(See also Overview of Adrenal Function Overview of Adrenal Function The adrenal glands, located on the cephalad portion of each kidney (see figure Adrenal glands), consist of a Cortex Medulla The adrenal cortex and adrenal medulla each have separate endocrine... read more .)
The catecholamines secreted include norepinephrine, epinephrine, dopamine, and dopa in varying proportions.
Most pheochromocytomas are in the
Pheochromocytomas may also be located in other tissues derived from neural crest cells. Possible sites include the following:
Paraganglia of the sympathetic chain
Retroperitoneally along the course of the aorta
Organ of Zuckerkandl (at the aortic bifurcation)
Pheochromocytomas in the adrenal medulla occur equally in both sexes, are bilateral in 10% of cases (20% in children), and are malignant in < 10%. Of extra-adrenal tumors, known as paragangliomas, 30% are malignant. Although pheochromocytomas occur at any age, peak incidence is between the 20s and 40s. Nearly 50% are thought to be due to germline mutations.
Pheochromocytomas vary in size but average 5 to 6 cm in diameter. They weigh 50 to 200 g, but tumors weighing several kilograms have been reported. Rarely, they are large enough to be palpated or cause symptoms due to pressure or obstruction. Regardless of the histologic appearance, the tumor is considered benign if it has not invaded the capsule and no metastases are found, although exceptions occur. In general, larger tumors are more likely to be malignant.
Pheochromocytomas may be part of the syndrome of familial multiple endocrine neoplasia Overview of Multiple Endocrine Neoplasias (MEN) The multiple endocrine neoplasia (MEN) syndromes comprise 4 genetically distinct familial diseases involving adenomatous hyperplasia and malignant tumors in several endocrine glands. MEN 1 involves... read more (MEN) types 2A and 2B, in which other endocrine tumors (parathyroid or medullary carcinoma of the thyroid) coexist or develop subsequently. Pheochromocytoma develops in 1% of patients with neurofibromatosis Neurofibromatosis Neurofibromatosis refers to several related genetic disorders that have overlapping clinical manifestations. It causes various types of benign or malignant tumors that involve central or peripheral... read more and may occur with hemangioblastomas and renal cell carcinoma Renal Cell Carcinoma Renal cell carcinoma (RCC) is the most common renal cancer. Symptoms can include hematuria, flank pain, a palpable mass, and fever of unknown origin (FUO). However, symptoms are often absent... read more , as in von Hippel-Lindau disease Von Hippel–Lindau Disease (VHL) Von Hippel-Lindau disease is a rare hereditary neurocutaneous disorder characterized by benign and malignant tumors in multiple organs. Diagnosis is made using clinical criteria and/or molecular... read more . Familial pheochromocytomas and carotid body tumors may be due to mutations in genes encoding the enzyme succinate dehydrogenase or other signaling molecules.
Symptoms and Signs of Pheochromocytoma
Hypertension Hypertension Hypertension is sustained elevation of resting systolic blood pressure (≥ 130 mm Hg), diastolic blood pressure (≥ 80 mm Hg), or both. Hypertension with no known cause (primary; formerly, essential... read more , which is paroxysmal in 45% of patients, is prominent. About 1/1000 hypertensive patients has a pheochromocytoma. Common symptoms and signs are
Cold and clammy skin
Nausea and vomiting
A sense of impending doom
Paroxysmal attacks may be provoked by palpation of the tumor, postural changes, abdominal compression or massage, induction of anesthesia, emotional trauma, unopposed beta-blockade (which paradoxically increases blood pressure by blocking beta-mediated vasodilation), or micturition (if the tumor is in the bladder). In older patients, severe weight loss with persistent hypertension is suggestive of pheochromocytoma.
Physical examination, except for the presence of hypertension, is usually normal unless done during a paroxysmal attack. Retinopathy and cardiomegaly are often less severe than might be expected for the degree of hypertension, but a specific catecholamine cardiomyopathy can occur. However, cardiac and cerebrovascular events are more frequent in patients with pheochromocytomas than in others with similar blood-pressure levels.
Diagnosis of Pheochromocytoma
Plasma free metanephrines or urinary metanephrines
Chest and abdomen imaging (CT or MRI) if catecholamine screen positive
Possibly nuclear imaging with I-123 MIBG (metaiodobenzylguanidine) or Gallium-68 dotatate-PET scanning
Pheochromocytoma is suspected in patients with typical symptoms or particularly sudden, severe, or intermittent unexplained hypertension. Diagnosis involves demonstrating high levels of catecholamine products in the serum or urine.
Plasma free metanephrines are up to 99% sensitive with either metanephrine or more frequently normetanephrine being elevated. This test has superior sensitivity to measurement of circulating epinephrine and norepinephrine because plasma metanephrines are elevated continuously, unlike epinephrine and norepinephrine, which are secreted intermittently. Grossly elevated plasma norepinephrine renders the diagnosis highly probable. Plasma 3-methoxytyramine is a metabolite of dopamine and is indicative of a more aggressive tumor.
Urinary metanephrine and normetanephrine levels are slightly less specific for pheochromocytoma than plasma free metanephrine, but elevation of either metabolite has about 95% sensitivity . Two or 3 normal results while the patient is hypertensive render the diagnosis extremely unlikely. Measurement of urinary norepinephrine and epinephrine is less accurate.
The principal urinary metabolic products of epinephrine and norepinephrine are the metanephrines (metanephrine and normetanephrine), vanillylmandelic acid (VMA), and homovanillic acid (HVA). Healthy people excrete only very small amounts of these substances. Normal values for 24 hours are as follows:
Free epinephrine and norepinephrine < 100 mcg (< 582 nmol)
Total metanephrine < 1.3 mg (< 7.1 micromole), but fractionated metanephrine and normetanephrine are preferable
VMA < 10 mg (< 50 micromoles), which is now rarely used
HVA < 15 mg (< 82.4 micromoles), which is mainly used to detect neuroblastoma in children
In pheochromocytoma, increased urinary excretion of epinephrine and norepinephrine and their metabolic products is intermittent. Elevated excretion of these compounds may also occur in
Patients being treated with rauwolfia alkaloids, methyldopa, monoamine oxidase inhibitors, or catecholamines
Ingestion of foods containing large quantities of VMA
Blood volume is constricted and may falsely elevate hemoglobin and hematocrit levels. Hyperglycemia, glycosuria, or overt diabetes mellitus Diabetes Mellitus (DM) Diabetes mellitus is impaired insulin secretion and variable degrees of peripheral insulin resistance leading to hyperglycemia. Early symptoms are related to hyperglycemia and include polydipsia... read more may be present, with elevated fasting levels of plasma free fatty acid and glycerol. Plasma insulin level is inappropriately low for the plasma glucose. After removal of the pheochromocytoma, hypoglycemia may occur, especially in patients treated with oral antihyperglycemics.
Provocative tests with histamine or tyramine are hazardous and should not be used. Glucagon 0.5 to 1 mg injected rapidly IV provokes a rise in blood pressure of > 35/25 mm Hg within 2 minutes in normotensive patients with pheochromocytoma but is now generally unnecessary. Phentolamine mesylate must be available to terminate any hypertensive crisis.
Pearls & Pitfalls
A suppression test using oral clonidine or IV pentolinium can be used in patients with elevated plasma catecholamines, but is rarely necessary.
Imaging tests to localize tumors are usually done in patients with abnormal screening results. Tests should include CT and MRI of the chest and abdomen with and without contrast. With isotonic contrast media, no adrenoceptor blockade is necessary. Fluorodeoxyglucose (FDG)-PET has also been used successfully, especially in patients with succinate dehydrogenase mutations, but Gallium-68 dotatate-PET scanning is more useful.
During catheterization of the vena cava, repeated sampling of plasma catecholamine concentrations at different locations, including the adrenal veins, can help localize the tumor: there will be an increase in norepinephrine level in a vein draining the tumor. Adrenal vein norepinephrine:epinephrine ratios may help in the hunt for a small adrenal source, but determining these ratios is now rarely necessary.
Radiopharmaceuticals with nuclear imaging techniques can also help localize pheochromocytomas. Radionuclide imaging is rapidly advancing and increasingly I-123 MIBG is being replaced by Gallium-68 dotatate-PET scanning.
Signs of an associated genetic disorder (eg, café-au-lait patches in neurofibromatosis) should be sought. Patients should be screened for MEN with a serum calcitonin measurement and any other tests as directed by clinical findings. Most centers routinely do genetic testing, especially when the pheochromocytoma involves the sympathetic paraganglia and in younger patients, but probably all patients with pheochromocytoma should have genetic testing .
Treatment of Pheochromocytoma
Hypertension control with combination of alpha-blockers and then beta-blockers
Surgical removal of tumor with careful perioperative control of blood pressure and volume status
Surgical removal is the treatment of choice. The operation is usually delayed until hypertension is controlled by a combination of alpha-blockers and beta-blockers (usually phenoxybenzamine 20 to 40 mg orally 3 times a day and propranolol 20 to 40 mg orally 3 times a day). The blood pressure target is < 130/80 mmHg; some suggest the target should also include achieving a certain postural drop in blood pressure, but this is not essential. Re-equilibration of the cardiovascular system requires about 10 to 14 days, after which blockade is presumed to be effective. Beta-blockers should not be used until adequate alpha-blockade has been achieved. Some alpha-blockers, such as doxazosin, may be equally effective but better tolerated. Nitroprusside can be infused for hypertensive crises preoperatively or intraoperatively.
Pearls & Pitfalls
When bilateral tumors are documented or suspected (as in a patient with multiple endocrine neoplasia [MEN]), sufficient hydrocortisone (100 mg IV twice a day) given before and during surgery avoids acute glucocorticoid insufficiency due to bilateral adrenalectomy.
Most pheochromocytomas can be removed laparoscopically. Blood pressure must be continuously monitored via an intra-arterial catheter Arterial Catheterization A number of procedures are used to gain vascular access. Most patients’ needs for IV fluid and drugs can be met with a percutaneous peripheral venous catheter. If blind percutaneous placement... read more , and volume status is closely monitored. Anesthesia should be induced with a nonarrhythmogenic drug (eg, a thiobarbiturate) and continued with an inhaled drug (eg, enflurane, isoflurane). During surgery, paroxysms of hypertension should be controlled with injections of phentolamine 1 to 5 mg IV or nitroprusside infusion (2 to 4 mcg/kg/minute), and tachyarrhythmias should be controlled with propranolol or esmolol. If a muscle relaxant is needed, drugs that do not release histamine are preferred. Atropine should not be used preoperatively.
Preoperative blood transfusion (1 to 2 units) may be given before the tumor is removed in anticipation of blood loss. If blood pressure has been well controlled before surgery, a diet high in salt is recommended to increase blood volume. An infusion of norepinephrine 4 to 12 mg/L in a dextrose-containing solution beginning at 0.05 mcg/kg/minute and titrated to effect may be considered if hypotension develops. Some patients whose hypotension responds poorly to norepinephrine may benefit from hydrocortisone 100 mg IV, but adequate fluid replacement is usually all that is required.
Malignant metastatic pheochromocytoma should be treated with alpha-blockers and beta-blockers. The tumor may be indolent and survival long-lasting. However, even with rapid tumor growth, blood pressure can be controlled. I-131 MIBG or more recently lutetium-177 dotatate can help relieve symptoms in patients with residual disease. Metyrosine, a tyrosine hydroxylase inhibitor, may be used to decrease catecholamine production in patients whose blood pressure is difficult to control. Radiation therapy may reduce bone pain due to metastases. Chemotherapy is rarely effective, but the most common regimen tried is the combination of cyclophosphamide, vincristine, and dacarbazine. The chemotherapy agent temozolomide and targeted therapy with sunitinib or possibly cabozantinib may also be effective.
Hypertension may be constant or episodic.
Diagnosis involves demonstrating high levels of catecholamine products (typically plasma free metanephrines in the serum or 24-hour metanephrines in the urine).
Tumors should be localized with imaging tests, sometimes using radiolabeled compounds.
A combination of alpha-blockers and beta-blockers are given pending tumor removal.