- Email: [email protected]
Role of ethnicity in risk for hepatocellular carcinoma in patients with chronic hepatitis C and cirrhosis
CLINICAL GASTROENTEROLOGY AND HEPATOLOGY 2004;2:820 – 824
Role of Ethnicity in Risk for Hepatocellular Carcinoma in Patients With Chronic Hepatitis C and Cirrhosis MINDIE H. NGUYEN,*,‡ ALICE S. WHITTEMORE,§ RUEL T. GARCIA,储 SARAA A. TAWFEEK,* JING NING,* SUZANNA LAM,* TERESA L. WRIGHT,储,¶ and EMMET B. KEEFFE* *Division of Gastroenterology & Hepatology, and §Department of Epidemiology & Biostatistics, Stanford University, Stanford; ‡Department of Epidemiology & Biostatistics, and 储Division of Gastroenterology, University of California, San Francisco; and ¶Division of Gastroenterology, Veterans Administration Medical Center, San Francisco, California
Background & Aims: In the United States, hepatocellular carcinoma (HCC) is more common among Asians and African Americans than Caucasians, with chronic hepatitis C virus (HCV) infection accounting for up to half of the patients. Our study examined ethnicity as a potential risk factor for HCC among patients with chronic hepatitis C. Methods: We conducted a case-control study of 464 patients with chronic hepatitis C and cirrhosis (207 cancer patients and 257 controls) using medical records and pathology records at 4 medical centers. We estimated odds ratios with 95% confidence intervals by using conditional logistic regression on case-control sets, matched within study centers and study period on sex and age groups (<45, 46 –55, 56 – 65, >65 yr). To control for potential confounding caused by severity of cirrhosis and residual confounding caused by age, we also included Child–Turcotte–Pugh (CTP) scores and age (continuous variable) in all regression analyses. Results: Compared with Caucasians, the cancer risk was increased significantly among Asians (adjusted odds ratio, 4.3; 95% confidence interval, 2.1–9.0 for men, and 4.6; 1.2–18.5 for women) and somewhat increased among African-American men (adjusted odds ratio, 2.4; 95% confidence interval, 0.9 – 6.3). Conclusions: This study suggests that, among patients with chronic hepatitis C and cirrhosis, liver cancer risk is increased 4-fold in Asians and may be doubled in African-American men, compared with Caucasians. These results need confirmation in larger studies from racially diverse populations, but, if confirmed, these results point to high-risk populations that should be targeted for screening and preventive efforts.
nfection with hepatitis B virus (HBV) and hepatitis C virus (HCV) are the major risk factors for hepatocellular carcinoma (HCC).1– 4 In the United States, the overall age-adjusted HCC incidence has increased from 1.4 per 100,000 between 1975 and 1977 to 3.0 per 100,000 between 1996 and 1998, with the greatest rate of increase among patients between 45 and 49 years of age (1.9 per 100,000 in 1975–1977 to 6.5 per 100,000
I
in 1996 –1998), owing largely to the increasing rate of HCV-related HCC.5–9 Given the burden of HCV infection in the United States, HCV-related HCC is predicted to be a major health problem in the next few decades.7,10 Identification of high-risk patients among those infected with HCV may enhance our understanding of disease mechanisms and identify patients who may benefit the most from screening and chemopreventive efforts.11–14 Advanced age, more severe liver disease, and male gender are known to be associated with an increased risk for HCC in patients with various chronic liver diseases including chronic hepatitis C.15–18 On the other hand, results regarding HCV genotypes and alcohol and tobacco use as potential synergistic risk factors for HCC generally have been conflicting.16 –33 In the United States, higher overall HCC incidence and mortality also have been observed in African Americans and Asians,5,34,35 but few studies to date have examined ethnicity as a potential HCC risk factor in patients with chronic hepatitis C. Studies of Asians in the United States have suggested an association between excess HCC risk in Asians with chronic hepatitis B infection, but whether this excess risk also exists when Asian patients with chronic hepatitis C (without chronic hepatitis B) are compared with other racial/ethnic groups with chronic hepatitis C is unclear.36 –39
Materials and Methods Study Participants To examine ethnicity as a potential HCC risk factor in patients with chronic hepatitis C, we conducted a case-control study of patients with chronic hepatitis C and cirrhosis from 4 San Francisco Bay medical centers. Specifically, we reviewed medical and pathology records for diagnoses of chronic hepaAbbreviations used in this paper: AFP, ␣-fetoprotein; CTP, Child– Turcotte–Pugh score. © 2004 by the American Gastroenterological Association 1542-3565/04/$30.00 PII: 10.1053/S1542-3565(04)00353-2
September 2004
ETHNICITY ROLE IN HCC
821
Table 1. Distribution of Patients’ Clinical Characteristics, by Sex Men
Women
Risk factors
HCC (N ⫽ 172)
Controls (N ⫽ 197)
HCC (N ⫽ 35)
Controls (N ⫽ 60)
Age (yr, mean ⫾ SD) CTP (1–15 points, mean ⫾ SD) AFP (ng/mL, median and range) Ethnicity, N (%) Caucasian Hispanic African American Asian
57.8 ⫾ 9.7 7.8 ⫾ 2.4 51.5 (1.9–669,000)
52.1 ⫾ 7.8 7.3 ⫾ 2.6 7.0 (0.25–137)
62.7 ⫾ 9.5 8.4 ⫾ 2.5 183.0 (2.0–11,490)
55.7 ⫾ 8.2 7.2 ⫾ 2.3 9.0 (2–128.6)
95 (55) 17 (10) 18 (11) 42 (24)
140 (71) 34 (17) 8 (4) 15 (8)
9 (26) 5 (14) 5 (14) 16 (46)
35 (58) 8 (13) 7 (12) 10 (17)
titis C, cirrhosis, and HCC at Stanford University Medical Center during the period from January 1998 to December 2002, at the San Francisco Veterans Administration Medical Center from January 1995 to January 2001, at the University of California in San Francisco from January 1995 to July 2001, and at the San Francisco General Hospital from January 1996 to June 2001. All patient characteristics including ethnicity were obtained by chart review. We evaluated patient characteristics (e.g., age, serum ␣-fetoprotein [AFP], Child–Turcotte–Pugh [CTP] score)40,41 at a reference date, defined as the date of diagnosis for patients and as the date of first available AFP and imaging studies for controls. Eligible patients and control patients had chronic hepatitis C and cirrhosis (as determined by liver histology, clinical, and/or radiographic evidence of portal hypertension such as varices, ascites, encephalopathy, thrombocytopenia, and splenomegaly), no history of prior malignancy, no evidence of metabolic or autoimmune hepatitis, and no evidence of infection with HBV or human immunodeficiency virus. For case patients, we verified HCC diagnosis by cytology, histology, or by noninvasive criteria.42– 49 For control patients, we verified the absence of HCC by either negative explants, negative imaging studies and AFP level of 20 ng/mL or less,50,51 or negative imaging studies with at least one biphasic computed tomography, magnetic resonance image, and/or angiogram at least 6 months after the reference date if AFP level was greater than 20 but 200 ng/mL or less. Those with negative imaging studies but AFP level greater than 200 ng/mL have a high likelihood of occult HCC and were excluded.44 We identified a total of 520 potentially eligible patients with chronic hepatitis C and cirrhosis. Of these, 48 (9.2%) could not be classified as patients or controls because of insufficient data and were excluded. Eight patients with ethnicity listed other than Caucasian, Hispanic, African American, and Asian also were excluded. The study included the remaining 464 patients with chronic hepatitis C and cirrhosis: 207 patients and 257 controls. The study protocol was approved by the institutional review boards at Stanford University and University of California, San Francisco.
Statistical Analysis We estimated odds ratios with 95% confidence intervals by using conditional logistic regression on case-control sets, matched within study centers and study period, and sex and age group (ⱕ45, 46 –55, 56 – 65, ⬎65 yr). To control for potential confounding caused by cirrhosis severity and residual confounding caused by age, we also included CTP scores and age (continuous variable) in all regressions. Statistical significance was defined as a 2-sided P value of less than 0.05. All statistical analyses were performed using STATA (version 7.0; STATA Corporation, College Station, TX).
Results Patient Characteristics Table 1 shows the distribution of patient characteristics by sex. Among both sexes, patients were more likely than controls to be older, have higher CTP scores, higher AFP levels, and to be identified as Asian. Among men, patients also were more likely than controls to be identified as African American. The mean tumor size was 4.2 ⫾ 3.3 cm (SD) among patients. African-American patients were more likely to have multilobar tumor involvement compared with Caucasians, Hispanics, and Asian Americans (57% vs. 27%, 43%, and 24%, respectively, P ⫽ 0.009) (Table 2). Although there were no statistically significant differences in other tumor characteristics between the different ethnic groups, there is a trend for having larger or diffuse tumors, tumor vascular invasion, and multifocal tumors in African Americans (Table 2). Risk Factors for Hepatocellular Carcinoma in Hepatitis C Virus Cirrhosis Table 3 shows odds ratios adjusted for study center, reference age, and CTP score. Within each sex, Asians were more likely than Caucasians to develop HCC (odds ratio, 4.3; 95% confidence interval, 2.1–9.0 for
822
NGUYEN ET AL.
CLINICAL GASTROENTEROLOGY AND HEPATOLOGY Vol. 2, No. 9
Table 2. Tumor Characteristics by Ethnicity Tumor characteristics Tumor size ⬍5 cm ⱖ5 cm or diffuse Tumor number 1 2–3 ⱖ4 or diffuse Lobar involvement Unilobar Multilobar Vascular invasion No Yes
Caucasian (N ⫽ 104)
Hispanic (N ⫽ 22)
African American (N ⫽ 23)
Asian (N ⫽ 58)
65.1% 34.9%
71.4% 28.6%
39.1% 60.9%
64.9% 35.1%
0.089
54.8% 22.1% 23.1%
68.2% 22.7% 9.1%
30.4% 21.8% 47.8%
52.6% 24.6% 22.8%
0.095
76.0% 24.0%
57.1% 42.9%
43.5% 56.5%
73.2% 26.8%
0.009
80.5% 19.5%
80.0% 20.0%
68.8% 31.2%
92.5% 7.5%
0.10
men; odds ratio, 4.6; 95% confidence interval, 1.2–18.5 for women). There was also a trend toward increased HCC risk in African-American men (odds ratio, 2.4; 95% confidence interval, 0.89 – 6.3).
Discussion The present study indicates that, among patients with cirrhosis secondary to chronic hepatitis C, Asians and possibly African Americans have a higher risk for HCC than do Caucasians. After adjustment was made for age, sex, and severity of liver disease, Asian Americans were approximately 4 times more likely to have HCC than Caucasians (P ⬍ 0.0001). Published literature from Japan does report a much higher 5-year cumulative HCC incidence than the literature from Western patients.52–54 A prospective study of Italian patients with HCV and compensated cirrhosis reported a 5-year cumulative HCC incidence of approximately 4% to 6%.52 On the other hand, prospective studies of Japanese patients with HCV Table 3. HCC Risk According to Ethnicity on Case-Control Sets Matched Within Study Centers, Study Period, and Age Groups, by Sex
Sex Predictors Men, N ⫽ 369 Caucasian Hispanic African American Asian Women, N ⫽ 95 Caucasian Hispanic African American Asian
HCC (N ⫽ 207) n (%)
Controls (N ⫽ 257) n (%)
Multivariate ORa (95% CI)
95 (55) 17 (10) 18 (11) 42 (24)
140 (71) 34 (17) 8 (4) 15 (8)
1.0 (referent) 0.9 (0.44–1.7) 2.4 (0.89–6.3) 4.3 (2.1–9.0)
9 (26) 5 (14) 5 (14) 16 (46)
35 (58) 8 (13) 7 (12) 10 (17)
1.0 (referent) 1.2 (0.18–7.5) 2.2 (0.43–12.1) 4.6 (1.2–18.5)
aAdjusted for severity of liver disease (CTP score) and age (continuous variable).
P value
and cirrhosis reported a 5-year cumulative HCC incidence of up to 21.5% to 41%, albeit many if not the majority of these Japanese patients also had decompensated end-stage liver disease in addition to cirrhosis.53,54 Besides ethnicity-related genetic factors, other explanations for the observed increased HCC risk in Asians may involve potentially higher prevalences of occult HBV infection, longer duration of HCV infection, or differences in access to care or health-care–seeking behavior. Although the current analysis excluded patients with obvious HBV infection, traces of HBV still can be detected by sensitive polymerase chain reactions in serum and/or liver tissues of such patients.2 Asian immigrants also may acquire HCV infection during childhood from unsanitary medical practices and living conditions.36 Thus, at the same reference age, Asian patients may have been infected with HCV for 2–3 decades longer than Caucasian patients, many of whom may not have acquired the infection until the second or third decade of life. In addition, when compared with the ethnic distribution of San Francisco and Santa Clara County where the 4 study centers are located,55 there were more Caucasians and less Asians in the study group. This observation may be related to poorer access to care and different health-care–seeking behavior in Asians, but also could be due to the fact that at least 3 of the study centers (University of California, San Francisco Medical Center, Veterans Administration Medical Center in San Francisco, and Stanford University Medical Center) also serve patients from other parts of California (especially Northern and Central California), where there may be more Caucasians and less Asians than in the San Francisco Bay area. We limited our study to patients with cirrhosis secondary to HCV infection to focus on the most common cause of HCC in the United States and to exclude the possibility of
September 2004
confounding by case-control differences in prevalences of HBV infection and cirrhosis, 2 of the strongest HCC risk factors. We did not have adequate data to evaluate potential confounding by cigarette and alcohol use. However, evidence for association between these 2 exposures and HCC that is independent of causes of primary liver disease, presence, and severity of cirrhosis is still inconclusive because many studies examining these exposures include patients without any primary liver diseases or patients with liver disease of mixed causes or mixed severity in the control groups.16 –18,23–25,33 Spuriously increased odds ratios associated with ethnicity could arise if controls were obtained largely from one center that treated a high proportion of Caucasians, while cases were obtained from another center that treated a racially diverse set of patients. To minimize this possible bias, we matched all case-control sets within study centers and study periods in addition to adjusting for severity of liver cirrhosis in all regressions. The present study indicates that, among patients with HCV-related cirrhosis, the HCC risk is 4-fold higher in Asians than Caucasians and also may be increased in African-American men. These results need confirmation in larger studies in racially diverse populations and, if confirmed, point to high-risk populations that could be targeted for screening and preventive efforts.
References 1. Szilagyi A, Alpert L. Clinical and histopathological variation in hepatocellular carcinoma. Am J Gastroenterol 1995;90:15–23. 2. Liang TJ, Jeffers LJ, Reddy KR, De Medina M, Parker IT, Cheinquer H, Idrovo V, Rabassa A, Schiff ER. Viral pathogenesis of hepatocellular carcinoma in the United States. Hepatology 1993; 18:1326 –1333. 3. Tsukuma H, Hiyama T, Tanaka S, Nakao M, Yabuuchi T, Kitamura T, Nakanishi K, Fujimoto I, Inoue A, Yamazaki H, Kawashima T. Risk factors for hepatocellular carcinoma among patients with chronic liver disease. N Engl J Med 1993;328:1797–1801. 4. Di Bisceglie AM. Malignant neoplasm of the liver. In: Schiff ER, Sorrell MF, Maddrey WC, eds. Diseases of the liver. 8th ed. Philadelphia: Lippincott, 1999:1287–1292. 5. El-Serag HB, Mason AC. Rising incidence of hepatocellular carcinoma in the United States. N Engl J Med 1999;340:745–750. 6. El-Serag HB, Mason AC. Risk factors for the rising rates of primary liver cancer in the United States. Arch Intern Med 2000;160: 3227–3230. 7. El-Serag HB. Hepatocellular carcinoma and hepatitis C in the U.S. Hepatology 2002;36:S74 –S83. 8. Marrero JA, Fontana RJ, Su GL, Conjeevaram HS, Emick DM, Lok AS. NAFLD may be a common underlying liver disease in patients with hepatocellular carcinoma in the United States. Hepatology 2002;36:1349 –1354. 9. El-Serag HB, Davila JA, Petersen NJ, McGlynn KA. The continuing increase in the incidence of hepatocellular carcinoma in the United States: an update. Ann Intern Med. 2003;139:817– 823. 10. Kim RW. The burden of hepatitis C in the United States. Hepatology 2002;36:S30 –S34. 11. El-Serag HB, Mason AC, Key C. Trends in survival of patients with hepatocellular carcinoma between 1977 and 1996 in the United States. Hepatology 2001;33:62– 65.
ETHNICITY ROLE IN HCC
823
12. Nguyen MH, Keeffe EB. Treatment of hepatocellular carcinoma. In: Rustgi AK, Crawford J, eds. Gastrointestinal cancer: biology and clinical management. 1st ed. Philadelphia: Saunders, 2003:605– 622. 13. Nguyen MH, Keeffe EB. Screening for hepatocellular carcinoma. J Clin Gastroenterol 2002;35:S86 –S91. 14. Camma C, Giunta M, Andreone P, Craxi A. Interferon and prevention of HCC in viral cirrhosis: an evidenced-based approach. J Hepatol 2001;34:593– 602. 15. Ikeda K, Saitoh S, Koida I, Arase Y, Tsubota A, Chayama K, Kumada H, Kawanishi M. A multivariate analysis of risk factors for hepatocellular carcinogenesis: a prospective observation of 795 patients with viral and alcoholic cirrhosis. Hepatology 1993;18:47–53. 16. Mori M, Hara M, Wada I, Hara T, Yamamoto K, Honda M, Naramoto J. Prospective study of hepatitis B and C viral infections, cigarette smoking, alcohol consumption, and other factors associated with HCC risk in Japan. Am J Epidemiol 2000;151:131–139. 17. del Olmo JA, Serra MA, Rodriguez F, Escudero A, Gilabert S, Rodrigo JM. Incidence and risk factors for hepatocellular carcinoma in 967 patients with cirrhosis. J Cancer Res Clin Oncol 1998;124:560 –564. 18. Aizawa Y, Shibamoto Y, Takagi I, Zeniya M, Toda G. Analysis of factors affecting the appearance of hepatocellular carcinoma in patients with chronic hepatitis C. A long term follow-up study after histologic diagnosis. Cancer 2000;89:53–59. 19. Romeo R, Rumi MG, Del Ninno E, Colombo M. Hepatitis C virus genotype 1b and risk of hepatocellular carcinoma. Hepatology 1997;26:1077. 20. Tanaka K, Ikematsu H, Hirohata T, Kashiwagi S. Hepatitis C virus infection and risk of hepatocellular carcinoma among Japanese: possible role of type 1b (II) infection. J Natl Cancer Inst 1996;88:742–746. 21. Zein NN, Poterucha JJ, Gross JB Jr, Wiesner RH, Therneau TM, Gossard AA, Wendt NK, Mitchell PS, Germer JJ, Persing DH. Increased risk of hepatocellular carcinoma in patients infected with hepatitis C genotype 1b. Am J Gastroenterol 1996;9:2560–2562. 22. Bruno S, Silini E, Crosignani A, Borzio F, Leandro G, Bono F, Asti M, Rossi S, Larghi A, Cerino A, Podda M, Mondelli MU. Hepatitis C genotypes and risk of hepatocellular carcinoma in cirrhosis: a prospective study. Hepatology 1997;25:754 –758. 23. Tagger A, Donato F, Ribero ML, Chiesa R, Portera G, Gelatti U, Albertini A, Fasola M, Boffetta P, Nardi G. Case-control study on hepatitis C virus (HCV) as a risk factor for hepatocellular carcinoma: the role of HCV genotypes and the synergism with hepatitis B virus and alcohol. Brescia HCC study. Int J Cancer 1999;8:695– 699. 24. Kuper H, Tzonou A, Kaklamani E, Hsieh CC, Lagiou P, Adami HO, Trichopoulos D, Stuver SO. Tobacco smoking, alcohol consumption and their interaction in the causation of hepatocellular carcinoma. Int J Cancer 2000;85:498 –502. 25. Dutta U, Byth K, Kench J, Khan MH, Coverdale SA, Weltman M, Lin R, Liddle C, Farrell GC. Risk factors for development of hepatocellular carcinoma among Australians with hepatitis C: a case-control study. Aust N Z J Med 1999;29:300 –307. 26. Silini E, Bottelli R, Asti M, Bruno S, Candusso ME, Brambilla S, Bono F, Iamoni G, Tinelli C, Mondelli MU, Ideo G. Hepatitis C virus genotypes and risk of hepatocellular carcinoma in cirrhosis: a case-control study. Gastroenterology 1996;111:199 –205. 27. Nousbaum JB, Pol S, Nalpas B, Landais P, Berthelot P, Brechot C. Hepatitis C virus type 1b (II) infection in France and Italy. Collaborative Study Group. Ann Intern Med 1995;122:161–168. 28. Reid AE, Koziel MJ, Aiza I, Jeffers L, Reddy R, Schiff E, Lau JY, Dienstag JL, Liang TJ. Hepatitis C virus genotypes and viremia and hepatocellular carcinoma in the United States. Am J Gastroenterol 1999;94:1619 –1626. 29. Fattovich G, Ribero ML, Pantalena M, Diodati G, Almasio P,
824
30.
31.
32.
33.
34. 35.
36. 37.
38.
39.
40.
41.
42.
43.
44.
NGUYEN ET AL.
Nevens F, Tremolada F, Degos F, Rai J, Solinas A, Mura D, Tocco A, Zagni I, Fabris F, Lomonaco L, Noventa F, Realdi G, Schalm SW, Tagger A, Eurohep Study Group on Viral Hepatitis. Hepatitis C virus genotypes: distribution and clinical significance in patients with cirrhosis type C seen at tertiary referral centers in Europe. J Viral Hepat 2001;8:206 –216. Degos F, Christidis C, Ganne-Carrie N, Farmachidi JP, Degott C, Guettier C, Trinchet JC, Beaugrand M, Chevret S. Hepatitis C virus related cirrhosis: time to occurrence of hepatocellular carcinoma and death. Gut 2000;47:131–136. Widell A, Verbaan H, Wejstal R, Kaczynski J, Kidd-Ljunggren K, Wallerstedt S. Hepatocellular carcinoma in Sweden: its association with viral hepatitis, especially with hepatitis C viral genotypes. Scand J Infect Dis 2000;32:147–152. Benvegnu L, Pontisso P, Cavalletto D, Noventa F, Chemello L, Alberti A. Lack of correlation between hepatitis C virus genotypes and clinical course of hepatitis C virus-related cirrhosis. Hepatology 1997;25:211–215. Hassan MM, Hwang L-Y, Hatten CJ, Swaim M, Li D, Abbruzzese JL, Beasley P, Patt YZ. Risk factors for hepatocellular carcinoma: synergism of alcohol with viral hepatitis and diabetes mellitus. Hepatology 2002;36:1206 –1213. Teo EK, Fock KM. Hepatocellular carcinoma: an Asian perspective. Dig Dis 2001;19:263–268. Chin PL, Chu DZ, Clarke KG, Odom-Maryon T, Yen Y, Wagman LD. Ethnic differences in the behavior of hepatocellular carcinoma. Cancer 1999;85:1931–1936. Do S. The natural history of hepatitis B in Asian Americans. Asian Am Pac Islander J Health 2001;9:141–152. Di Bisceglie AM, Lyra AC, Schwartz M, Reddy RK, Martin P, Gores G, Lok AS, Hussain KB, Gish R, Van Thiel DH, Younossi Z, Tong M, Hassanein T, Balart L, Fleckenstein J, Flamm S, Blei A, Befeler AS, Liver Cancer Network. Hepatitis C-related hepatocellular carcinoma in the United States: influence of ethnic status. Am J Gastroenterol 2003;98:2060 –2063. Blakely TA, Bates MN, Baker MG, Tobias M. Hepatitis B carriage explains the excess rate of hepatocellular carcinoma for Maori, Pacific Island and Asian people compared to Europeans in New Zealand. Int J Epidemiol 1999;28:204 –210. Hwang SJ, Tong MJ, Lai PP, Ko ES, Co RL, Chien D, Kuo G. Evaluation of hepatitis B and C viral marker: clinical significance in Asian and Caucasian patients with hepatocellular carcinoma in the United States of America. J Gastroenterol Hepatol 1996;11:949 –954. Child CG III, Turcotte JG. Surgery in portal hypertension. In: Child CG III, ed. The liver and portal hypertension. Philadelphia: WB Saunders, 1964:50 Pugh RNH, Murray-Lyon IM, Dawson JJ, Pietroni NC, Williams R. Transection of the oesophagus for bleeding oesophaeal varices. Br J Surg 1973;60:646 – 649. Nino-Murcia M, Olcott EW, Jeffrey RB, Lamm RL, Beaulieu CF, Jain KA. Focal liver lesions: pattern-based classification scheme for enhancement at arterial phase CT. Radiology 2000;215:746 –751. Bruix J, Sherman M, Llovet JM, Beaugrand E, Lencioni R, Christensen E, Burroughs A, Christensen E, Pagliaro L, Colombo M, Rodes J. Clinical management of hepatocellular carcinoma. Conclusions of the Barcelona-2000 EASL Conference. J Hepatol 2001;35:421– 430. Gupta S, Bent S, Knowles J. Test characteristics of ␣-fetoprotein for detecting of hepatocellular carcinoma in patients with hepa-
CLINICAL GASTROENTEROLOGY AND HEPATOLOGY Vol. 2, No. 9
45.
46.
47.
48.
49.
50.
51.
52.
53.
54.
55.
titis C. A systematic review and critical analysis. Ann Intern Med 2003;139:46 –50. Nguyen MH, Garcia RT, Simpson P, Wright TL, Keeffe EB. Racial differences in effectiveness of ␣-fetoprotein for diagnosis of hepatocellular carcinoma in HCV cirrhosis. Hepatology 2002;36: 410 – 417. Trevisani F, D’Intino PE, Morselli-Labate AM, Mazzella G, Accogli E, Caraceni P, Domenicali M, De Notariis S, Roda E, Bernardi M. Serum alpha-fetoprotein for diagnosis of hepatocellular in patients with chronic liver disease: influence of HBsAg and anti-HCV status. J Hepatol 2001;34:570 –575. Peng YC, Chan CS, Chen GH. The effectiveness of serum alphafetoprotein level in anti-HCV positive patients for screening hepatocellular carcinoma. Hepatogastroenterology 1999;46:3208 –3211. Cedrone A, Covino M, Caturelli E, Pompilli M, Lorenzelli G, Villani MR, Valle D, Sperandeo M, Rapaccini GL, Gasbarrini G. Utility of alphafetoprotein (AFP) in the screening of patients with virus-related chronic liver disease: does different viral etiology influence AFP levels in HCC? A study in 350 Western patients. Hepatogastroenterology 2000;47:1654 –1658. Tong MJ, Blatt LM, Kao VW. Surveillance for hepatocellular carcinoma in patients with chronic viral hepatitis in the United States of America. J Gastroenterol Hepatol 2001;16:553–559. Sherman M, Peltekian KM, Lee C. Screening for hepatocellular carcinoma in chronic carriers of hepatitis B virus: incidence and prevalence of hepatocellular carcinoma in a North American urban population. Hepatology 1995;22:432– 438. Trevisani F, D’Intino PE, Caraceni P, Pizzo M, Stefanini GF, Mazziotti A, Grazi GL, Gozzetti G, Gasbarrini G, Bernardi M. Etiologic factors and clinical presentation of hepatocellular carcinoma. Difference between cirrhotic and non-cirrhotic Italian patients. Cancer 1995;75:2220 –2232. Fattovich G, Ribero ML, Pantalena M, Diodati G, Almasio P, Nevens F, Tremolada F, Degos F, Rai J, Solinas A, Mura D, Tocco A, Zagni I, Fabris F, Lomonaco L, Noventa F, Realdi G, Schalm SW, Tagger A. Hepatitis C virus genotypes: distribution and clinical significance in patients with cirrhosis type C seen at tertiary referral centres in Europe. J Viral Hepat 2001;8:206 –216. Ikeda K, Saitoh S, Koida I, Arase Y, Tsubota A, Chayama K, Kumada H, Kawanishi M. A multivariate analysis of risk factors for hepatocellular carcinogenesis: a prospective observation of 795 patients with viral and alcoholic cirrhosis. Hepatology 2003;18:47–53. Tanaka K, Sakai H, Hashizume M, Hirohata T. A long-term follow-up study on risk factors for hepatocellular carcinoma among Japanese patients with liver cirrhosis. Jpn J Cancer Res 1998;89:1241–1250. U.S. Census Bureau 2000. California quick facts. Available at: http://quickfacts.census.gov/qfd/states/06/06075.html. Accessed: April 7, 2004.
Address requests for reprints to: Emmet B. Keeffe, M.D., Professor of Medicine, Co-Director, Liver Transplant Program, Chief of Hepatology, Stanford University Medical Center, 750 Welch Road, Suite 210, Palo Alto, California 94304-1509. e-mail: [email protected]; fax: (650) 498-5692. Supported in part by the American Association for the Study of Liver Diseases/Schering Hepatology Research Fellow Award and by grant T32DK07056-26 from the National Institutes of Health to Stanford University (to M.H.N., S.A.T., J.N., S.L., and E.B.K.).
Role of Ethnicity in Risk for Hepatocellular Carcinoma in Patients With Chronic Hepatitis C and Cirrhosis MINDIE H. NGUYEN,*,‡ ALICE S. WHITTEMORE,§ RUEL T. GARCIA,储 SARAA A. TAWFEEK,* JING NING,* SUZANNA LAM,* TERESA L. WRIGHT,储,¶ and EMMET B. KEEFFE* *Division of Gastroenterology & Hepatology, and §Department of Epidemiology & Biostatistics, Stanford University, Stanford; ‡Department of Epidemiology & Biostatistics, and 储Division of Gastroenterology, University of California, San Francisco; and ¶Division of Gastroenterology, Veterans Administration Medical Center, San Francisco, California
Background & Aims: In the United States, hepatocellular carcinoma (HCC) is more common among Asians and African Americans than Caucasians, with chronic hepatitis C virus (HCV) infection accounting for up to half of the patients. Our study examined ethnicity as a potential risk factor for HCC among patients with chronic hepatitis C. Methods: We conducted a case-control study of 464 patients with chronic hepatitis C and cirrhosis (207 cancer patients and 257 controls) using medical records and pathology records at 4 medical centers. We estimated odds ratios with 95% confidence intervals by using conditional logistic regression on case-control sets, matched within study centers and study period on sex and age groups (<45, 46 –55, 56 – 65, >65 yr). To control for potential confounding caused by severity of cirrhosis and residual confounding caused by age, we also included Child–Turcotte–Pugh (CTP) scores and age (continuous variable) in all regression analyses. Results: Compared with Caucasians, the cancer risk was increased significantly among Asians (adjusted odds ratio, 4.3; 95% confidence interval, 2.1–9.0 for men, and 4.6; 1.2–18.5 for women) and somewhat increased among African-American men (adjusted odds ratio, 2.4; 95% confidence interval, 0.9 – 6.3). Conclusions: This study suggests that, among patients with chronic hepatitis C and cirrhosis, liver cancer risk is increased 4-fold in Asians and may be doubled in African-American men, compared with Caucasians. These results need confirmation in larger studies from racially diverse populations, but, if confirmed, these results point to high-risk populations that should be targeted for screening and preventive efforts.
nfection with hepatitis B virus (HBV) and hepatitis C virus (HCV) are the major risk factors for hepatocellular carcinoma (HCC).1– 4 In the United States, the overall age-adjusted HCC incidence has increased from 1.4 per 100,000 between 1975 and 1977 to 3.0 per 100,000 between 1996 and 1998, with the greatest rate of increase among patients between 45 and 49 years of age (1.9 per 100,000 in 1975–1977 to 6.5 per 100,000
I
in 1996 –1998), owing largely to the increasing rate of HCV-related HCC.5–9 Given the burden of HCV infection in the United States, HCV-related HCC is predicted to be a major health problem in the next few decades.7,10 Identification of high-risk patients among those infected with HCV may enhance our understanding of disease mechanisms and identify patients who may benefit the most from screening and chemopreventive efforts.11–14 Advanced age, more severe liver disease, and male gender are known to be associated with an increased risk for HCC in patients with various chronic liver diseases including chronic hepatitis C.15–18 On the other hand, results regarding HCV genotypes and alcohol and tobacco use as potential synergistic risk factors for HCC generally have been conflicting.16 –33 In the United States, higher overall HCC incidence and mortality also have been observed in African Americans and Asians,5,34,35 but few studies to date have examined ethnicity as a potential HCC risk factor in patients with chronic hepatitis C. Studies of Asians in the United States have suggested an association between excess HCC risk in Asians with chronic hepatitis B infection, but whether this excess risk also exists when Asian patients with chronic hepatitis C (without chronic hepatitis B) are compared with other racial/ethnic groups with chronic hepatitis C is unclear.36 –39
Materials and Methods Study Participants To examine ethnicity as a potential HCC risk factor in patients with chronic hepatitis C, we conducted a case-control study of patients with chronic hepatitis C and cirrhosis from 4 San Francisco Bay medical centers. Specifically, we reviewed medical and pathology records for diagnoses of chronic hepaAbbreviations used in this paper: AFP, ␣-fetoprotein; CTP, Child– Turcotte–Pugh score. © 2004 by the American Gastroenterological Association 1542-3565/04/$30.00 PII: 10.1053/S1542-3565(04)00353-2
September 2004
ETHNICITY ROLE IN HCC
821
Table 1. Distribution of Patients’ Clinical Characteristics, by Sex Men
Women
Risk factors
HCC (N ⫽ 172)
Controls (N ⫽ 197)
HCC (N ⫽ 35)
Controls (N ⫽ 60)
Age (yr, mean ⫾ SD) CTP (1–15 points, mean ⫾ SD) AFP (ng/mL, median and range) Ethnicity, N (%) Caucasian Hispanic African American Asian
57.8 ⫾ 9.7 7.8 ⫾ 2.4 51.5 (1.9–669,000)
52.1 ⫾ 7.8 7.3 ⫾ 2.6 7.0 (0.25–137)
62.7 ⫾ 9.5 8.4 ⫾ 2.5 183.0 (2.0–11,490)
55.7 ⫾ 8.2 7.2 ⫾ 2.3 9.0 (2–128.6)
95 (55) 17 (10) 18 (11) 42 (24)
140 (71) 34 (17) 8 (4) 15 (8)
9 (26) 5 (14) 5 (14) 16 (46)
35 (58) 8 (13) 7 (12) 10 (17)
titis C, cirrhosis, and HCC at Stanford University Medical Center during the period from January 1998 to December 2002, at the San Francisco Veterans Administration Medical Center from January 1995 to January 2001, at the University of California in San Francisco from January 1995 to July 2001, and at the San Francisco General Hospital from January 1996 to June 2001. All patient characteristics including ethnicity were obtained by chart review. We evaluated patient characteristics (e.g., age, serum ␣-fetoprotein [AFP], Child–Turcotte–Pugh [CTP] score)40,41 at a reference date, defined as the date of diagnosis for patients and as the date of first available AFP and imaging studies for controls. Eligible patients and control patients had chronic hepatitis C and cirrhosis (as determined by liver histology, clinical, and/or radiographic evidence of portal hypertension such as varices, ascites, encephalopathy, thrombocytopenia, and splenomegaly), no history of prior malignancy, no evidence of metabolic or autoimmune hepatitis, and no evidence of infection with HBV or human immunodeficiency virus. For case patients, we verified HCC diagnosis by cytology, histology, or by noninvasive criteria.42– 49 For control patients, we verified the absence of HCC by either negative explants, negative imaging studies and AFP level of 20 ng/mL or less,50,51 or negative imaging studies with at least one biphasic computed tomography, magnetic resonance image, and/or angiogram at least 6 months after the reference date if AFP level was greater than 20 but 200 ng/mL or less. Those with negative imaging studies but AFP level greater than 200 ng/mL have a high likelihood of occult HCC and were excluded.44 We identified a total of 520 potentially eligible patients with chronic hepatitis C and cirrhosis. Of these, 48 (9.2%) could not be classified as patients or controls because of insufficient data and were excluded. Eight patients with ethnicity listed other than Caucasian, Hispanic, African American, and Asian also were excluded. The study included the remaining 464 patients with chronic hepatitis C and cirrhosis: 207 patients and 257 controls. The study protocol was approved by the institutional review boards at Stanford University and University of California, San Francisco.
Statistical Analysis We estimated odds ratios with 95% confidence intervals by using conditional logistic regression on case-control sets, matched within study centers and study period, and sex and age group (ⱕ45, 46 –55, 56 – 65, ⬎65 yr). To control for potential confounding caused by cirrhosis severity and residual confounding caused by age, we also included CTP scores and age (continuous variable) in all regressions. Statistical significance was defined as a 2-sided P value of less than 0.05. All statistical analyses were performed using STATA (version 7.0; STATA Corporation, College Station, TX).
Results Patient Characteristics Table 1 shows the distribution of patient characteristics by sex. Among both sexes, patients were more likely than controls to be older, have higher CTP scores, higher AFP levels, and to be identified as Asian. Among men, patients also were more likely than controls to be identified as African American. The mean tumor size was 4.2 ⫾ 3.3 cm (SD) among patients. African-American patients were more likely to have multilobar tumor involvement compared with Caucasians, Hispanics, and Asian Americans (57% vs. 27%, 43%, and 24%, respectively, P ⫽ 0.009) (Table 2). Although there were no statistically significant differences in other tumor characteristics between the different ethnic groups, there is a trend for having larger or diffuse tumors, tumor vascular invasion, and multifocal tumors in African Americans (Table 2). Risk Factors for Hepatocellular Carcinoma in Hepatitis C Virus Cirrhosis Table 3 shows odds ratios adjusted for study center, reference age, and CTP score. Within each sex, Asians were more likely than Caucasians to develop HCC (odds ratio, 4.3; 95% confidence interval, 2.1–9.0 for
822
NGUYEN ET AL.
CLINICAL GASTROENTEROLOGY AND HEPATOLOGY Vol. 2, No. 9
Table 2. Tumor Characteristics by Ethnicity Tumor characteristics Tumor size ⬍5 cm ⱖ5 cm or diffuse Tumor number 1 2–3 ⱖ4 or diffuse Lobar involvement Unilobar Multilobar Vascular invasion No Yes
Caucasian (N ⫽ 104)
Hispanic (N ⫽ 22)
African American (N ⫽ 23)
Asian (N ⫽ 58)
65.1% 34.9%
71.4% 28.6%
39.1% 60.9%
64.9% 35.1%
0.089
54.8% 22.1% 23.1%
68.2% 22.7% 9.1%
30.4% 21.8% 47.8%
52.6% 24.6% 22.8%
0.095
76.0% 24.0%
57.1% 42.9%
43.5% 56.5%
73.2% 26.8%
0.009
80.5% 19.5%
80.0% 20.0%
68.8% 31.2%
92.5% 7.5%
0.10
men; odds ratio, 4.6; 95% confidence interval, 1.2–18.5 for women). There was also a trend toward increased HCC risk in African-American men (odds ratio, 2.4; 95% confidence interval, 0.89 – 6.3).
Discussion The present study indicates that, among patients with cirrhosis secondary to chronic hepatitis C, Asians and possibly African Americans have a higher risk for HCC than do Caucasians. After adjustment was made for age, sex, and severity of liver disease, Asian Americans were approximately 4 times more likely to have HCC than Caucasians (P ⬍ 0.0001). Published literature from Japan does report a much higher 5-year cumulative HCC incidence than the literature from Western patients.52–54 A prospective study of Italian patients with HCV and compensated cirrhosis reported a 5-year cumulative HCC incidence of approximately 4% to 6%.52 On the other hand, prospective studies of Japanese patients with HCV Table 3. HCC Risk According to Ethnicity on Case-Control Sets Matched Within Study Centers, Study Period, and Age Groups, by Sex
Sex Predictors Men, N ⫽ 369 Caucasian Hispanic African American Asian Women, N ⫽ 95 Caucasian Hispanic African American Asian
HCC (N ⫽ 207) n (%)
Controls (N ⫽ 257) n (%)
Multivariate ORa (95% CI)
95 (55) 17 (10) 18 (11) 42 (24)
140 (71) 34 (17) 8 (4) 15 (8)
1.0 (referent) 0.9 (0.44–1.7) 2.4 (0.89–6.3) 4.3 (2.1–9.0)
9 (26) 5 (14) 5 (14) 16 (46)
35 (58) 8 (13) 7 (12) 10 (17)
1.0 (referent) 1.2 (0.18–7.5) 2.2 (0.43–12.1) 4.6 (1.2–18.5)
aAdjusted for severity of liver disease (CTP score) and age (continuous variable).
P value
and cirrhosis reported a 5-year cumulative HCC incidence of up to 21.5% to 41%, albeit many if not the majority of these Japanese patients also had decompensated end-stage liver disease in addition to cirrhosis.53,54 Besides ethnicity-related genetic factors, other explanations for the observed increased HCC risk in Asians may involve potentially higher prevalences of occult HBV infection, longer duration of HCV infection, or differences in access to care or health-care–seeking behavior. Although the current analysis excluded patients with obvious HBV infection, traces of HBV still can be detected by sensitive polymerase chain reactions in serum and/or liver tissues of such patients.2 Asian immigrants also may acquire HCV infection during childhood from unsanitary medical practices and living conditions.36 Thus, at the same reference age, Asian patients may have been infected with HCV for 2–3 decades longer than Caucasian patients, many of whom may not have acquired the infection until the second or third decade of life. In addition, when compared with the ethnic distribution of San Francisco and Santa Clara County where the 4 study centers are located,55 there were more Caucasians and less Asians in the study group. This observation may be related to poorer access to care and different health-care–seeking behavior in Asians, but also could be due to the fact that at least 3 of the study centers (University of California, San Francisco Medical Center, Veterans Administration Medical Center in San Francisco, and Stanford University Medical Center) also serve patients from other parts of California (especially Northern and Central California), where there may be more Caucasians and less Asians than in the San Francisco Bay area. We limited our study to patients with cirrhosis secondary to HCV infection to focus on the most common cause of HCC in the United States and to exclude the possibility of
September 2004
confounding by case-control differences in prevalences of HBV infection and cirrhosis, 2 of the strongest HCC risk factors. We did not have adequate data to evaluate potential confounding by cigarette and alcohol use. However, evidence for association between these 2 exposures and HCC that is independent of causes of primary liver disease, presence, and severity of cirrhosis is still inconclusive because many studies examining these exposures include patients without any primary liver diseases or patients with liver disease of mixed causes or mixed severity in the control groups.16 –18,23–25,33 Spuriously increased odds ratios associated with ethnicity could arise if controls were obtained largely from one center that treated a high proportion of Caucasians, while cases were obtained from another center that treated a racially diverse set of patients. To minimize this possible bias, we matched all case-control sets within study centers and study periods in addition to adjusting for severity of liver cirrhosis in all regressions. The present study indicates that, among patients with HCV-related cirrhosis, the HCC risk is 4-fold higher in Asians than Caucasians and also may be increased in African-American men. These results need confirmation in larger studies in racially diverse populations and, if confirmed, point to high-risk populations that could be targeted for screening and preventive efforts.
References 1. Szilagyi A, Alpert L. Clinical and histopathological variation in hepatocellular carcinoma. Am J Gastroenterol 1995;90:15–23. 2. Liang TJ, Jeffers LJ, Reddy KR, De Medina M, Parker IT, Cheinquer H, Idrovo V, Rabassa A, Schiff ER. Viral pathogenesis of hepatocellular carcinoma in the United States. Hepatology 1993; 18:1326 –1333. 3. Tsukuma H, Hiyama T, Tanaka S, Nakao M, Yabuuchi T, Kitamura T, Nakanishi K, Fujimoto I, Inoue A, Yamazaki H, Kawashima T. Risk factors for hepatocellular carcinoma among patients with chronic liver disease. N Engl J Med 1993;328:1797–1801. 4. Di Bisceglie AM. Malignant neoplasm of the liver. In: Schiff ER, Sorrell MF, Maddrey WC, eds. Diseases of the liver. 8th ed. Philadelphia: Lippincott, 1999:1287–1292. 5. El-Serag HB, Mason AC. Rising incidence of hepatocellular carcinoma in the United States. N Engl J Med 1999;340:745–750. 6. El-Serag HB, Mason AC. Risk factors for the rising rates of primary liver cancer in the United States. Arch Intern Med 2000;160: 3227–3230. 7. El-Serag HB. Hepatocellular carcinoma and hepatitis C in the U.S. Hepatology 2002;36:S74 –S83. 8. Marrero JA, Fontana RJ, Su GL, Conjeevaram HS, Emick DM, Lok AS. NAFLD may be a common underlying liver disease in patients with hepatocellular carcinoma in the United States. Hepatology 2002;36:1349 –1354. 9. El-Serag HB, Davila JA, Petersen NJ, McGlynn KA. The continuing increase in the incidence of hepatocellular carcinoma in the United States: an update. Ann Intern Med. 2003;139:817– 823. 10. Kim RW. The burden of hepatitis C in the United States. Hepatology 2002;36:S30 –S34. 11. El-Serag HB, Mason AC, Key C. Trends in survival of patients with hepatocellular carcinoma between 1977 and 1996 in the United States. Hepatology 2001;33:62– 65.
ETHNICITY ROLE IN HCC
823
12. Nguyen MH, Keeffe EB. Treatment of hepatocellular carcinoma. In: Rustgi AK, Crawford J, eds. Gastrointestinal cancer: biology and clinical management. 1st ed. Philadelphia: Saunders, 2003:605– 622. 13. Nguyen MH, Keeffe EB. Screening for hepatocellular carcinoma. J Clin Gastroenterol 2002;35:S86 –S91. 14. Camma C, Giunta M, Andreone P, Craxi A. Interferon and prevention of HCC in viral cirrhosis: an evidenced-based approach. J Hepatol 2001;34:593– 602. 15. Ikeda K, Saitoh S, Koida I, Arase Y, Tsubota A, Chayama K, Kumada H, Kawanishi M. A multivariate analysis of risk factors for hepatocellular carcinogenesis: a prospective observation of 795 patients with viral and alcoholic cirrhosis. Hepatology 1993;18:47–53. 16. Mori M, Hara M, Wada I, Hara T, Yamamoto K, Honda M, Naramoto J. Prospective study of hepatitis B and C viral infections, cigarette smoking, alcohol consumption, and other factors associated with HCC risk in Japan. Am J Epidemiol 2000;151:131–139. 17. del Olmo JA, Serra MA, Rodriguez F, Escudero A, Gilabert S, Rodrigo JM. Incidence and risk factors for hepatocellular carcinoma in 967 patients with cirrhosis. J Cancer Res Clin Oncol 1998;124:560 –564. 18. Aizawa Y, Shibamoto Y, Takagi I, Zeniya M, Toda G. Analysis of factors affecting the appearance of hepatocellular carcinoma in patients with chronic hepatitis C. A long term follow-up study after histologic diagnosis. Cancer 2000;89:53–59. 19. Romeo R, Rumi MG, Del Ninno E, Colombo M. Hepatitis C virus genotype 1b and risk of hepatocellular carcinoma. Hepatology 1997;26:1077. 20. Tanaka K, Ikematsu H, Hirohata T, Kashiwagi S. Hepatitis C virus infection and risk of hepatocellular carcinoma among Japanese: possible role of type 1b (II) infection. J Natl Cancer Inst 1996;88:742–746. 21. Zein NN, Poterucha JJ, Gross JB Jr, Wiesner RH, Therneau TM, Gossard AA, Wendt NK, Mitchell PS, Germer JJ, Persing DH. Increased risk of hepatocellular carcinoma in patients infected with hepatitis C genotype 1b. Am J Gastroenterol 1996;9:2560–2562. 22. Bruno S, Silini E, Crosignani A, Borzio F, Leandro G, Bono F, Asti M, Rossi S, Larghi A, Cerino A, Podda M, Mondelli MU. Hepatitis C genotypes and risk of hepatocellular carcinoma in cirrhosis: a prospective study. Hepatology 1997;25:754 –758. 23. Tagger A, Donato F, Ribero ML, Chiesa R, Portera G, Gelatti U, Albertini A, Fasola M, Boffetta P, Nardi G. Case-control study on hepatitis C virus (HCV) as a risk factor for hepatocellular carcinoma: the role of HCV genotypes and the synergism with hepatitis B virus and alcohol. Brescia HCC study. Int J Cancer 1999;8:695– 699. 24. Kuper H, Tzonou A, Kaklamani E, Hsieh CC, Lagiou P, Adami HO, Trichopoulos D, Stuver SO. Tobacco smoking, alcohol consumption and their interaction in the causation of hepatocellular carcinoma. Int J Cancer 2000;85:498 –502. 25. Dutta U, Byth K, Kench J, Khan MH, Coverdale SA, Weltman M, Lin R, Liddle C, Farrell GC. Risk factors for development of hepatocellular carcinoma among Australians with hepatitis C: a case-control study. Aust N Z J Med 1999;29:300 –307. 26. Silini E, Bottelli R, Asti M, Bruno S, Candusso ME, Brambilla S, Bono F, Iamoni G, Tinelli C, Mondelli MU, Ideo G. Hepatitis C virus genotypes and risk of hepatocellular carcinoma in cirrhosis: a case-control study. Gastroenterology 1996;111:199 –205. 27. Nousbaum JB, Pol S, Nalpas B, Landais P, Berthelot P, Brechot C. Hepatitis C virus type 1b (II) infection in France and Italy. Collaborative Study Group. Ann Intern Med 1995;122:161–168. 28. Reid AE, Koziel MJ, Aiza I, Jeffers L, Reddy R, Schiff E, Lau JY, Dienstag JL, Liang TJ. Hepatitis C virus genotypes and viremia and hepatocellular carcinoma in the United States. Am J Gastroenterol 1999;94:1619 –1626. 29. Fattovich G, Ribero ML, Pantalena M, Diodati G, Almasio P,
824
30.
31.
32.
33.
34. 35.
36. 37.
38.
39.
40.
41.
42.
43.
44.
NGUYEN ET AL.
Nevens F, Tremolada F, Degos F, Rai J, Solinas A, Mura D, Tocco A, Zagni I, Fabris F, Lomonaco L, Noventa F, Realdi G, Schalm SW, Tagger A, Eurohep Study Group on Viral Hepatitis. Hepatitis C virus genotypes: distribution and clinical significance in patients with cirrhosis type C seen at tertiary referral centers in Europe. J Viral Hepat 2001;8:206 –216. Degos F, Christidis C, Ganne-Carrie N, Farmachidi JP, Degott C, Guettier C, Trinchet JC, Beaugrand M, Chevret S. Hepatitis C virus related cirrhosis: time to occurrence of hepatocellular carcinoma and death. Gut 2000;47:131–136. Widell A, Verbaan H, Wejstal R, Kaczynski J, Kidd-Ljunggren K, Wallerstedt S. Hepatocellular carcinoma in Sweden: its association with viral hepatitis, especially with hepatitis C viral genotypes. Scand J Infect Dis 2000;32:147–152. Benvegnu L, Pontisso P, Cavalletto D, Noventa F, Chemello L, Alberti A. Lack of correlation between hepatitis C virus genotypes and clinical course of hepatitis C virus-related cirrhosis. Hepatology 1997;25:211–215. Hassan MM, Hwang L-Y, Hatten CJ, Swaim M, Li D, Abbruzzese JL, Beasley P, Patt YZ. Risk factors for hepatocellular carcinoma: synergism of alcohol with viral hepatitis and diabetes mellitus. Hepatology 2002;36:1206 –1213. Teo EK, Fock KM. Hepatocellular carcinoma: an Asian perspective. Dig Dis 2001;19:263–268. Chin PL, Chu DZ, Clarke KG, Odom-Maryon T, Yen Y, Wagman LD. Ethnic differences in the behavior of hepatocellular carcinoma. Cancer 1999;85:1931–1936. Do S. The natural history of hepatitis B in Asian Americans. Asian Am Pac Islander J Health 2001;9:141–152. Di Bisceglie AM, Lyra AC, Schwartz M, Reddy RK, Martin P, Gores G, Lok AS, Hussain KB, Gish R, Van Thiel DH, Younossi Z, Tong M, Hassanein T, Balart L, Fleckenstein J, Flamm S, Blei A, Befeler AS, Liver Cancer Network. Hepatitis C-related hepatocellular carcinoma in the United States: influence of ethnic status. Am J Gastroenterol 2003;98:2060 –2063. Blakely TA, Bates MN, Baker MG, Tobias M. Hepatitis B carriage explains the excess rate of hepatocellular carcinoma for Maori, Pacific Island and Asian people compared to Europeans in New Zealand. Int J Epidemiol 1999;28:204 –210. Hwang SJ, Tong MJ, Lai PP, Ko ES, Co RL, Chien D, Kuo G. Evaluation of hepatitis B and C viral marker: clinical significance in Asian and Caucasian patients with hepatocellular carcinoma in the United States of America. J Gastroenterol Hepatol 1996;11:949 –954. Child CG III, Turcotte JG. Surgery in portal hypertension. In: Child CG III, ed. The liver and portal hypertension. Philadelphia: WB Saunders, 1964:50 Pugh RNH, Murray-Lyon IM, Dawson JJ, Pietroni NC, Williams R. Transection of the oesophagus for bleeding oesophaeal varices. Br J Surg 1973;60:646 – 649. Nino-Murcia M, Olcott EW, Jeffrey RB, Lamm RL, Beaulieu CF, Jain KA. Focal liver lesions: pattern-based classification scheme for enhancement at arterial phase CT. Radiology 2000;215:746 –751. Bruix J, Sherman M, Llovet JM, Beaugrand E, Lencioni R, Christensen E, Burroughs A, Christensen E, Pagliaro L, Colombo M, Rodes J. Clinical management of hepatocellular carcinoma. Conclusions of the Barcelona-2000 EASL Conference. J Hepatol 2001;35:421– 430. Gupta S, Bent S, Knowles J. Test characteristics of ␣-fetoprotein for detecting of hepatocellular carcinoma in patients with hepa-
CLINICAL GASTROENTEROLOGY AND HEPATOLOGY Vol. 2, No. 9
45.
46.
47.
48.
49.
50.
51.
52.
53.
54.
55.
titis C. A systematic review and critical analysis. Ann Intern Med 2003;139:46 –50. Nguyen MH, Garcia RT, Simpson P, Wright TL, Keeffe EB. Racial differences in effectiveness of ␣-fetoprotein for diagnosis of hepatocellular carcinoma in HCV cirrhosis. Hepatology 2002;36: 410 – 417. Trevisani F, D’Intino PE, Morselli-Labate AM, Mazzella G, Accogli E, Caraceni P, Domenicali M, De Notariis S, Roda E, Bernardi M. Serum alpha-fetoprotein for diagnosis of hepatocellular in patients with chronic liver disease: influence of HBsAg and anti-HCV status. J Hepatol 2001;34:570 –575. Peng YC, Chan CS, Chen GH. The effectiveness of serum alphafetoprotein level in anti-HCV positive patients for screening hepatocellular carcinoma. Hepatogastroenterology 1999;46:3208 –3211. Cedrone A, Covino M, Caturelli E, Pompilli M, Lorenzelli G, Villani MR, Valle D, Sperandeo M, Rapaccini GL, Gasbarrini G. Utility of alphafetoprotein (AFP) in the screening of patients with virus-related chronic liver disease: does different viral etiology influence AFP levels in HCC? A study in 350 Western patients. Hepatogastroenterology 2000;47:1654 –1658. Tong MJ, Blatt LM, Kao VW. Surveillance for hepatocellular carcinoma in patients with chronic viral hepatitis in the United States of America. J Gastroenterol Hepatol 2001;16:553–559. Sherman M, Peltekian KM, Lee C. Screening for hepatocellular carcinoma in chronic carriers of hepatitis B virus: incidence and prevalence of hepatocellular carcinoma in a North American urban population. Hepatology 1995;22:432– 438. Trevisani F, D’Intino PE, Caraceni P, Pizzo M, Stefanini GF, Mazziotti A, Grazi GL, Gozzetti G, Gasbarrini G, Bernardi M. Etiologic factors and clinical presentation of hepatocellular carcinoma. Difference between cirrhotic and non-cirrhotic Italian patients. Cancer 1995;75:2220 –2232. Fattovich G, Ribero ML, Pantalena M, Diodati G, Almasio P, Nevens F, Tremolada F, Degos F, Rai J, Solinas A, Mura D, Tocco A, Zagni I, Fabris F, Lomonaco L, Noventa F, Realdi G, Schalm SW, Tagger A. Hepatitis C virus genotypes: distribution and clinical significance in patients with cirrhosis type C seen at tertiary referral centres in Europe. J Viral Hepat 2001;8:206 –216. Ikeda K, Saitoh S, Koida I, Arase Y, Tsubota A, Chayama K, Kumada H, Kawanishi M. A multivariate analysis of risk factors for hepatocellular carcinogenesis: a prospective observation of 795 patients with viral and alcoholic cirrhosis. Hepatology 2003;18:47–53. Tanaka K, Sakai H, Hashizume M, Hirohata T. A long-term follow-up study on risk factors for hepatocellular carcinoma among Japanese patients with liver cirrhosis. Jpn J Cancer Res 1998;89:1241–1250. U.S. Census Bureau 2000. California quick facts. Available at: http://quickfacts.census.gov/qfd/states/06/06075.html. Accessed: April 7, 2004.
Address requests for reprints to: Emmet B. Keeffe, M.D., Professor of Medicine, Co-Director, Liver Transplant Program, Chief of Hepatology, Stanford University Medical Center, 750 Welch Road, Suite 210, Palo Alto, California 94304-1509. e-mail: [email protected]; fax: (650) 498-5692. Supported in part by the American Association for the Study of Liver Diseases/Schering Hepatology Research Fellow Award and by grant T32DK07056-26 from the National Institutes of Health to Stanford University (to M.H.N., S.A.T., J.N., S.L., and E.B.K.).