Patients with blood group O and B may need to fast before the test to avoid contribution from the intestinal isoenzyme if there is an unexplained elevation of alkaline phosphatase on routine tests. The phlebotomist uses a gold-top serum separator tube containing a clot activator and serum gel separator to collect the blood for analysis.

There are many potential analytic sources of error. Factors such as concentrations of phosphate, magnesium, citrate, type, and concentration of buffer maintenance of the correct temperature may affect the result.

When alkaline phosphatase is the only liver biochemical test that presents as elevated (i.e., when the serum aminotransferases are within normal limits), or when alkaline phosphatase is disproportionately elevated compared to other liver biochemical tests, evaluation of the patient should focus on identifying the cause and the source for the isolated or disproportionate alkaline phosphatase elevation. In asymptomatic patients with isolated elevation of serum alkaline phosphatase, it is essential to identify the primary source of abnormality. Alkaline phosphatases derived from the liver, bone, placenta, and intestines have different physicochemical properties. There are three general methods that have shown to be particularly used for discriminating between isoenzymes: thermostability studies; differential inhibition with various small peptides, amino acids, and other low molecular weight substances; and immunologic methods.[14]

One approach utilizes the measurement of the activity of those enzymes, which increase in concordance with the liver alkaline phosphatase such as 5’-nucleotidase (5NT) and gamma-glutamyl transpeptidase (GGT). These enzymes are not elevated in disorders of bone and correlate well with hepatobiliary disorders. Serum GGT is very sensitive to biliary tract disease but is less specific for liver disorders. 5NT levels may become elevated in pregnant patients; however, in non-pregnant patients, it is relatively specific for liver disorder and correlates strongly with serum alkaline phosphatase of liver origin. However, lack of an elevated 5NT in the presence of an elevated alkaline phosphatase does not rule out hepatobiliary disease as they do not rise concomitantly in early or mild hepatic injury.[15]

The principal clinical value of measuring serum alkaline phosphatase lies in the diagnosis of cholestatic liver disease—some of the highest elevations in alkaline phosphatases present in patients with cholestasis. Usually, four-fold of the upper limit of normal or greater elevation occurs in up to 75% of the patients with cholestasis, either intrahepatic or extrahepatic. The degree of elevation does not help distinguish the two types. Similar elevations occur in biliary obstruction due to cancer (cholangiocarcinoma, pancreatic head adenocarcinoma, or ampullary adenocarcinoma), choledocholithiasis, biliary stricture, sclerosing cholangitis, or causes of intrahepatic cholestasis such as primary biliary cholangitis, drug-induced liver injury, chronic rejection of liver allografts, infiltrative liver disease (sarcoidosis, amyloidosis, tuberculosis, and liver metastasis), severe alcoholic hepatitis causing steatonecrosis. Patients with AIDS may also have particularly high levels, either due to cholangiopathy from opportunistic infections such as cytomegalovirus, cryptosporidiosis, or granulomatous involvement of the liver from tuberculosis.[16][17]

Moderate elevation (up to four times the upper limit of normal) of serum alkaline phosphatase is nonspecific as it can occur in a variety of conditions affecting the liver including cirrhosis, chronic hepatitis, viral hepatitis, congestive heart failure, and ischemic cholangiopathy. Disorders that do not primarily involve the liver such as intra-abdominal infections, cholestasis of sepsis, Hodgkin lymphoma, myeloid metaplasia, and osteomyelitis can also cause moderate elevation of serum alkaline phosphatase.

Primary or metastatic cancer raises serum alkaline phosphatase levels by local bile duct obstruction and increasing leakage of the liver isoenzyme. Primary extrahepatic cancer does not necessarily have to involve the liver or the bone; rarely, some tumors can produce their own alkaline phosphatase (Hodgkin lymphoma secreting the Regan isoenzyme) or exert a paraneoplastic effect causing leakage of the hepatic isoenzyme into the circulation (Stauffer syndrome due to renal cell carcinoma).[18][19]

Abnormally low levels can be useful clinically as they are seen in Wilson's disease, especially when presenting in a fulminant form with hemolysis. Zinc is a cofactor of Alkaline phosphatase, which gets displaced by copper in Wilson's disease, a disorder of copper overload, thereby leading to low levels. Other causes of low alkaline phosphatase levels are zinc deficiency, pernicious anemia, hypothyroidism, and congenital hypophosphatasia.[20]

An extensive evaluation is often not needed in those patients who have only a mild elevation of serum alkaline phosphatase (less than 50% elevation). Such patients may be observed clinically with periodic monitoring of serum liver biochemical tests. Whenever alkaline phosphatase levels are abnormally elevated, further evaluation should take place to determine whether the source is hepatic or non-hepatic. A hepatic source for an elevated alkaline phosphatase level is supported by the concomitant elevation of either GGT or 5NT. If the source is non-hepatic, then the evaluation of underlying undiagnosed disorder is the next step. An elevated bone alkaline phosphatase can occur in bone metastasis, Paget disease, osteogenic sarcoma, healing fractures, hyperparathyroidism, hyperthyroidism, and osteomalacia. Elevated intestinal fraction tends to occur after a fatty meal and runs in families; this does not require additional evaluation. If the liver is suspected to be the source, imaging of the biliary tree is necessary to differentiate between extrahepatic or intrahepatic cholestasis in addition to reviewing the medication list.[15][21][22]

A right upper quadrant ultrasonography is often the first imaging study ordered. If the bile duct has become dilated, either endoscopic retrograde cholangiopancreatography (ERCP) or magnetic resonance cholangiopancreatography (MRCP) is done depending on the clinical indication. If the bile duct does not show dilation, testing for serum antimitochondrial antibody (AMA) is the suggested next step to evaluate for primary biliary cholangitis (PBC). If serum AMA is normal, evaluation for causes of intrahepatic cholestasis, AMA-negative PBC, sarcoidosis, and various other previously mentioned disorders are necessary. Liver biopsy is often the final test employed in such situations as it helps to identify the etiology of elevated serum alkaline phosphatase.[23][24]

An alkaline phosphatase test may be ordered by a health care provider as part of a routine checkup or if the patient has symptoms of a bone disorder or liver damage. Proper evaluation and classification, by the patient's healthcare team, of any abnormal alkaline phosphatase levels and related findings result in better healthcare outcomes for the patient.