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ICD-10 C741
ICD-9 255.6
OMIM 171300
DiseasesDB 9912
MedlinePlus [1]
eMedicine med/1816 radio/552 ped/1788
MeSH {{{MeshNumber}}}

A pheochromocytoma (phaeochromocytoma outside of the US) is a neuroendocrine tumor of the medulla of the adrenal glands (originating in the chromaffin cells) or extra-adrenal chromaffin tissue which failed to involute after birth,[1] which secretes excessive amounts of catecholamines, usually epinephrine and norepinephrine. Extra-adrenal paragangliomas (often described as extra-adrenal pheochromocytomas) are closely related, though less common, tumors that originate in the ganglia of the sympathetic nervous system and are named based upon the primary anatomical site of origin.

Traditionally it is known as the "10% tumor":

  • bilateral disease is present in approximately 10% of patients
  • approximately 10% of tumours are malignant
  • approximately 10% are located in chromaffin tissue outside of the adrenal gland
  • approximately 10% arise in childhood

Inheritance and Genetic Syndromes

Up to 25% of pheochromocytomas may be familial. Mutations of the genes VHL, RET, NF1, SDHB and SDHD are all known to cause familial pheochromocytoma/extra-adrenal paraganglioma.

Pheochromocytoma is a component tumor of the multiple endocrine neoplasia syndrome, type IIA (also known as MEN IIA). The other component neoplasms of that syndrome include parathyroid adenomas, and medullary thyroid cancer. Mutations in the autosomal RET proto-oncogene drives these malignancies [2]. Common mutations in the RET oncogene may also account for medullary sponge kidney as well. [3]

Pheochromocytoma is a component of MEN IIA and MEN IIB, which can be caused by RET oncogene mutations. Both syndromes are characterized by pheochromocytoma as well as thyroid cancer (thyroid medullary carcinoma). MEN IIA also presents with hyperparathyroidism, while MEN IIB also presents with mucosal neuroma. It is now believed that Lincoln suffered from MEN IIB, and not Marfan's syndrome as previously thought.


The signs and symptoms of a pheochromocytoma are those of sympathetic nervous system hyperactivity, including:

A pheochromocytoma can also cause resistant arterial hypertension. A pheochromocytoma can be fatal if it causes malignant hypertension, or severely high blood pressure.

Not all patients experience all of the signs and symptoms listed.


File:Adrenal pheochromocytoma (3) histopathology.jpg

Histopathology of adrenal pheochromocytoma. Adrenectomy specimen.



The diagnosis can be established by measuring catecholamines and metanephrines in plasma or through a 24-hour urine collection. Care should be taken to rule out other causes of adrenergic (adrenalin-like) excess like hypoglycemia, stress, exercise, and drugs affecting the catecholamines like stimulants, methyldopa, dopamine agonists, or ganglion blocking antihypertensives. Various foodstuffs (e.g. vanilla ice cream) can also affect the levels of urinary metanephrine and VMA (vanillyl mandelic acid). Imaging by computed tomography or a T2 weighted MRI of the head, neck, and chest, and abdomen can help localize the tumor. Tumors can also be located using Iodine-131 meta-iodobenzylguanidine (I131 MIBG) imaging.

One diagnostic test used in the past for a pheochromocytoma is to administer clonidine, a centrally-acting alpha-2 agonist used to treat high blood pressure. Clonidine mimics catecholamines in the brain, causing it to reduce the activity of the sympathetic nerves controlling the adrenal medulla. A healthy adrenal medulla will respond to the Clonidine suppression test by reducing catecholamine production; the lack of a response is evidence of pheochromocytoma.

Another test is for the clinician to press gently on the adrenal gland. A pheochromocytoma will often release a burst of catecholamines, with the associated signs and symptoms quickly following. This method is not recommended because of possible complications arising from a potentially massive release of catecholamines.

Pheochromocytomas occur most often during young-adult to mid-adult life. Less than 10% of pheochromocytomas are malignant (cancerous), bilateral or pediatric.

These tumors can form a pattern with other endocrine gland cancers which is labeled multiple endocrine neoplasia (MEN). Pheochromocytoma may occur in patients with MEN 2 and MEN 3. VHL (Von Hippel Lindau) patients may also develop these tumors.

Patients experiencing symptoms associated with pheochromocytoma should be aware that it is rare. However, it often goes undiagnosed until autopsy; therefore patients might wisely choose to take steps to provide a physician with important clues, such as recording whether blood pressure changes significantly during episodes of apparent anxiety.

Differential diagnosis

The differential diagnosis of pheochromocytoma includes:


Surgical resection of the tumor is the treatment of first choice, either by open laparotomy or else laparoscopy.[4] Given the complexity of perioperative management, and the potential for catastrophic intra and postoperative complications, such surgery should be performed only at centers experienced in the area. In addition to the surgical expertise that such centers can provide, they will also have the necessary endocrine and anesthesia resources as well. It may also be nescessary to carry out adrenalectomy, a complete surgical removal of the affected adrenal gland(s).

Either surgical option requires prior treatment with the non-specific and irreversible alpha adrenoceptor blocker Phenoxybenzamine. Doing so permits the surgery to proceed while minimizing the likelihood of severe intraoperative hypertension (as might occur when the tumor is manipulated). Some authorities would recommend that a combined alpha/beta blocker such as labetalol also be given in order to slow the heart rate. Regardless, a 'pure' beta blocker such as atenolol must never be used in the presence of a pheochromocytoma due to the risk of such treatment leading to unopposed alpha agonism and, thus, severe and potentially refractory hypertension.

The patient with pheochromocytoma is invariably volume depleted. In other words, the chronically elevated adrenergic state charactersitic of an untreated pheochromocytoma leads to near-total inhibition of renin-angiotensin activity. Volume depletion results. Hence, once the pheochromocytoma has been resected, thereby removing the major source of circulating catecholamines, a situation arises where there is both very low sympathetic activity and volume depletion. This can result in profound hypotension. Therefore, it is usually advised to "salt load" pheochromocytoma patients before their surgery. This may consist of simple interventions such as consumption of high salt food pre-operatively, direct salt replacement (perhaps in the form of bouillon cubes such as Oxo), or through the administration of intravenous saline solution.


In 1886, Fränkel made the first description of a patient with pheochromocytoma, however the term was first coined by Ludwig Pick, a pathologist, in 1912. In 1926, Roux (in Switzerland) and Mayo (in U.S.A.) were the first surgeons to remove pheochromocytomas.


  1. Boulpaep, Emile L.; Boron, Walter F. (2003). Medical physiology: a cellular and molecular approach, 1065, Philadelphia: Saunders.
  3. Diouf B, Ka EH, Calender A, Giraud S, Diop TM (2000). Association of medullary sponge kidney disease and multiple endocrine neoplasia type IIA due to RET gene mutation: is there a causal relationship?. Nephrol. Dial. Transplant. 15 (12): 2062–3.
  4. Jaroszewski DE, Tessier DJ, Schlinkert RT, et al (2003). Laparoscopic adrenalectomy for pheochromocytoma. Mayo Clin. Proc. 78 (12): 1501–4.

External links

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