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Cushing's syndrome
ICD-10 E24
ICD-9 255.0
OMIM [1]
DiseasesDB 3242
MedlinePlus 000410
eMedicine med/485
MeSH {{{MeshNumber}}}

Cushing's syndrome (also called hypercortisolism or hyperadrenocorticism) is an endocrine disorder caused by high levels of cortisol in the blood from a variety of causes, including a pituitary adenoma (known as Cushing's disease), adrenal hyperplasia or neoplasia, ectopic adrenocorticotropic hormone (ACTH) production (e.g., from a small cell lung cancer), and iatrogenic (steroid use). Normally, cortisol is released from the adrenal gland in response to ACTH being released from the pituitary gland. Both Cushing's syndrome and Cushing's disease are characterized by elevated levels of cortisol in the blood, but the cause of elevated cortisol differs between the two disorders. Cushing's disease specifically refers to a tumour in the pituitary gland that stimulates excessive release of cortisol from the adrenal gland by releasing large amounts of ACTH. In Cushing's syndrome, the pituitary gland does not respond as it should with negative feedback to high levels of cortisol, and continues to produce ACTH.

Cushing's syndrome is not confined to humans and is also a relatively common condition in domestic dogs and horses. It was described by American physician, surgeon and endocrinologist Harvey Cushing (1869-1939) and reported by him in 1932.[1]

Classification and Aetiology

ACTH dependent

a- Pituitary Cushing disease (65%) due to benign pituitary adenoma
b- Ectopic ACTH syndrome (10%) non-pitutitary producing tumours
c- Exogenous ACTH adminstration

ACTH independent

a- Adrenal adenoma
b- Adrenal carcinoma
c- Adrenal nodular hyperplasia
d- Exogenous steroids adminstration
In ACTH independant cushing's syndrome ACTH levels are accually low due to the negative feedback effect.

Signs and symptoms

Symptoms include rapid weight gain, particularly of the trunk and face with sparing of the limbs (central obesity), a round face often referred to as a "moon face," excess sweating, telangiectasia (dilation of capillaries), thinning of the skin (which causes easy bruising) and other mucous membranes, purple or red striae (the weight gain in Cushing's stretches the skin, which is thin and weakened, causing it to hemorrhage) on the trunk, buttocks, arms, legs or breasts, proximal muscle weakness (hips, shoulders), and hirsutism (facial male-pattern hair growth). A common sign is the growth of fat pads along the collar bone and on the back of the neck (buffalo hump) (known as a lipodystrophy). The excess cortisol may also affect other endocrine systems and cause, for example, insomnia, reduced libido, impotence, amenorrhoea and infertility. Patients frequently suffer various psychological disturbances, ranging from euphoria to psychosis. Depression and anxiety are also common.[2]

Other signs include polyuria (and accompanying polydipsia), persistent hypertension (due to cortisol's enhancement of epinephrine's vasoconstrictive effect) and insulin resistance (especially common in ectopic ACTH production), leading to hyperglycemia (high blood sugar) which can lead to diabetes mellitus. Untreated Cushing's syndrome can lead to heart disease and increased mortality. Cushing's syndrome due to excess ACTH may also result in hyperpigmentation. This is due to Melanocyte-Stimulating Hormone production as a byproduct of ACTH synthesis from Proopiomelanocortin (POMC). Cortisol can also exhibit mineralcorticoid activity in high concentrations, worsening the hypertension and leading to hypokalemia (common in ectopic ACTH secretion). Furthermore, gastrointestinal disturbances, opportunistic infections and impaired wound healing (cortisol is a stress hormone, so it depresses the immune and inflammatory responses). Osteoporosis is also an issue in Cushing's Syndrome since, as mentioned before, cortisol evokes a stress-like response. The body's maintenance of bone (and other tissues) is therefore no longer one of its main priorities, so to speak. It is also important to note that Cushing's may elicit hirsuitism (male-pattern hair growth in a female) and oligomenorrhea (decreased frequency of menstruation) due to elevations in androgens (male sex hormones), normally at low levels in women.

The syndrome in horses leads to weight loss, polyuria and polydipsia and may cause laminitis.

Exogenous versus endogenous

There are two types of Cushing’s syndrome: exogenous and endogenous. In endogenous disease, excess cortisol production within the body is the cause, whilst in exogenous disease the causal factor is typically steroid medication (i.e. it originates outside the body) mimicking cortisol's activity. The signs and symptoms are therefore virtually identical, aside from those induced by ACTH in pituitary-dependent disease and ectopic ACTH-producing tumours (such as hyperpigmentation). The exogenous route is by far the most commonly taken in Cushing’s syndrome (a fact that all too many seem to forget). Examples of such exogenous steroid medications are those used to treat inflammatory disorders such as asthma and rheumatoid arthritis, or to suppress the immune system after an organ transplant. This type of Cushing’s is temporary and goes away after the patient has finished taking the cortisol-like medications. Endogenous Cushing’s syndrome is unusual, it usually comes on slowly and can be difficult to diagnose.


When Cushing's is suspected, either a dexamethasone suppression test (administration of dexamethasone and frequent determination of cortisol and ACTH level), or a 24-hour urinary measurement for cortisol offer equal detection rates.[3] Dexamethasone is a glucocorticoid and simulates the effects of cortisol, including negative feedback on the pituitary gland. When dexamethasone is administered and a blood sample is tested, high cortisol would be indicative of Cushing's syndrome because there is an ectopic source of cortisol or ACTH (eg: adrenal adenoma) that is not inhibited by the dexamethasone. A novel approach, recently cleared by the US FDA, is sampling cortisol in saliva over 24 hours, which may be equally sensitive, as late night levels of salivary cortisol are high in Cushingoid patients. Other pituitary hormone levels may need to be ascertained. Performing a physical examination to determine any visual field defect may be necessary if a pituitary lesion is suspected, which may compress the optic chiasm causing typical bitemporal hemianopia.

When any of these tests are positive, CT scanning of the adrenal gland and MRI of the pituitary gland are performed to detect the presence of any adrenal or pituitary adenomas or incidentalomas (the incidental discovery of harmless lesions). Scintigraphy of the adrenal gland with iodocholesterol scan is occasionally necessary. Very rarely, determining the cortisol levels in various veins in the body by venous catheterisation, working towards the pituitary (petrosal sinus sampling) is necessary.


Both the hypothalamus and the pituitary gland are in the brain. The paraventricular nucleus (PVN) of the hypothalamus releases corticotropin-releasing hormone (CRH), which stimulates the pituitary gland to release adrenocorticotropin (ACTH). ACTH travels via the blood to the adrenal gland, where it stimulates the release of cortisol. Cortisol is secreted by the cortex of the adrenal gland from a region called the zona fasciculata in response to ACTH. Elevated levels of cortisol exert negative feedback on the pituitary, which decreases the amount of ACTH released from the pituitary gland. Strictly, Cushing's syndrome refers to excess cortisol of any etiology. One of the causes of Cushing's syndrome is a cortisol secreting adenoma in the cortex of the adrenal gland. The adenoma causes cortisol levels in the blood to be very high, and negative feedback on the pituitary from the high cortisol levels causes ACTH levels to be very low. Cushing's disease refers only to hypercortisolism secondary to excess production of ACTH from a corticotrophic pituitary adenoma. This causes the blood ACTH levels to be elevated along with cortisol from the adrenal gland. The ACTH levels remain high because a tumor causes the pituitary to be unresponsive to negative feedback from high cortisol levels.


Most Cushing's syndrome cases are caused by steroid medications (iatrogenic). Consequently, most patients are effectively treated by carefully tapering off (and eventually stopping) the medication that causes the symptoms.

If an adrenal adenoma is identified it may be removed by surgery. An ACTH-secreting corticotrophic pituitary adenoma should be removed after diagnosis. Regardless of the adenoma's location, most patients will require steroid replacement postoperatively at least in the interim as long-term suppression of pituitary ACTH and normal adrenal tissue does not recover immediately. Clearly, if both adrenals are removed, replacement with hydrocortisone or prednisolone is imperative.

In those patients not suitable for or unwilling to undergo surgery, several drugs have been found to inhibit cortisol synthesis (e.g. ketoconazole, metyrapone) but they are of limited efficacy.

Removal of the adrenals in the absence of a known tumor is occasionally performed to eliminate the production of excess cortisol. In some occasions, this removes negative feedback from a previously occult pituitary adenoma, which starts growing rapidly and produces extreme levels of ACTH, leading to hyperpigmentation. This clinical situation is known as Nelson's syndrome.[4]


Iatrogenic Cushing's (caused by treatment with corticosteroids) is the most common form of Cushing's syndrome. The incidence of pituitary tumors may be relatively high, as much as one in five people, [5] but only a minute fraction are active and produce excessive hormones.

Hyperadrenocorticism in domestic animals

Hyperadrenocorticism is a common endocrinopathy in pets. Most cases are caused by hyperplasia of the adrenal cortex in response to pituitary dysfunction. Hyperadrenocorticism in companion animals is usually treated with long term drug therapy. In dogs, treatment is accomplished with trilostane or with mitotane.[6] Dogs with pituitary-dependent Cushing's syndrome may be treated by radiation therapy directed against a pituitary adenoma. Productive adrenal tumors in dogs may be treated by non-urgent adrenalectomy.

In Equine Cushing's Syndrome, surgical treatment is impractical, and the drugs pergolide and cyproheptadine are indicated. Pergolide has been called the "treatment of choice" and improves more signs and symptoms than cyproheptadine in most studies.[7] It produces very few side effects.[8] However, cyproheptadine is still effective in some horses and is less expensive.[9]

See also


  • Cushing HW. The basophil adenomas of the pituitary body and their clinical manifestations (pituitary basophilism). Bull Johns Hopkins Hosp 1932;50:137-195.
  • Nelson DH, Meakin JW, Thorn GW. ACTH-producing tumors following adrenalectomy for Cushing's syndrome. Ann Intern Med 1960;52:560–569. PMID 14426442.
  • Raff H, Findling JW. A physiologic approach to diagnosis of the Cushing syndrome. Ann Intern Med 2003;138:980-91. PMID 12809455.

External links

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  1. Cushing HW. (1932). The basophil adenomas of the pituitary body and their clinical manifestations (pituitary basophilism).. Bull Johns Hopkins Hosp 50: 137-95.
  2. Yudofsky, Stuart C.; Robert E. Hales (2007). The American Psychiatric Publishing Textbook of Neuropsychiatry and Behavioral Neurosciences, 5th, American Psychiatric Pub, Inc..
  3. Raff H, Findling JW (2003). A physiologic approach to diagnosis of the Cushing syndrome. Ann. Intern. Med. 138 (12): 980–91.
  4. Nelson DH, Meakin JW, Thorn GW (1960). ACTH-producing pituitary tumors following adrenalectomy for Cushing's syndrome. Ann. Intern. Med. 52: 560–9.
  5. Ezzat S, Asa SL, Couldwell WT, et al (2004). The prevalence of pituitary adenomas: a systematic review. Cancer 101 (3): 613–9.
  6. Nichols, Rhett Canine Cushing's Syndrome: Diagnosis and Treatment. URL accessed on 2008-02-12.
  7. Equine Cushing's Syndrome
  8. Janice Posnikoff, DVM. Advances Against Cushing’s Disease.
  9. Equine Marty Metzger. Cushing's Disease Often Confused with EMS. April 2008.