Chronic hepatitis C infection in the elderly

Kaohsiung Journal of Medical Sciences (2011) 27, 533e537

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REVIEW ARTICLE

Chronic hepatitis C infection in the elderly Chung-Feng Huang a,b, Wan-Long Chuang c,d, Ming-Lung Yu d,e,* a

Department of Occupational Medicine, Kaohsiung Municipal Ta-Tung Hospital, Kaohsiung, Taiwan Department of Preventive Medicine, Kaohsiung Municipal Ta-Tung Hospital, Kaohsiung, Taiwan c Hepatobiliary Division, Department of Internal Medicine, Kaohsiung Medical University Hospital, Kaohsiung, Taiwan d Faculty of Internal Medicine, College of Medicine, Kaohsiung Medical University, Kaohsiung, Taiwan e Department of Internal Medicine, Kaohsiung Municipal Ta-Tung Hospital, Kaohsiung, Taiwan b

Received 15 February 2011; accepted 19 March 2011 Available online 25 November 2011

KEYWORDS HCV; Elderly; Treatment

Abstract The prevalence of chronic hepatitis C virus (HCV) tends to be higher in the elderly in many countries. Aging is regarded as an unfavorable factor for liver disease progression and treatment outcome in HCV infection. The efficacy and safety of treating elderly patients remain a source of significant debate. Discrepancies in results may be attributed to dissimilarities in study design and treatment regimens. The long-term benefits of administering interferon-based therapy to elderly patients with HCV infection is a critical issue when taking the patient’s remaining life expectancy into consideration. Rapid virological response is the most notable on-treatment response factor that is predictive of treatment success in elderly patients. A shortened treatment course may reduce drug-related side effects and promote treatment adherence, especially in the elderly. A regimen tailored towards superresponders might provide insights for treatment strategies in elderly patients. Copyright ª 2011, Elsevier Taiwan LLC. All rights reserved.

Introduction Hepatitis C virus (HCV) infection remains a major threat to humans and affects an estimated 170 million people * Corresponding author. Department of Internal Medicine, Kaohsiung Municipal Ta-Tung Hospital, No. 100, Tzyou 1st Road, Kaohsiung 807, Taiwan. E-mail addresses: [email protected], [email protected] (M.-L. Yu).

worldwide [1]. Age is an important factor when treating chronic HCV infection. The prevalence of anti-HCV seropositivity tends to be higher in the elderly compared to younger individuals in many countries across the world (Table 1). Aging is regarded as an unfavorable factor for liver disease progression and treatment outcome in HCV infection (Table 2). Aging and age at infection are two factors that influence the progression of liver fibrosis and the development of hepatocellular carcinoma [2e8]. Age itself seems to be a more important factor than age at

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C.-F. Huang et al.

Table 1 Seroprevalence of anti-HCV positivity in various countries Country

General population

Age group

No trend for increase in the elderly 50e59 y USA [14] 1.6% 1.6% >65 y England and 0.7e1.1% 0.4% Wales [37] Trend for increase in the elderly 60e69 Taiwan [38] 4.4% 4.3% 60e69 Italy [39] 2.6% 7.0% 50e59 Japan [40] 0.5% 1.8% 55e64 Spain [41] 2.5% 4.9% 40e49 2.2% France [42]a 0.8% a b

y y y y y


60 y 0.9%

70e79 y 6.3%
70 y 7.7% 60e69 y 3.4%
65 y 5.1% 50e59 y 1%b

Efficacy and safety


80 y 8.8%

60e69 y 2.2%

Prevalence of female subjects. Roughly estimated.

infection in predicting the progression of liver disease [7,8] especially after an individual reaches 65 years of age [7]. From this perspective, it can be argued that elderly patients are most in need of antiviral treatment. Ironically, advanced liver fibrosis, which is one of the unfavorable factors, may put elderly patients at a significant disadvantage regarding achievement of a sustained virological response (SVR) [9,10]. Moreover, underlying co-morbidities render elderly patients more vulnerable to poor drug compliance. Physicians therefore usually regard such patients as a lower priority group for treatment owing to difficulties in dealing with the numerous side effects. However, it is becoming increasingly important to confront this issue in countries such as Japan and Taiwan, where the average age of patients who receive antiviral therapy is approximately 10e15 years older than in Western countries

Table 2

[11e13]. Over the course of the next two decades, it will also be critical for countries such as the USA where the peak prevalence of anti-HCV seropositivity is among individuals of 40e49 years of age to become more proactive in confronting this issue [14].

The efficacy and safety of treating elderly patients remain a source of significant debate (Table 3). It has been suggested that elderly patients are affected by either higher rates of drug modification or suffer increasingly more adverse effects on conventional interferon-based therapy [15e18]. Interestingly, results from some studies were similar [19,20], while other studies using pegylatedinterferon-based therapy to treat the elderly revealed different results [21]. Accordingly, poor treatment adherence has led to inferior treatment outcomes in the elderly [17e20,22], but these results are not globally consistent [15,16,21,23,24]. The discrepancies may be attributed to dissimilarities in study design and treatment regimens; most were carried out retrospectively and/or with suboptimal regimens. In a prospective study, Huang et al. found that two-thirds of Taiwanese chronic HCV patients
65 years of age could achieve SVR on current standard-of-care regimens, specifically 48 weeks for HCV genotype 1 (HCV-1) infection and 24 weeks of treatment for HCV genotype 2/3 (HCV-2/3) infection. The treatment response was substantially lower in elderly patients than in patients between the ages of 50 and 64 years. The lower treatment efficacy in elderly patients was observed in HCV-1 patients (51.9% vs. 75.9%), but not in HCV-2/3 (76.7% vs. 80.2%) patients. Elderly patients, especially those infected with HCV-1 who received 48 weeks of treatment, had significantly higher rates of grade 3 or 4 adverse side effects, dose modification and discontinued treatment that were primarily responsible for the inferior efficacy. Most importantly, elderly patients with a rapid virological response (RVR) showed high SVR rates (
80%) for both HCV-1 and HCV-2/3 that were comparable to rates in their younger counterparts [24]. Kainuma and colleagues recruited another Japanese cohort on the current recommended treatment duration for HCV-1/2 but with a relatively lower ribavirin dosage (600e1000 mg/day) [25].

Age as an unfavorable factor in chronic HCV infection

Study

Time frame

Clinical impact

Poynard et al. [6] Pradat et al. [4] Minola et al. [43] Ryder et al. [5] Thabut et al. [7]

>40 y at infection Age at infection >37 y >40 y at infection Age at time of biopsy
65 or <65 y

Reddy et al. [33] Tong et al. [3] Hamada et al. [8]

>50 or 50 y
50 or <50 y
56 or <56 y

Iwasaki et al. [11] Ikeda et al. [44] Tokita et al. [45]


60 or <60 y >60 or 60 y
65 or <65 y

Rapid fibrosis progression Fast fibrosis progression Increased risk of developing cirrhosis Fibrosis progression More intense fibrosis at time of liver biopsy regardless of infection duration; more initial presentations of decompensated liver disease Higher proportion of cirrhosis in the elderly (16% vs. 34%, p <0.0001) Increased risk of liver cirrhosis and hepatocarcinoma development Increased risk of hepatocarcinoma development; age is a more important factor than infection duration Increased incidence of hepatocarcinogenesis after successful antiviral treatment Increased incidence of hepatocarcinogenesis after successful antiviral treatment Increased incidence of hepatocarcinogenesis after successful antiviral treatment

HCV in the elderly Table 3

535

Safety and efficacy of various treatments in the elderly

Study

Ag, (y)

Safety Dose reduction/modification

Honda et al. [15]

<60,
60

Kumada et al. [16]

<65,
65

Iwasaki et al. [17]

<50, 50e59,
60

Hiramatsu et al. [18]

<60, 60e64,
65

Alessi et al. [23] Floreani et al. [19]

<60,
60 45.2  8.9 vs. 70.2  1.2 <60,
60 <40, 40e49, 50e64,
65

Nudo et al. [20] Antonucci et al. [21]

Huang et al. [24]

50e64,
65

Honda et al. [34]

<65,
65

Kainuma et al. [25]

<65,
65

Efficacy Treatment discontinuation

SVR rate

IFN 15.6% vs. 16.7% RBV 29.9% vs. 42.4% IFN 14.5% vs. 17.0% RBV 29.0% vs. 42.6%a 38%, 48%, 77%a

IFN 14.9% vs. 21.2% RBV 20.8% vs. 33.3%a IFN 17.8% vs.23.4% RBV 21.6% vs. 34.0%a 15%, 18%, 30%

38.3% vs. 31.8%

IFN 7%, 5%, 6% RBV 20%, 25%, 24% N/A N/A

RBV 5%, 9%, 8% IFN þ RBV 11%, 20%, 29%a 1% vs. 8% 12.2% vs. 24.2%

29.3% vs. 43.3% N/A

34% vs. 53% 15.8%, 11.4%, 19.5%, 16.7%

HCV-1 53.7% vs. 48.1% HCV 2/3 38.4% vs. 41.9% Peg-IFN 33.2% vs. 39.1% RBV 39.9% vs. 56.5%a N/A

HCV-1 7.4% vs. 33.3%a HCV-2/3 5.8% vs. 14.0% 17.0% vs. 32.2%a

51.2% vs.33.3% HCV-1/4 80.0%, 31.2%, 31.8%, 36.3%b HCV-2/3 92.3%, 89.3%, 78.9%, 89.5% HCV-1 75.9% vs. 51.9%a HCV-2/3 80.2% vs. 76.7% 51.5% vs. 37.4%a

HCV-1 24.4% vs. 42.9%a HCV-2 13.1% vs. 13.1%

HCV-1 47.3% vs. 22.9%a HCV-2 82.9% vs. 65.6%a

39.4% vs. 25.2% All patients 50%, 34%, 32% HCV-1 27%, 9%, 16% HCV-2 82%, 85%, 65% 1Hc 34%, 17%, 16%a non-1Hc 84%, 100%, 79% 20% vs.18% 69.7% vs.45.5%a

1H Z patients with HCV genotype 1 and high viral load; HCV-1 Z hepatitis C virus genotype 1; HCV-2/3 Z hepatitis C virus genotype 2/3; IFN Z interferon; N/A Z not available; non-1H Z patients with HCV genotype 2 or low viral load; Peg-IFN Z pegylated interferon; RBV Z ribavirin; SVR Z sustained virological response. a Statistically significant difference. b A significant difference existed only between patients <40 and
40 years of age. c 1H: patients with HCV genotype 1 and high viral loads; non-1H: patients with HCV genotype 2 or low viral loads.

Compared to patients of <65 years of age, elderly patients had a significantly lower SVR rate not only for HCV-1 (22.9% vs. 47.3%), but also for HCV-2 infection (65.6% vs. 82.9%); in accordance with findings by Huang and co-workers, a higher treatment discontinuation rate was noted in the elderly, but was mainly restricted to HCV-1 patients.

Long-term outcome Another important question is whether it is appropriate to modify treatment strategies for elderly patients after considering patient age (remaining life expectancy). Peginterferon and ribavirin combination therapy has been recommended for HCV patients to clear the virus and to halt the progression of liver fibrosis, thereby reducing hepatocarcinogenesis and prolonging survival [26e28]. The long-term benefits of interferon-based therapy in elderly patients with HCV infection have also been addressed. In a retrospective study using a conventional interferon-based regimen, Imai and co-workers found a significantly lower liver-related mortality rate in elderly patients compared with their untreated counterparts (odds ratio 10.70, 95% confidence interval 4.29e22.05) [29]. A similar result was observed by Arase et al., who demonstrated that the

Table 4 Recommendations for managing elderly patients with chronic hepatitis C infection 1. Identify and treat HCV patients before they reach 50e60 years of age 2. Weigh the benefits and risks of antiviral therapy based on current status of liver disease and residual life expectancy 3. Preselect elderly without prominent underlying diseases, particularly severe cardiopulmonary and renal diseases 4. Manage HCV-2/3 patients more aggressively because of the ease of cure 5. Manage patients with advanced liver disease more actively in consideration of long-term benefits 6. Monitor patients more frequently and manage side effects more aggressively during therapy 7. Consider abbreviating treatment course in patients with a rapid virological response to enhance drug compliance and reduce adverse events in the elderly 8. Carry out interleukin-28B and inosine triphosphatase genetic testing to enhance treatment decisions and drug modification on an individualized basis

536 incidence of hepatocarcinogenesis and liver-related deaths was significantly lower in patients over the age of 60 years with SVR [30]. Ikeda and colleagues further demonstrated that patients with lower baseline platelet counts (<150  1000/mm3) rather than all elderly patients could significantly benefit from such treatment in the long term, as indicated by 15e20 years of observations post-treatment [31]. There was no strict definition of old age and the upper limit for patient age allowed for interferon-based therapy. Physicians should consider residual life expectancy without interferon therapy and the cost, side effects, and risks caused by interferon for more stratified age groups in the elderly. Taking the Japanese as an example, it has been suggested that the life expectancy is 18.0 and 23.1 years for 65-year-old Japanese men and women, respectively. In view of the median age (65 years) of untreated elderly patients with HCV infection, the survival of patients with high platelet counts, representing less advanced liver disease, was almost the same as that of the general population in Japan [31]. Instead, antiviral therapy should be considered for elderly patients whose life expectancy is expected to be directly influenced by liver-related disease due to advanced liver fibrosis.

Conclusions Patients with HCV are more likely to be identified and aggressively treated if they are less than 50 years of age [32]. The side effects associated with treatment are typically less severe for this population, especially if patients are infected with difficult-to-treat genotypes that require a prolonged course of treatment. Treatment for the elderly should be individualized (Table 4). In elderly patients infected with easy-to-treat HCV genotypes or characterized by factors predictive of better outcomes, treatment should be initiated under careful monitoring if there are no obvious contraindications or major co-morbidities that would compromise the patient’s life expectancy. Long-term benefits such as a reduction in hepatocarcinogenesis and liver-related deaths are desirable. RVR remains the most notable on-treatment response factor that is predictive of treatment success in elderly patients [24,33,34]. On the whole, patients with an RVR could possibly receive a tailored regimen without compromising treatment efficacy [35,36]. A shortened treatment course may reduce drug-related side effects and promote treatment adherence in the elderly. Additional studies are warranted to explore the efficacy and safety of the clinical outcome for tailored regimens administered to selected elderly patients with an RVR.

References [1] Lauer GM, Walker BD. Hepatitis C virus infection. N Engl J Med 2001;345:41e52. [2] Poynard T, Bedossa P, Opolon P. Natural history of liver fibrosis progression in patients with chronic hepatitis C. The OBSVIRC, METAVIR, CLINIVIR, and DOSVIRC groups. Lancet 1997;349: 825e32. [3] Tong MJ, el-Farra NS, Reikes AR, Co RL. Clinical outcomes after transfusion-associated hepatitis C. N Engl J Med 1995; 332:1463e6.

C.-F. Huang et al. [4] Pradat P, Voirin N, Tillmann HL, Chevallier M, Trepo C. Progression to cirrhosis in hepatitis C patients: an agedependent process. Liver Int 2007;27:335e9. [5] Ryder SD, Irving WL, Jones DA, Neal KR, Underwood JC. Progression of hepatic fibrosis in patients with hepatitis C: a prospective repeat liver biopsy study. Gut 2004;53:451e5. [6] Poynard T, Yuen MF, Ratziu V, Lai CL. Viral hepatitis C. Lancet 2003;362:2095e100. [7] Thabut D, Le Calvez S, Thibault V, Massard J, Munteanu M, Di Martino V, et al. Hepatitis C in 6,865 patients 65 yr or older: a severe and neglected curable disease? Am J Gastroenterol 2006;101:1260e7. [8] Hamada H, Yatsuhashi H, Yano K, Daikoku M, Arisawa K, Inoue O, et al. Impact of aging on the development of hepatocellular carcinoma in patients with posttransfusion chronic hepatitis C. Cancer 2002;95:331e9. [9] McHutchison JG, Gordon SC, Schiff ER, Shiffman ML, Lee WM, Rustgi VK, et al. Interferon alfa-2b alone or in combination with ribavirin as initial treatment for chronic hepatitis C. Hepatitis Interventional Therapy Group. N Engl J Med 1998; 339:1485e92. [10] Poynard T, Marcellin P, Lee SS, Niederau C, Minuk GS, Ideo G, et al. Randomised trial of interferon alpha2b plus ribavirin for 48 weeks or for 24 weeks versus interferon alpha2b plus placebo for 48 weeks for treatment of chronic infection with hepatitis C virus. International Hepatitis Interventional Therapy Group (IHIT). Lancet 1998;352:1426e32. [11] Iwasaki Y, Takaguchi K, Ikeda H, Makino Y, Araki Y, Ando M, et al. Risk factors for hepatocellular carcinoma in hepatitis C patients with sustained virologic response to interferon therapy. Liver Int 2004;24:603e10. [12] Chuang WL, Yu ML, Dai CY, Chang WY. Treatment of chronic hepatitis C in southern Taiwan. Intervirology 2006;49: 99e106. [13] Yang JF, Lin CI, Huang JF, Dai CY, Lin WY, Ho CK, et al. Viral hepatitis infections in southern Taiwan: a multicenter community-based study. Kaohsiung J Med Sci 2010;26:461e9. [14] Armstrong GL, Wasley A, Simard EP, McQuillan GM, Kuhnert WL, Alter MJ. The prevalence of hepatitis C virus infection in the United States, 1999 through 2002. Ann Intern Med 2006;144:705e14. [15] Honda T, Katano Y, Urano F, Murayama M, Hayashi K, Ishigami M, et al. Efficacy of ribavirin plus interferon-alpha in patients aged
60 years with chronic hepatitis C. J Gastroenterol Hepatol 2007;22:989e95. [16] Kumada T, Toyoda H, Honda T, Kuzuya T, Katano Y, Nakano I, et al. Treatment of chronic hepatitis C with interferon alone or combined with ribavirin in Japan. Intervirology 2006;49:112e8. [17] Iwasaki Y, Ikeda H, Araki Y, Osawa T, Kita K, Ando M, et al. Limitation of combination therapy of interferon and ribavirin for older patients with chronic hepatitis C. Hepatology 2006; 43:54e63. [18] Hiramatsu N, Oze T, Tsuda N, Kurashige N, Koga K, Toyama T, et al. Should aged patients with chronic hepatitis C be treated with interferon and ribavirin combination therapy? Hepatol Res 2006;35:185e9. [19] Floreani A, Minola E, Carderi I, Ferrara F, Rizzotto ER, Baldo V. Are elderly patients poor candidates for pegylated interferon plus ribavirin in the treatment of chronic hepatitis C? J Am Geriatr Soc 2006;54:549e50. [20] Nudo CG, Wong P, Hilzenrat N, Deschenes M. Elderly patients are at greater risk of cytopenia during antiviral therapy for hepatitis C. Can J Gastroenterol 2006;20:589e92. [21] Antonucci G, Longo MA, Angeletti C, Vairo F, Oliva A, Comandini UV, et al. The effect of age on response to therapy with peginterferon alpha plus ribavirin in a cohort of patients with chronic HCV hepatitis including subjects older than 65 yr. Am J Gastroenterol 2007;102:1383e91.

HCV in the elderly [22] Koyama R, Arase Y, Ikeda K, Suzuki F, Suzuki Y, Saitoh S, et al. Efficacy of interferon therapy in elderly patients with chronic hepatitis C. Intervirology 2006;49:121e6. [23] Alessi N, Freni MA, Spadaro A, Ajello A, Turiano S, Migliorato D, et al. Efficacy of interferon treatment (IFN) in elderly patients with chronic hepatitis C. Infez Med 2003;11: 208e12. [24] Huang CF, Yang JF, Dai CY, Huang JF, Hou NJ, Hsieh MY, et al. Efficacy and safety of pegylated interferon combined with ribavirin for the treatment of older patients with chronic hepatitis C. J Infect Dis 2010;201:751e9. [25] Kainuma M, Furusyo N, Kajiwara E, Takahashi K, Nomura H, Tanabe Y, et al. Pegylated interferon alpha-2b plus ribavirin for older patients with chronic hepatitis C. World J Gastroenterol 2010;16:4400e9. [26] Huang JF, Yu ML, Lee CM, Dai CY, Hou NJ, Hsieh MY, et al. Sustained virological response to interferon reduces cirrhosis in chronic hepatitis C: a 1,386-patient study from Taiwan. Aliment Pharmacol Ther 2007;25:1029e37. [27] Yu ML, Lin SM, Chuang WL, Dai CY, Wang JH, Lu SN, et al. A sustained virological response to interferon or interferon/ribavirin reduces hepatocellular carcinoma and improves survival in chronic hepatitis C: a nationwide, multicentre study in Taiwan. Antivir Ther 2006;11:985e94. [28] Yu ML, Huang CF, Dai CY, Huang JF, Chuang WL. Long-term effects of interferon-based therapy for chronic hepatitis C. Oncology 2007;72(Suppl. 1):16e23. [29] Imai Y, Kasahara A, Tanaka H, Okanoue T, Hiramatsu N, Tsubouchi H, et al. Interferon therapy for aged patients with chronic hepatitis C: Improved survival in patients exhibiting a biochemical response. J Gastroenterol 2004;39:1069e77. [30] Arase Y, Ikeda K, Suzuki F, Suzuki Y, Saitoh S, Kobayashi M, et al. Long-term outcome after interferon therapy in elderly patients with chronic hepatitis C. Intervirology 2007;50:16e23. [31] Ikeda K, Arase Y, Kawamura Y, Yatsuji H, Sezaki H, Hosaka T, et al. Necessities of interferon therapy in elderly patients with chronic hepatitis C. Am J Med 2009;122:479e86. [32] Poynard T, Ratziu V, Charlotte F, Goodman Z, McHutchison J, Albrecht J. Rates and risk factors of liver fibrosis progression in patients with chronic hepatitis C. J Hepatol 2001;34: 730e9. [33] Reddy KR, Messinger D, Popescu M, Hadziyannis SJ. Peginterferon alpha-2a (40 kDa) and ribavirin: comparable rates of sustained virological response in sub-sets of older and younger HCV genotype 1 patients. J Viral Hepat 2009;16:724e31. [34] Honda T, Katano Y, Shimizu J, Ishizu Y, Doizaki M, Hayashi K, et al. Efficacy of peginterferon-alpha-2b plus ribavirin in

537

[35]

[36]

[37]

[38]

[39]

[40]

[41]

[42]

[43]

[44]

[45]

patients aged 65 years and older with chronic hepatitis C. Liver Int 2010;30:527e37. Yu ML, Dai CY, Huang JF, Hou NJ, Lee LP, Hsieh MY, et al. A randomised study of peginterferon and ribavirin for 16 versus 24 weeks in patients with genotype 2 chronic hepatitis C. Gut 2007;56:553e9. Yu ML, Dai CY, Huang JF, Chiu CF, Yang YH, Hou NJ, et al. Rapid virological response and treatment duration for chronic hepatitis C genotype 1 patients: A randomized trial. Hepatology 2008;47:1884e93. Balogun MA, Ramsay ME, Hesketh LM, Andrews N, Osborne KP, Gay NJ, et al. The prevalence of hepatitis C in England and Wales. J Infect 2002;45:219e26. Chen CH, Yang PM, Huang GT, Lee HS, Sung JL, Sheu JC. Estimation of seroprevalence of hepatitis B virus and hepatitis C virus in Taiwan from a large-scale survey of free hepatitis screening participants. J Formos Med Assoc 2007;106:148e55. Cozzolongo R, Osella AR, Elba S, Petruzzi J, Buongiorno G, Giannuzzi V, et al. Epidemiology of HCV infection in the general population: A survey in a southern Italian town. Am J Gastroenterol 2009;104:2740e6. Tanaka J, Kumagai J, Katayama K, Komiya Y, Mizui M, Yamanaka R, et al. Sex- and age-specific carriers of hepatitis B and C viruses in Japan estimated by the prevalence in the 3,485,648 first-time blood donors during 1995e2000. Intervirology 2004;47:32e40. Dominguez A, Bruguera M, Vidal J, Plans P, Salleras L. Community-based seroepidemiological survey of HCV infection in Catalonia. Spain. J Med Virol 2001;65:688e93. Meffre C, Le Strat Y, Delarocque-Astagneau E, Dubois F, Antona D, Lemasson JM, et al. Prevalence of hepatitis B and hepatitis C virus infections in France in 2004: social factors are important predictors after adjusting for known risk factors. J Med Virol;82:546e555. Minola E, Prati D, Suter F, Maggiolo F, Caprioli F, Sonzogni A, et al. Age at infection affects the long-term outcome of transfusion-associated chronic hepatitis C. Blood 2002;99: 4588e91. Ikeda M, Fujiyama S, Tanaka M, Sata M, Ide T, Yatsuhashi H, et al. Risk factors for development of hepatocellular carcinoma in patients with chronic hepatitis C after sustained response to interferon. J Gastroenterol 2005;40:148e56. Tokita H, Fukui H, Tanaka A, Kamitsukasa H, Yagura M, Harada H, et al. Risk factors for the development of hepatocellular carcinoma among patients with chronic hepatitis C who achieved a sustained virological response to interferon therapy. J Gastroenterol Hepatol 2005;20:752e8.