Tumor lysis syndrome |
Tumor lysis syndrome (TLS) is a group of metabolic abnormalities that can occur as a complication from the treatment of cancer,[1] where large amounts of tumor cells are killed off (lysed) from the treatment, releasing their contents into the bloodstream. This occurs most commonly after the treatment of lymphomas and leukemias and in particular when treating non-Hodgkin lymphoma, acute myeloid leukemia, and acute lymphoblastic leukemia.[2] This is a potentially fatal complication and patients at increased risk for TLS should be closely monitored while receiving chemotherapy and should receive preventive measures and treatments as necessary. TLS can also occur on its own (while not being treated with chemotherapy) although this is less common.[3]
Tumor lysis syndrome is characterized by high blood potassium (hyperkalemia), high blood phosphate (hyperphosphatemia), low blood calcium (hypocalcemia), high blood uric acid (hyperuricemia), and higher than normal levels of blood urea nitrogen (BUN).[4] These changes in blood electrolytes and metabolites are a result of the release of cellular contents of dying cells into the bloodstream. In this respect, TLS is analogous to rhabdomyolysis, with comparable mechanism and blood chemistry effects but with different cause. In TLS, the breakdown occurs after cytotoxic therapy or from cancers with high cell turnover and tumor proliferation rates. The metabolic abnormalities seen in tumor lysis syndrome can ultimately result in serious complications such as acute uric acid nephropathy, acute kidney failure, seizures, cardiac arrhythmias, and death.[5] [6]
Acute uric acid nephropathy (AUAN) due to hyperuricosuria has been a dominant cause of acute kidney failure, but with the advent of effective treatments for hyperuricosuria, AUAN has become a less common cause than hyperphosphatemia. Two common conditions related to excess uric acid, gout and uric acid nephrolithiasis, are not features of tumor lysis syndrome.
Risk factors for tumor lysis syndrome depend on several different characteristics of the patient, the type of cancer, and the type of chemotherapy used.[12]
Tumor characteristics: Tumors with a high cell turnover rate, rapid growth rate, and high tumor bulk tend to be more associated with the development of tumor lysis syndrome. The most common tumors associated with this syndrome are poorly differentiated lymphomas (such as Burkitt's lymphoma), other Non-Hodgkin Lymphomas (NHL), acute lymphoblastic leukemia (ALL), and acute myeloid leukemia (AML). Other cancers (such as melanoma) have also been associated with TLS but are less common.
Patient characteristics: Certain patient-related factors can affect the development of clinical tumor lysis syndrome. These factors include elevated baseline serum creatinine, kidney failure, dehydration, and other issues affecting urinary flow or the acidity of urine.
Chemotherapy characteristics: Chemo-sensitive tumors, such as lymphomas, carry a higher risk for the development of tumor lysis syndrome. Those tumors that are more responsive to a chemotherapy agent carry a higher TLS risk. Usually, the precipitating medication regimen includes combination chemotherapy, but TLS can be triggered in cancer patients by steroid treatment alone, and sometimes without any treatment—in this case the condition is referred to as "spontaneous tumor lysis syndrome".
TLS should be suspected in patients with large tumor burden who develop acute kidney failure along with hyperuricemia (> 15 mg/dL) or hyperphosphatemia (> 8 mg/dL). (Most other acute kidney failure occurs with uric acid < 12 mg/dL and phosphate < 6 mg/dL). Acute uric acid nephropathy is associated with little or no urine output. The urinalysis may show uric acid crystals or amorphous urates. The hypersecretion of uric acid can be detected with a high urine uric acid - creatinine ratio > 1.0, compared to a value of 0.6–0.7 for most other causes of acute kidney failure.
In 2004, Cairo and Bishop defined a classification system for tumor lysis syndrome.[13]
A grading scale (0–5) is used depending on the presence of lab TLS, serum creatinine, arrhythmias, or seizures.
In 2011, Howard proposed a refinement of the standard Cairo-Bishop definition of TLS accounting for 2 limitations:[14]
Moreover, any symptomatic hypocalcemia should constitute clinical TLS.
It is important to prevent life-threatening manifestations associated with TLS which include acute kidney injury, hyperkalemia (which may cause cardiac arrhythmias), and or hypocalcemia (which may cause cardiac arrhythmias and neuromuscular irritability).
Acute kidney injury: Patients at risk for developing TLS (e.g. patients about to receive chemotherapy for a cancer with a high cell turnover rate, especially lymphomas and leukemias) should receive appropriate intravenous hydration in order to improve blood flow to the kidneys, maximize urine output, and ultimately prevent precipitation of uric acid crystals that can lead to acute kidney injury. A diuretic may also be indicated to further increase urine output in addition to intravenous hydration. Another approach to prevent damage to the kidneys is to prevent the buildup of uric acid during TLS, and this can be accomplished with use of allopurinol or rasburicase. Allopurinol (a xanthine oxidase inhibitor, which inhibits uric acid production) works by preventing the formation of uric acid following tumor cell lysis. Rasburicase is a synthetic urate oxidase enzyme and acts by degrading uric acid.[15] [16] It is not recommended to alkalinize urine in the management of TLS.
Hyperkalemia: Monitoring potassium levels in the blood frequently and cardiac monitoring (given the risk of cardiac arrhythmias) are important components in the prevention of adverse consequences in TLS. Other strategies, such as limiting oral intake of potassium, and excreting potassium through the gastrointestinal tract using agents such as oral sodium polystyrene sulfonate, can be beneficial. Insulin therapy (in conjunction with glucose administration) as well as beta-receptor agonists (such as albuterol) can also be used, but are temporary interventions, and potassium is not excreted from the body. Hemodialysis and hemofiltration can also be used as options to remove potassium from the bloodstream when hyperkalemia is present.
Hypocalcemia: Hyperphosphatemia is a common finding in TLS, and high phosphorus levels can in turn contribute to hypocalcemia. Therefore, phosphate binders may be beneficial in preventing this form of hypocalcemia.
See main article: article, hyperkalemia, hyperphosphatemia, hyperuricemia and hypocalcemia. Treatment is first targeted at the specific metabolic disorder.
In general, rasburicase and hydration are the mainstays of treatment in patients with clinical evidence of tumor lysis syndrome.[17] A loop diuretic may also be indicated to maintain appropriate production of urine by the kidneys. Further treatment is targeted towards the specific metabolic abnormalities present in patients with TLS (see "main articles" linked above). Mild hyperkalemia without symptoms can be treated with a loop diuretic and sodium polystyrene sulfonate, while a temporizing agent such as rapid acting insulin (in conjunction with glucose) and an agent to stabilize cardiac membranes such as calcium carbonate may be given in cases of severe hyperkalemia. Concerning symptoms related to hypocalcemia (e.g. seizures) in TLS patients can be treated with calcium gluconate. Tumor lysis patients may ultimately also require renal replacement therapy such as through hemodialysis if indicated.
The rate of mortality from tumor lysis syndrome may vary widely depending on the type of underlying malignancy.[18] However, the occurrence of acute kidney injury is concerning given the high mortality that is generally associated with it.