Home > Health & Wellness > Health Library > Liver (Hepatocellular) Cancer Screening (PDQ®): Screening - Health Professional Information [NCI]
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Note: Separate PDQ summaries on Adult Primary Liver Cancer Treatment and Childhood Liver Cancer Treatment are also available.
Based on fair evidence, screening of persons at elevated risk does not result in a decrease in mortality from hepatocellular cancer.
Magnitude of Effect: No reduction in mortality.
Based on fair evidence, screening would result in rare but serious side effects associated with needle aspiration cytology such as needle-track seeding, particularly of lesions more than 2 cm in diameter, and hemorrhage, bile peritonitis, and pneumothorax. Transjugular liver biopsy is rarely associated with major complications such as perforation of the hepatic capsule or cholangitis.
Magnitude of Effect: Good evidence for uncommon but serious harms.
Incidence, Mortality, and Risk Factors
Hepatocellular cancer (HCC) is the fourth most common cancer in the world. Age-standardized incidence rates vary from 2.1 per 100,000 in North America  to 80 per 100,000 in China. In the United States, it is estimated that there will be 33,190 new cases diagnosed in 2014 and 23,000 deaths due to this disease. There is a distinct male preponderance among all ethnic groups in the United States, although this trend is most marked among Chinese Americans, in whom the annualized rate of HCC among men is 22.1 per 100,000 and among women is 8.5 per 100,000 population. Chronic hepatitis B and C are recognized as the major factors worldwide increasing the risk of HCC, with risk being greater in the presence of coinfection with hepatitis B virus and hepatitis C virus.[5,6,7] The incidence of HCC in individuals with chronic hepatitis is as high as 0.46% per year. In the United States, chronic hepatitis B and C account for about 30% to 40% of HCC. Chronic hepatitis G infection is not associated with HCC in either hepatitis B surface antigen–positive carriers or noncarriers.
Cirrhosis is also a risk factor for HCC, irrespective of the etiology of the cirrhosis. The annual risk of developing HCC among persons with cirrhosis is between 1% and 6%. Other risk factors include alcoholic cirrhosis, hemochromatosis, alpha-l-antitrypsin deficiency, glycogen storage disease, porphyria cutanea tarda, tyrosinemia, and Wilson disease, but rarely biliary cirrhosis. A retrospective case-control study found that features suggestive of nonalcoholic steatohepatitis, including obesity, type 2 diabetes, dyslipidemia, and insulin resistance, were more frequently observed in patients with HCC associated with cryptogenic cirrhosis than in those with HCC of viral or alcohol etiology.[10,11] Aflatoxins, which are mycotoxins formed by certain Aspergillus species, are a frequent contaminant of improperly stored grains and nuts. In parts of Africa, the high incidence of HCC in humans may by related to ingestion of foods contaminated with aflatoxins. This association, however, is blurred by the frequent coexistence of hepatitis B infection in those population groups. The likely etiology of HCC is summarized in the following table.
Rationale for Screening
The rationale for screening for hepatocellular carcinoma (HCC) is based on the concept that populations at high risk for HCC, such as those with cirrhosis, can be identified. However, 20% to 50% of patients presenting with HCC have previously undiagnosed cirrhosis.[1,2] These patients would not be recruited into a surveillance program if the presence of cirrhosis is used to define a target population. The modalities potentially available for screening include serum alpha-fetoprotein (AFP) and ultrasonography. Abnormal screening results may lead to liver biopsy for diagnosis. Complications of liver biopsy are reported in 0.06% to 0.32% of patients, and typically occur within the first few hours after the biopsy.
Tumor Markers for the Detection of Hepatocellular Carcinoma
There are four categories of tumor markers that are currently being used or studied for the detection of hepatocellular carcinoma. These include oncofetal antigens and glycoprotein antigens; enzymes and isoenzymes; genes; and cytokines.
Serum AFP, a fetal-specific glycoprotein antigen, is the most widely used tumor marker for detecting patients with HCC. The reported sensitivity of AFP for detecting HCC varies widely in both hepatitis B virus (HBV)-positive and HBV-negative populations, which is attributable to overlap between screening and diagnosis study designs. When AFP is used for screening of high-risk populations, a sensitivity of 39% to 97%, specificity of 76% to 95%, and a positive predictive value (PPV) of 9% to 32% have been reported.[5,6,7,8,9] AFP is not specific for HCC. Titers also rise in acute or chronic hepatitis, in pregnancy, and in the presence of germ cell tumors.
A prospective, 16-year, population-based, observational study of screening for hepatocellular cancer among 1,487 Alaska Natives chronically infected with HBV compared survival among screen-detected HCC patients with a historical comparison group of clinically diagnosed HCC patients. The screening program's target was AFP determination every 6 months. It achieved 97% sensitivity and 95% specificity (excluding pregnant women) for HCC. Such high sensitivity and specificity have not been found for other high-risk groups, such as individuals with cirrhosis.[11,12] Whether screening actually improved survival is not clear.
Limitations in the sensitivity and specificity of AFP in surveillance of high-risk populations led to the use of ultrasound as an additional method for detection of HCC. Studies in both healthy hepatitis B surface antigen carriers  and in patients with cirrhosis  have defined the performance characteristics of ultrasound as a screening test for HCC. Sensitivity in the former was 71% and in the latter 78%, with 93% specificity. The PPVs were 14% and 73%, respectively. In a study of patients who were on a waiting list for liver transplantation, ultrasonography was found to have a sensitivity of 58%, a specificity of 94%, a negative predictive value of 91%, and a PPV of 68%.
Limitations in the sensitivity and specificity of AFP and ultrasound in surveillance of high-risk populations, such as individuals with cirrhosis, led to the assessment of computed tomography (CT) as an additional method for detection of HCC. Studies in patients with cirrhosis suggest that CT may be a more sensitive test for HCC than ultrasound or AFP more than 20 μg/L.[11,12]
Efficacy of Screening and Surveillance Programs
A controlled trial of 18,816 persons aged 35 to 59 years with hepatitis B in Shanghai randomly assigned patients to a screening group using AFP and ultrasound every 6 months versus a usual-care group. HCC mortality was lower in the screened group (83.2 vs. 131.5 per 100,000; mortality rate ratio of 0.63 [95% confidence interval (CI), 0.41–0.98]). While these results are promising, there were problems, including the following:
A randomized controlled trial studied 5,581 men aged 30 to 69 years who were chronic carriers of HBV between 1989 and 1995 in Qidong County, China. Of these men, 3,712 were randomly assigned to a screening group and 1,869 to a control group. Screening entailed 6-monthly AFP assays, with follow-up of patients having an abnormal (≥20 μg/L) test result. All patients were followed up for liver cancer and/or death. The overall sensitivity and specificity of the program were 55.3% and 86.5%, respectively. In patients who complied with all scheduled screening tests, sensitivity was 80% and specificity was 80.9%. The mortality rate in the screening group (1,138 per 100,000 person-years) was not significantly different from that in the control group (1,114 per 100,000 person-years), although AFP screening resulted in an earlier diagnosis of liver cancer (i.e., percentage of cases in stage I was significantly higher in the screened group [29.0%] than in the control group [6%]). A review concluded that the method of measuring AFP was not sensitive enough to detect HCC, affecting interpretation of the negative result of this trial.
Two kinds of harms or complications may result from screening. Direct harms may result from complications of liver biopsy done as part of the diagnostic workup. Such complications are reported in 0.06% to 0.32% of patients, and typically occur within the first few hours after the biopsy. Complications include hemorrhage, bile peritonitis, penetration of viscera, and pneumothorax. Rarely, death occurs as a direct result of liver biopsy (0.009%–0.12%). About one third of patients experience pain at the site of entry, in the right upper quadrant, or in the right shoulder. Needle aspiration cytology and liver biopsy are rarely associated with needle-track implantation of malignant cells. Lead-time bias (earlier diagnosis in the natural history of HCC rather than improved survival from earlier diagnosis and treatment), length bias (earlier detection of slower-growing and less aggressive tumors through screening), and/or overdiagnosis of HCC (detection of tumors that will not affect morbidity or mortality) may wholly or partially account for the improved 5-year and 10-year survival rates reported.
The PDQ cancer information summaries are reviewed regularly and updated as new information becomes available. This section describes the latest changes made to this summary as of the date above.
Updated statistics with estimated new cases and deaths for 2014 (cited American Cancer Society as reference 3).
This summary is written and maintained by the PDQ Screening and Prevention Editorial Board, which is editorially independent of NCI. The summary reflects an independent review of the literature and does not represent a policy statement of NCI or NIH. More information about summary policies and the role of the PDQ Editorial Boards in maintaining the PDQ summaries can be found on the About This PDQ Summary and PDQ NCI's Comprehensive Cancer Database pages.
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Purpose of This Summary
This PDQ cancer information summary for health professionals provides comprehensive, peer-reviewed, evidence-based information about liver (hepatocellular) cancer screening. It is intended as a resource to inform and assist clinicians who care for cancer patients. It does not provide formal guidelines or recommendations for making health care decisions.
Reviewers and Updates
This summary is reviewed regularly and updated as necessary by the PDQ Screening and Prevention Editorial Board, which is editorially independent of the National Cancer Institute (NCI). The summary reflects an independent review of the literature and does not represent a policy statement of NCI or the National Institutes of Health (NIH).
Board members review recently published articles each month to determine whether an article should:
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Levels of Evidence
Some of the reference citations in this summary are accompanied by a level-of-evidence designation. These designations are intended to help readers assess the strength of the evidence supporting the use of specific interventions or approaches. The PDQ Screening and Prevention Editorial Board uses a formal evidence ranking system in developing its level-of-evidence designations.
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National Cancer Institute: PDQ® Liver (Hepatocellular) Cancer Screening. Bethesda, MD: National Cancer Institute. Date last modified <MM/DD/YYYY>. Available at: http://cancer.gov/cancertopics/pdq/screening/hepatocellular/HealthProfessional. Accessed <MM/DD/YYYY>.
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Last Revised: 2014-02-21
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