Are you obese and finding that diet and exercise do not work? Have you suddenly put on weight? Is it mostly on the upper body, neck, and face? There is a chance that something else could be wrong. Some obesity problems can be cause by genetic and inherited conditions. You may have a thyroid problem that slows your metabolism too much. There are other serious, life threatening conditions that appear to be simple obesity, but are not. Cushing’s Syndrome is one of these conditions. Read below and see how Cushing’s appears to mimic obesity. Yet it has telltale unique symptoms. Physicians, unfortunately, are sometimes unaware of Cushing’s, and fail to recognize its special symptoms. Patients are given the wrong diagnosis, and their treatments do not address their real disease. The books offered here provide fascinating reading.
Cushing’s syndrome is a hormonal disorder caused by prolonged exposure of the body’s tissues to high levels of the hormone cortisol. Sometimes called "hypercortisolism," it is relatively rare and most commonly affects adults aged 20 to 50. An estimated 10 to 15 of every million people are affected each year.
Symptoms vary, but most people have upper body obesity, rounded face, increased fat around the neck, and thinning arms and legs. Children tend to be obese with slowed growth rates.
Other symptoms appear in the skin, which becomes fragile and thin. It bruises easily and heals poorly. Purplish pink stretch marks may appear on the abdomen, thighs, buttocks, arms and breasts. The bones are weakened, and routine activities such as bending, lifting or rising from a chair may lead to backaches, rib and spinal column fractures.
Most people have severe fatigue, weak muscles, high blood pressure and high blood sugar. Irritability, anxiety and depression are common.
Women usually have excess hair growth on their faces, necks, chests, abdomens, and thighs. Their menstrual periods may become irregular or stop. Men have decreased fertility with diminished or absent desire for sex.
Cushing’s syndrome occurs when the body’s tissues are exposed to excessive levels of cortisol for long periods of time. Many people suffer the symptoms of Cushing’s syndrome because they take glucocorticoid hormones such as prednisone for asthma, rheumatoid arthritis, lupus and other inflammatory diseases, or for immunosuppression after transplantation.
Others develop Cushing’s syndrome because of overproduction of cortisol by the body. Normally, the production of cortisol follows a precise chain of events. First, the hypothalamus, a part of the brain which is about the size of a small sugar cube, sends corticotropin releasing hormone (CRH) to the pituitary gland. CRH causes the pituitary to secrete ACTH (adrenocorticotropin), a hormone that stimulates the adrenal glands. When the adrenals, which are located just above the kidneys, receive the ACTH, they respond by releasing cortisol into the bloodstream.
Cortisol performs vital tasks in the body. It helps maintain blood pressure and cardiovascular function, reduces the immune system’s inflammatory response, balances the effects of insulin in breaking down sugar for energy, and regulates the metabolism of proteins, carbohydrates, and fats. One of cortisol’s most important jobs is to help the body respond to stress. For this reason, women in their last 3 months of pregnancy and highly trained athletes normally have high levels of the hormone. People suffering from depression, alcoholism, malnutrition and panic disorders also have increased cortisol levels.
When the amount of cortisol in the blood is adequate, the hypothalamus and pituitary release less CRH and ACTH. This ensures that the amount of cortisol released by the adrenal glands is precisely balanced to meet the body’s daily needs. However, if something goes wrong with the adrenals or their regulating switches in the pituitary gland or the hypothalamus, cortisol production can go awry.
Pituitary adenomas cause most cases of Cushing’s syndrome. They are benign, or non-cancerous, tumors of the pituitary gland which secrete increased amounts of ACTH. Most patients have a single adenoma. This form of the syndrome, known as "Cushing’s disease," affects women five times more frequently than men.
Ectopic ACTH Syndrome
Some benign or malignant (cancerous) tumors that arise outside the pituitary can produce ACTH. This condition is known as ectopic ACTH syndrome. Lung tumors cause over 50 percent of these cases. Men are affected 3 times more frequently than women. The most common forms of ACTH-producing tumors are oat cell, or small cell lung cancer, which accounts for about 25 percent of all lung cancer cases, and carcinoid tumors. Other less common types of tumors that can produce ACTH are thymomas, pancreatic islet cell tumors, and medullary carcinomas of the thyroid.
Sometimes, an abnormality of the adrenal glands, most often an adrenal tumor, causes Cushing’s syndrome. The average age of onset is about 40 years. Most of these cases involve non-cancerous tumors of adrenal tissue, called adrenal adenomas, which release excess cortisol into the blood.
Adrenocortical carcinomas, or adrenal cancers, are the least common cause of Cushing’s syndrome. Cancer cells secrete excess levels of several adrenal cortical hormones, including cortisol and adrenal androgens. Adrenocortical carcinomas usually cause very high hormone levels and rapid development of symptoms.
Familial Cushing’s Syndrome
Most cases of Cushing’s syndrome are not inherited. Rarely, however, some individuals have special causes of Cushing’s syndrome due to an inherited tendency to develop tumors of one or more endocrine glands. In Primary Pigmented Micronodular Adrenal Disease, children or young adults develop small cortisol-producing tumors of the adrenal glands. In Multiple Endocrine Neoplasia Type I (MEN I), hormone secreting tumors of the parathyroid glands, pancreas and pituitary occur. Cushing’s syndrome in MEN I may be due to pituitary, ectopic or adrenal tumors.
Diagnosis is based on a review of the patient’s medical history, physical examination and laboratory tests. Often x-ray exams of the adrenal or pituitary glands are useful for locating tumors. These tests help to determine if excess levels of cortisol are present and why.
24-Hour Urinary Free Cortisol Level
This is the most specific diagnostic test. The patient’s urine is collected over a 24-hour period and tested for the amount of cortisol. Levels higher than 50-100 micrograms a day for an adult suggest Cushing’s syndrome. The normal upper limit varies in different laboratories, depending on which measurement technique is used.
Once Cushing’s syndrome has been diagnosed, other tests are used to find the exact location of the abnormality that leads to excess cortisol production. The choice of test depends, in part, on the preference of the endocrinologist or the center where the test is performed.
Dexamethasone Suppression Test
This test helps to distinguish patients with excess production of ACTH due to pituitary adenomas from those with ectopic ACTH-producing tumors. Patients are given dexamethasone, a synthetic glucocorticoid, by mouth every 6 hours for 4 days. For the first 2 days, low doses of dexamethasone are given, and for the last 2 days, higher doses are given. Twenty-four hour urine collections are made before dexamethasone is administered and on each day of the test. Since cortisol and other glucocorticoids signal the pituitary to lower secretion of ACTH, the normal response after taking dexamethasone is a drop in blood and urine cortisol levels. Different responses of cortisol to dexamethasone are obtained depending on whether the cause of Cushing’s syndrome is a pituitary adenoma or an ectopic ACTH-producing tumor.
The dexamethasone suppression test can produce false-positive results in patients with depression, alcohol abuse, high estrogen levels, acute illness, and stress. Conversely, drugs such as phenytoin and phenobarbital may cause false-negative results in response to dexamethasone suppression. For this reason, patients are usually advised by their physicians to stop taking these drugs at least one week before the test.
CRH Stimulation Test
This test helps to distinguish between patients with pituitary adenomas and those with ectopic ACTH syndrome or cortisol-secreting adrenal tumors. Patients are given an injection of CRH, the corticotropin-releasing hormone which causes the pituitary to secrete ACTH. Patients with pituitary adenomas usually experience a rise in blood levels of ACTH and cortisol. This response is rarely seen in patients with ectopic ACTH syndrome and practically never in patients with cortisol-secreting adrenal tumors.
Direct Visualization of the Endocrine Glands (Radiologic Imaging)
Imaging tests reveal the size and shape of the pituitary and adrenal glands and help determine if a tumor is present. The most common are the CT (computerized tomography) scan and MRI (magnetic resonance imaging). A CT scan produces a series of x-ray pictures giving a cross-sectional image of a body part. MRI also produces images of the internal organs of the body but without exposing the patient to ionizing radiation.
Imaging procedures are used to find a tumor after a diagnosis has been established. Imaging is not used to make the diagnosis of Cushing’s syndrome because benign tumors, sometimes called "incidentalomas," are commonly found in the pituitary and adrenal glands. These tumors do not produce hormones detrimental to health and are not removed unless blood tests show they are a cause of symptoms or they are unusually large. Conversely, pituitary tumors are not detected by imaging in almost 50 percent of patients who ultimately require pituitary surgery for Cushing’s syndrome.
Petrosal Sinus Sampling
This test is not always required, but in many cases, it is the best way to separate pituitary from ectopic causes of Cushing’s syndrome. Samples of blood are drawn from the petrosal sinuses, veins which drain the pituitary, by introducing catheters through a vein in the upper thigh/groin region, with local anesthesia and mild sedation. X-rays are used to confirm the correct position of the catheters. Often CRH, the hormone which causes the pituitary to secrete ACTH, is given during this test to improve diagnostic accuracy. Levels of ACTH in the petrosal sinuses are measured and compared with ACTH levels in a forearm vein. ACTH levels higher in the petrosal sinuses than in the forearm vein indicate the presence of a pituitary adenoma; similar levels suggest ectopic ACTH syndrome.
The Dexamethasone-CRH Test
Some individuals have high cortisol levels, but do not develop the progressive effects of Cushing’s syndrome, such as muscle weakness, fractures and thinning of the skin. These individuals may have Pseudo Cushing’s syndrome, which was originally described in people who were depressed or drank excess alcohol, but is now known to be more common. Pseudo Cushing’s does not have the same long-term effects on health as Cushing’s syndrome and does not require treatment directed at the endocrine glands. Although observation over months to years will distinguish Pseudo Cushing’s from Cushing’s, the dexamethasone-CRH test was developed to distinguish between the conditions rapidly, so that Cushing’s patients can receive prompt treatment. This test combines the dexamethasone suppression and the CRH stimulation tests. Elevations of cortisol during this test suggest Cushing’s syndrome.
Some patients may have sustained high cortisol levels without the effects of Cushing’s syndrome. These high cortisol levels may be compensating for the body’s resistance to cortisol’s effects. This rare syndrome of cortisol resistance is a genetic condition that causes hypertension and chronic androgen excess.
Sometimes other conditions may be associated with many of the symptoms of Cushing’s syndrome. These include polycystic ovarian syndrome, which may cause menstrual disturbances, weight gain from adolescence, excess hair growth and sometimes impaired insulin action and diabetes. Commonly, weight gain, high blood pressure and abnormal levels of cholesterol and triglycerides in the blood are associated with resistance to insulin action and diabetes; this has been described as the "Metabolic Syndrome-X." Patients with these disorders do not have abnormally elevated cortisol levels.
Treatment depends on the specific reason for cortisol excess and may include surgery, radiation, chemotherapy or the use of cortisol-inhibiting drugs. If the cause is long-term use of glucocorticoid hormones to treat another disorder, the doctor will gradually reduce the dosage to the lowest dose adequate for control of that disorder. Once control is established, the daily dose of glucocorticoid hormones may be doubled and given on alternate days to lessen side effects.
Several therapies are available to treat the ACTH-secreting pituitary adenomas of Cushing’s disease. The most widely used treatment is surgical removal of the tumor, known as transsphenoidal adenomectomy. Using a special microscope and very fine instruments, the surgeon approaches the pituitary gland through a nostril or an opening made below the upper lip. Because this is an extremely delicate procedure, patients are often referred to centers specializing in this type of surgery. The success, or cure, rate of this procedure is over 80 percent when performed by a surgeon with extensive experience. If surgery fails, or only produces a temporary cure, surgery can be repeated, often with good results. After curative pituitary surgery, the production of ACTH drops two levels below normal. This is a natural, but temporary, drop in ACTH production, and patients are given a synthetic form of cortisol (such as hydrocortisone or prednisone). Most patients can stop this replacement therapy in less than a year.
For patients in whom transsphenoidal surgery has failed or who are not suitable candidates for surgery, radiotherapy is another possible treatment. Radiation to the pituitary gland is given over a 6-week period, with improvement occurring in 40 to 50 percent of adults and up to 80 percent of children. It may take several months or years before patients feel better from radiation treatment alone. However, the combination of radiation and the drug mitotane (Lysodren®) can help speed recovery. Mitotane suppresses cortisol production and lowers plasma and urine hormone levels. Treatment with mitotane alone can be successful in 30 to 40 percent of patients. Other drugs used alone or in combination to control the production of excess cortisol are aminoglutethimide, metyrapone, trilostane and ketoconazole. Each has its own side effects that doctors consider when prescribing therapy for individual patients.
Ectopic ACTH Syndrome
To cure the overproduction of cortisol caused by ectopic ACTH syndrome, it is necessary to eliminate all of the cancerous tissue that is secreting ACTH. The choice of cancer treatment--surgery, radiotherapy, chemotherapy, immunotherapy, or a combination of these treatments--depends on the type of cancer and how far it has spread. Since ACTH-secreting tumors (for example, small cell lung cancer) may be very small or widespread at the time of diagnosis, cortisol-inhibiting drugs, like mitotane, are an important part of treatment. In some cases, if pituitary surgery is not successful, surgical removal of the adrenal glands (bilateral adrenalectomy) may take the place of drug therapy.
Surgery is the mainstay of treatment for benign as well as cancerous tumors of the adrenal glands. In Primary Pigmented Micronodular Adrenal Disease and the familial Carney’s complex, surgical removal of the adrenal glands is required.
The National Institutes of Health (NIH) is the biomedical research component of the Federal Government. It is one of the health agencies of the Public Health Service, which is part of the U.S. Department of Health and Human Services. Several components of the NIH conduct and support research on Cushing’s syndrome and other disorders of the endocrine system, including the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), the National Institute of Child Health and Human Development (NICHD), the National Institute of Neurological Disorders and Stroke (NINDS), and the National Cancer Institute (NCI).
NIH-supported scientists are conducting intensive research into the normal and abnormal function of the major endocrine glands and the many hormones of the endocrine system. Identification of the corticotropin releasing hormone (CRH), which instructs the pituitary gland to release ACTH, enabled researchers to develop the CRH stimulation test, which is increasingly being used to identify the cause of Cushing’s syndrome.
Improved techniques for measuring ACTH permit distinction of ACTH-dependent forms of Cushing’s syndrome from adrenal tumors. NIH studies have shown that petrosal sinus sampling is a very accurate test to diagnose the cause of Cushing’s syndrome in those who have excess ACTH production. The recently described dexamethasone suppression-CRH test is able to differentiate most cases of Cushing’s from Pseudo Cushing’s.
As a result of this research, doctors are much better able to diagnose Cushing’s syndrome and distinguish among the causes of this disorder. Since accurate diagnosis is still a problem for some patients, new tests are under study to further refine the diagnostic process.
Many studies are underway to understand the causes of formation of benign endocrine tumors, such as those which cause most cases of Cushing’s syndrome. In a few pituitary adenomas, specific gene defects have been identified and may provide important clues to understanding tumor formation. Endocrine factors may also play a role. There is increasing evidence that tumor formation is a multi-step process. Understanding the basis of Cushing’s syndrome will yield new approaches to therapy.
NIH supports research related to Cushing’s syndrome at medical centers throughout the United States. Scientists are also treating patients with Cushing’s syndrome at the NIH Warren Grant Magnuson Clinical Center in Bethesda, Maryland. Physicians who are interested in referring a patient may contact Dr. George P. Chrousos, Developmental Endocrinology Branch, NICHD, Building 10, Room 10N262, Bethesda, Maryland 20892, telephone (301) 496-4686.
The following materials can be found in medical libraries, many college and university libraries, and through interlibrary loan in most public libraries.
Cooper, Paul R. "Contemporary Diagnosis and Management of Pituitary Adenomas," Park Ridge, Illinois: American Association of Neurological Surgeons, 1991.
DeGroot, Leslie J., ed., et al. "Cushing’s Syndrome," Endocrinology. Vol. 2, Philadelphia: W. B. Saunders Company, 1995. 1741-1769.
Isselbacher, Kurt J., ed., et al. "Cushing’s Syndrome Etiology," Harrison’s Principles of Internal Medicine. Vol. 2, No. 13, New York: McGraw-Hill Book Company, 1994. 1960-1965.
Wilson, Jean D., ed, et al. "Hyperfunction: Glucocorticoids: Hypercortisolism (Cushing’s syndrome)," Williams Textbook of Endocrinology, No. 8, Philadelphia: W.B. Saunders, 1992; 536-562.
Conn, R.B., Gomez, T., Chrousos, G.P., "Current Diagnosis," No. 8, Philadelphia: W.B. Saunders 1991, 868-872.
NCI Research Report: Cancer of the Lung. Prepared by the Office of Cancer Communications, National Cancer Institute, NIH Publication No. 93-526.
Cushing’s Support and Research Foundation, Inc.
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Cushing’s Syndrome - Massachusetts General Hospital
Cushing’s Syndrom - Dr. Joseph F. Smith Medical Library
Cushing’s Syndrome (Pituitary type)