: Cushing’s Syndrome
Intervention: Drug: metyrapone
19 Recruiting Adrenal Venous Sampling in Patients With Overt or Subclinical Cushings Syndrome, and Bilateral Adrenal Tumors

Condition: Cushing Syndrome
Intervention: Radiation: Adrenal venous sampling
20 Recruiting Glycemic Fluctuations in Newly Diagnosed Growth Hormone-Secreting Pituitary Adenoma and Cushing Syndrome Subjects

Condition: Pituitary Adenoma
Intervention: Device: continuous glucose monitoring
Rank Status Study
21 Recruiting Targeted Therapy With Gefitinib in Patients With USP8-mutated Cushing’s Disease

Conditions: Cushing’s Disease;   Corticotrophin Adenoma
Intervention: Drug: Gefitinib
22 Recruiting Cardiac Steatosis in Cushing’s Syndrome

Conditions: Endocrine System Disease;   Cardiovascular Imaging
Intervention: Other: 1H magnetic resonance spectroscopy and CMRI
23 Recruiting Study of Management of Pasireotide-induced Hyperglycemia in Adult Patients With Cushing’s Disease or Acromegaly

Conditions: Cushing’s Disease;   Acromegaly
Interventions: Drug: Pasireotide s.c.;   Drug: Sitagliptin;   Drug: Liraglutide;   Drug: Insulin;   Drug: Pasireotide LAR;   Drug: Metformin
24 Recruiting Study of Efficacy and Safety of Osilodrostat in Cushing’s Syndrome

Conditions: Cushing’s Syndrome;   Ectopic Corticotropin Syndrome;   Adrenal Adenoma;   Adrenal Carcinoma;   AIMAH;   PPNAD
Intervention: Drug: Osilodrostat
25 Recruiting Effects of Hormone Stimulation on Brain Scans for Cushing s Disease

Condition: Pituitary Neoplasm
Intervention: Drug: Acthrel
26 Recruiting Does Serum-DXM Increase Diagnostic Accuracy of the Overnight DXM Suppression Test in the Work-up of Cushing’s Syndrome?

Conditions: Cushing’s Syndrome;   Adrenal Incidentalomas;   Alcoholism;   Obesity
Intervention:
27 Recruiting Adrenalectomy Versus Follow-up in Patients With Subclinical Cushings Syndrome

Condition: Adrenal Tumour With Mild Hypercortisolism
Intervention: Procedure: Adrenalectomy
28 Recruiting Study of Adrenalectomy Versus Observation for Subclinical Hypercortisolism

Conditions: Hypercortisolism;   Cushing Syndrome
Interventions: Procedure: Adrenalectomy;   Other: Observation
29 Not yet recruiting Dynamic Hormone Diagnostics in Endocrine Disease

Conditions: Adrenal Insufficiency;   Congenital Adrenal Hyperplasia;   Cushing Syndrome;   Growth Hormone Deficiency;   Acromegaly;   Primary Hyperaldosteronism
Intervention: Other: 27 hour subcutaneous fluid sampling
30 Recruiting An Investigation of Pituitary Tumors and Related Hypothalmic Disorders

Conditions: Abnormalities;   Craniopharyngioma;   Cushing’s Syndrome;   Endocrine Disease;   Pituitary Neoplasm
Intervention:
31 Recruiting Ga-68-DOTATOC -PET in the Management of Pituitary Tumours

Condition: Pituitary Tumours
Intervention: Procedure: Gallium-68 DOTATOC PET
32 Recruiting Efficacy of Mifepristone in Males With Type 2 Diabetes Mellitus

Conditions: Type 2 Diabetes Mellitus;   Insulin Resistance
Interventions: Drug: Mifepristone 600 mg daily;   Drug: Placebo
33 Recruiting Targeted Therapy With Lapatinib in Patients With Recurrent Pituitary Tumors Resistant to Standard Therapy

Conditions: Pituitary Adenomas;   Prolactinomas
Intervention: Drug: Lapatinib
34 Recruiting Mutations of Glucocorticoid Receptor in Bilateral Adrenal Hyperplasia

Condition: General Glucocorticoid Resistance
Intervention: Genetic: blood collection for mutation characterization
35 Recruiting Defining the Genetic Basis for the Development of Primary Pigmented Nodular Adrenocortical Disease (PPNAD) and the Carney Complex

Conditions: Cushing’s Syndrome;   Hereditary Neoplastic Syndrome;   Lentigo;   Neoplasm;   Testicular Neoplasm
Intervention:
36 Not yet recruiting Reduction by Pasireotide of the Effluent Volume in High-output Enterostomy in Patients Refractory to Usual Medical Treatment

Condition: Enterostomy
Interventions: Drug: Pasireotide;   Drug: Placebo
37 Recruiting Mifepristone for Breast Cancer Patients With Higher Levels of Progesterone Receptor Isoform A Than Isoform B.

Condition: Breast Cancer
Intervention: Drug: Mifepristone
38 Recruiting SOM230 Ectopic ACTH-producing Tumors

Condition: Ectopic ACTH Syndrome
Intervention: Drug: Pasireotide
39 Recruiting Decreasing Rates of Intraurethral Catheterization Postoperatively in Spine Surgery

Condition: Post-operative Urinary Retention
Interventions: Drug: Tamsulosin;   Drug: Placebo
40 Recruiting Adrenal Tumors – Pathogenesis and Therapy

Conditions: Adrenal Tumors;   Adrenocortical Carcinoma;   Cushing Syndrome;   Conn Syndrome;   Pheochromocytoma
Intervention:

Filed under: adrenal, Clinical trials, Cushing's, Diagnostic Testing, pituitary, Rare Diseases, Treatments | Tagged: , , , , , , , , , , , , , , , , , , , , , , , , | Leave a comment »

Severe Trauma May Damage The Brain as Well as the Psyche

Posted on October 24, 2016 by MaryO

NOTE: This is only a portion of the article.  Read the entire post at http://www.nytimes.com/1995/08/01/science/severe-trauma-may-damage-the-brain-as-well-as-the-psyche.html?pagewanted=all

Cortisol is a major means the body uses, with adrenaline, to arouse itself so quickly; its action, for example, triggers an increase in blood pressure and mobilizes energy from fat tissue and the liver.

“The dark side of this picture is the neurological effects,” said Dr. Sapolsky. “It’s necessary for survival, but it can be disastrous if you secrete cortisol for months or years on end. We’ve known it could lead to stress-exacerbated diseases like hypertension or adult onset diabetes. But now we’re finding the hippocampus is also damaged by these secretions.”

Studies in animals show that when glucocorticoids are secreted at high levels for several hours or days, there is a detectable effect on memory, though no neuronal death. But with sustained release from repeated stress, “it eventually kills neurons in the hippocampus,” said Dr. Sapolsky. “This has been shown solidly in rats, with the cell biology well understood.”

A parallel effect has long been known among patients with Cushing’s disease, a hormonal condition in which tumors in the adrenal or pituitary glands or corticosteroid drugs used for a prolonged time cause the adrenal glands to secrete high levels of a hormone called ACTHm and of cortisol. Such patients are prone to a range of diseases “in any organ with stress sensitivity,” including diabetes, hypertension and suppression of the immune system, said Dr. Sapolsky.

Cushing’s patients also have pronounced memory problems, especially for facts like where a car was parked. “The hippocampus is essential for transferring such facts from short-term to long-term memory,” said Dr. Sapolsky.

In 1993, researchers at the University of Michigan reported that magnetic resonance imaging had shown an atrophy and shrinkage of the hippocampus in patients with Cushing’s disease; the higher their levels of cortisol, the more shrinkage.

In an apparent paradox, low levels of cortisol in post-trauma victims were found in a separate research report, also in the July issue of The American Journal of Psychiatry. Dr. Rachel Yehuda, a psychologist at Mount Sinai Medical School in New York City, found the lower levels of cortisol in Holocaust survivors who had been in concentration camps 50 years ago and who still had post-traumatic symptoms.

“There are mixed findings on cortisol levels in trauma victims, with some researchers finding very high levels and others finding very low levels,” said Dr. Sapolsky. “Biologically speaking, there may be different kinds of post-traumatic stress.”

In a series of studies, Dr. Yehuda has found that those post-trauma patients who have low cortisol levels also seem to have “a hypersensitivity in cell receptors for cortisol,” she said. To protect itself, the body seems to reset its cortisol levels at a lower point.

The low cortisol levels “seem paradoxical, but both too much and too little can be bad,” said Dr. Yehuda. “There are different kinds of cells in various regions of the hippocampus that react to cortisol. Some atrophy or die if there is too little cortisol, some if there is too much.”

Dr. Yehuda added, “In a brain scan, there’s no way to know exactly which cells have died.”

To be sure that the shrinkage found in the hippocampus of trauma victims is indeed because of the events they suffered through, researchers are now turning to prospective studies, where before-and-after brain images can be made of people who have not yet undergone trauma, but are at high risk, or who have undergone it so recently that cell death has not had time to occur.

Dr. Charney, for example, is planning to take M.R.I. scans of the brains of emergency workers like police officers and firefighters and hopes to do the same with young inner-city children, who are at very high risk of being traumatized over the course of childhood and adolescence. Dr. Pitman, with Dr. Yehuda, plans a similar study of trauma victims in Israel as they are being treated in emergency rooms.

Dr. Yehuda held out some hope for people who have suffered through traumatic events. “It’s not necessarily the case that if you’ve been traumatized your hippocampus is smaller,” she said. She cited research with rats by Dr. Bruce McEwen, a neuroscientist at Rockefeller University, showing that atrophied dendritic extensions to other cells in the hippocampus grew back when the rats were given drugs that blocked stress hormones.

Dr. Sapolsky cited similar results in patients with Cushing’s disease whose cortisol levels returned to normal after tumors were removed. “If the loss of hippocampal volume in trauma victims is due to the atrophy of dendrites rather than to cell death, then it is potentially reversible, or may be so one day,” he said.

NOTE: This is only a portion of the article.  Read the entire post at http://www.nytimes.com/1995/08/01/science/severe-trauma-may-damage-the-brain-as-well-as-the-psyche.html?pagewanted=all

Filed under: adrenal, Cushing's, pituitary, symptoms | Tagged: , , , , , , , , , , | Leave a comment »

Causes of Cushing’s Syndrome

Posted on October 2, 2016 by MaryO

Cushing’s syndrome—also referred to as hypercortisolism—is fairly rare. However, researchers have boiled down a few key causes of Cushing’s syndrome, which you’ll read about below.

The cause of Cushing’s syndrome boils down to: Your body is exposed to too much cortisol. There are a few ways that this over-exposure can happen, including taking certain medications and having a tumor on your pituitary gland or adrenal gland.

Can Taking Corticosteroids Cause Cushing’s Disease?
One particular type of medication can cause Cushing’s syndrome: corticosteroids. But rest assured: Not all steroid medications cause Cushing’s syndrome. It’s more common to develop Cushing’s syndrome from steroids you take in pill form or steroids you inject. Steroid creams and steroids you inhale are not common causes of Cushing’s syndrome.

Some steroid medications have the same effect as the hormone cortisol does when produced in your body. But as with an excessive production of cortisol in your body, taking too much corticosteroid medications can, over time, lead to Cushing’s syndrome.

It’s common for people with asthma, rheumatoid arthritis, and lupus to take corticosteroids. Prednisone (eg, Deltasone) is an example of a corticosteroid medication.

Other Cushing’s Disease Causes
Your body can over-produce cortisol or adrenocorticotropic hormone (ACTH). The pituitary gland secretes ACTH, which is in charge of stimulating the adrenal glands to produce cortisol, and the adrenal glands are responsible for releasing cortisol into the bloodstream.

Cortisol performs important tasks in your body, such as helping to maintain blood pressure and regulate how your body metabolizes proteins, fats, and carbohydrates, so it’s necessary for your body to maintain normal levels of it.

The following can cause excessive production of cortisol or ACTH, leading to Cushing’s syndrome.

  • Pituitary gland tumors: A benign (non-cancerous) tumor of the pituitary gland can secrete an excess amount of ACTH, which can cause Cushing’s syndrome. Also known as pituitary adenomas, benign tumors of the pituitary gland affect women 5 times more often than men.
  • Adrenal gland tumors: A tumor in one of your adrenal glands can lead to Cushing’s syndrome by causing too much cortisol to enter your bloodstream. Most of these tumors are non-cancerous (called adrenal adenomas).

    Cancerous adrenal tumors—called adrenocortical carcinomas—are relatively rare. These types of tumors typically cause extremely high levels of cortisol and very rapid development of symptoms.

  • Other tumors in the body: Certain tumors that develop outside the pituitary gland can also produce ACTH. When this happens, it’s known as ectopic ACTH syndrome. Ectopic means that something is in an abnormal place or position. In this case, only the pituitary gland should produce ACTH, so if there is a tumor producing ACTH and it isn’t located on the pituitary, it’s ectopic.

    It’s unusual to have a tumor that secretes ACTH outside the pituitary. These tumors are usually found in the pancreas, lungs, or thyroid, and they can be benign or malignant (cancerous).

    The most common forms of ACTH-producing tumors are small cell lung cancer, which accounts for about 13% of all lung cancer cases, and carcinoid tumors—small, slow-growing tumors that arise from hormone-producing cells in various parts of the body.

  • Familial Cushing’s syndrome: Although it’s rare, Cushing’s syndrome can develop from an inherited tendency to have tumors on one or more of your endocrine glands. Some inherited conditions, such as multiple endocrine neoplasia (MEN 1), can involve tumors that over-produce cortisol or ACTH, leading to Cushing’s syndrome.

If you think you could have Cushing’s syndrome or you have questions about the causes of Cushing’s syndrome, talk to your doctor immediately.

Written by | Reviewed by Daniel J. Toft MD, PhD, adapted from  http://www.endocrineweb.com/conditions/cushings-syndrome/cushings-syndrome-causes

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Pituitary Gland: Normal Function and Assessment

Posted on July 23, 2016 by MaryO

Abstract

This computer-based, interactive module introduces preclinical medical students to normal pituitary function and outlines its assessment. Solid understanding of these topics is requisite to learning clinical disorders of the pituitary.

Existing resources largely target learners at earlier or later stages of training; thus, we created this resource to address needs of medical students during a first- or second-year endocrine course. A module format was selected to promote interactive, independent learning.

Two cohorts of medical students completed the 40-minute module: 172 second-year students who had completed a year of basic sciences in the traditional curriculum and 180 foundation-phase students in a three-semester combined basic and clinical sciences curriculum (due to a change in the medical school curriculum at our institution). In both instances, the module was completed before start of clinical pituitary content. A static set of PowerPoint slides accompanied the module to facilitate note taking.

Test Your Knowledge slides were inserted to ensure grasp of key terms/concepts before moving to subsequent slides. A short question-and-answer session was held following module completion to clarify points of confusion. Students rated effectiveness of the module as 4.6 out of 5, commenting on its clarity, organization, high-yield nature, and utility in preparing for clinical material.

Faculty noted greater understanding of foundational pituitary principles and more engaging discussions. The percentage of pituitary-related questions answered correctly on the midterm exam increased.

Finally, success of the pituitary module prompted development of adrenal, thyroid, and parathyroid modules that now comprise the Endocrine Organs Introduction Series in our curriculum.

Citation

Kirk D, Smith KW. Pituitary gland: normal function and assessment. MedEdPORTAL Publications. 2016;12:10430. http://dx.doi.org/10.15766/mep_2374-8265.10430

Educational Objectives

After completing this module, the learner will be able to:

  1. Describe the normal function and regulation of the pituitary gland, including names and actions of the anterior and posterior pituitary hormones.
  2. Understand the basic approach to laboratory assessment of the pituitary.
  3. Differentiate between anterior and posterior pituitary origin, function, and regulation.
  4. List the hormones produced by the pituitary gland.
  5. Discuss for each pituitary hormone: hypothalamic stimulating/inhibiting factors and their clinical uses, basic physiologic function, and regulation (feedback loop).
  6. Describe factors that affect growth hormone levels.
  7. Understand the tests for growth hormone excess and deficiency.
  8. Define a primary versus secondary endocrine disorder.

Keywords

  • Endocrine, Endocrinology, Pituitary, Module, Preclinical Medical Education

More information at https://www.mededportal.org/publication/10430

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Six controversial issues on subclinical Cushing’s syndrome

Posted on July 14, 2016 by MaryO

Abstract

Subclinical Cushing’s syndrome is a condition of hypercortisolism in the absence of signs specific of overt cortisol excess, and it is associated with an increased risk of diabetes, hypertension, fragility fractures, cardiovascular events and mortality.

The subclinical Cushing’s syndrome is not rare, being estimated to be between 0.2–2 % in the adult population. Despite the huge number of studies that have been published in the recent years, several issues remain controversial for the subclinical Cushing’s syndrome screening, diagnosis and treatment.

The Altogether to Beat Cushing’s syndrome Group was founded in 2012 for bringing together the leading Italian experts in the hypercortisolism-related diseases. This document represents the Altogether to Beat Cushing’s syndrome viewpoint regarding the following controversial issues on Subclinical Cushing’s syndrome (SCS):

(1) Who has to be screened for subclinical Cushing’s syndrome?
(2) How to screen the populations at risk?
(3) How to diagnose subclinical Cushing’s syndrome in patients with an adrenal incidentaloma?
(4) Which consequence of subclinical Cushing’s syndrome has to be searched for?
(5) How to address the therapy of choice in AI patients with subclinical Cushing’s syndrome?
(6) How to follow-up adrenal incidentaloma patients with subclinical Cushing’s syndrome surgically or conservatively treated?

Notwithstanding the fact that most studies that faced these points may have several biases (e.g., retrospective design, small sample size, different criteria for the subclinical Cushing’s syndrome diagnosis), we believe that the literature evidence is sufficient to affirm that the subclinical Cushing’s syndrome condition is not harmless and that the currently available diagnostic tools are reliable for identifying the majority of individuals with subclinical Cushing’s syndrome.

Keywords

Subclinical hypercortisolism, Adrenal incidentalomas, Hypertension, Diabetes, Osteoporosis

Buy the entire article at http://link.springer.com/article/10.1007/s12020-016-1017-3

Filed under: adrenal, Cushing's | Tagged: , , , , , , , , , , , , , | Leave a comment »

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