Recent advances in managing hepatitis B.

In the past two years, several national and international bodies have made recommendations and published updated practice guidelines for hepatitis B. In addition, new drugs have become available for treatment of hepatitis B. This article will review the new recommendations for screening for hepatitis B and for first-line antiviral medications to use for treatment. In addition, I will discuss the recent recommendations on treating hepatitis B and human immunodeficiency virus co-infection and the screening of people receiving immunosuppressive therapy.

Introduction and context

In the past two years, several important events have focused attention on chronic hepatitis B virus (HBV) infection in the US and elsewhere (Table 1). Three new evidenced-based practice guidelines sponsored by regional liver societies have helped clarify HBV treatment [1-3]. In addition, the Centers for Disease Control and Prevention (CDC) recently published a recommendation for the detection and management of chronic HBV [4], and the National Institutes of Health held the first Consensus Conference on Chronic HBV [5]. Also, a treatment algorithm by American hepatologists and a consensus of experts in Canada on treatment of hepatitis B, both of which were funded by pharmaceutical companies, were recently published [6,7]. Finally, the Institute of Medicine has published a set of comprehensive recommendations on HBV and HCV (hepatitis C virus) in the US [8]. In the past 5 years, five new drugs for treatment of HBV have been licensed in the US [1,9-13]. The following article will highlight the most important points, from a clinician standpoint, that have come out of these guidelines and conferences.

Table 1.

Recent Consensus Conferences and liver society guidelines on chronic hepatitis B

Conference/Guideline	Year held/ published	Download website report free
AASLD Chronic HBV 2009 Update	2009	http://www3.interscience.wiley.com/cgi-bin/fulltext/122523089/PDFSTART [1]
EASL HBV Guideline 2009 Update	2009	http://www.easl.eu/assets/application/files/f6fe13129b5f0df_file.pdf [3]
APASL HBV Guideline 2008 Update	2008	http://www.springerlink.com/content/du475u12q655175j/fulltext.pdf [2]
NIH Consensus Conference HBV	2008	http://consensus.nih.gov/2008/2008HepatitisBCDC120main.htm [26]
Recommendations Chronic HBV	2008	http://www.cdc.gov/mmWR/PDF/rr/rr5708.pdf [27]
IOM Report on HBV/HCV	2010	http://www.nap.edu/catalog.php?record_id=12793 [8]

AASLD, American Association for the Study of Liver Diseases; APASL, Asian Pacific Association for the Study of the Liver; EASL, European Association for the Study of the Liver; HBV, hepatitis B virus; HCV, hepatitis C virus; IOM, Institute of Medicine; NIH, National Institutes of Health.

Recent advances

First of all, persons with chronic HBV cannot be managed unless they have been identified. The vast majority of chronically infected persons were born in countries with a prevalence of hepatitis B surface antigen (HBsAg) above 2% and include anyone born in Asia, Africa, the South Pacific Islands, Eastern and Southern Europe, and indigenous populations of Australia, New Zealand, and the Arctic and parts of the Caribbean and South America [4]. The CDC recommends that all persons born in these regions be screened for HBsAg and anti-HBs and that those found to be negative be given hepatitis B vaccine. Other high-risk populations are also outlined in the CDC report [4]. Currently, in the US, most persons with chronic HBV are unidentified [4]. A study has shown that up to 65% of those newly found by serosurveys to have HBV were unaware of their infection status [14]. Another study has shown that less than half of persons of Chinese descent in the US have been tested for HBV [15].

Studies on the natural history of HBV in the past few years have identified important risk factors for the development of hepatocellular carcinoma (HCC) and cirrhosis [16,17]. The REVEAL study from Taiwan, a population-based study following over 3000 HBsAg-positive persons for 11 years, found that in persons over the age of 40, HBV DNA levels that are above 105 copies/mL (20,000 IU/mL) at the beginning or end of an 11-year prospective follow-up are a significant risk factor for both HCC and cirrhosis regardless of the ALT (alanine aminotransferase) level [18,19]. This same study showed that genotype C and basal core promoter mutation were additional risk factors in those with HBV DNA levels above 104 to 105 copies/mL and that in persons over 40 years of age with all three risk factors, the risk of HCC was 2% per year [20].

Updated evidenced-based guidelines for the management of chronic HBV recommend that those persons with moderate or severe liver necroinflammation or fibrosis (which is often associated with elevated serum liver enzyme levels) be treated for HBV [1-3]. For further details, see the American Association for the Study of Liver Diseases (AASLD) Practice Guideline on Chronic Hepatitis B: 2009 Update or one of the other liver society HBV practice guidelines listed in Table 1. Table 2 lists the first- and second-line antiviral medications recommended by all liver societies. The greatest detriment to treating HBV is the development of antiviral resistance. The consensus of guidelines is that the goal of treatment should be complete suppression of HBV DNA to a level undetectable by a polymerase chain reaction-based assay. The alfa interferons have the advantage that resistance does not develop to them and there is a limit to the duration of treatment of not more than 1 year, but only about 30% of patients respond to them [1,10]. Entecavir and tenofovir are potent nucleoside/tide analogues that render most patients negative for HBV DNA. These two drugs have a high barrier to resistance and require more than one HBV mutation for resistance to occur, so they are currently considered first-line drugs. In contrast, lamivudine, telbivudine, and emtricitabine require only one HBV mutation to occur for resistance to develop and thus have a low barrier for resistance. The rate of resistance occurrence between these three antivirals is related to the potency of the drug, with telbivudine being the most potent and lamivudine the least. Adefovir is structurally related to tenofovir, is less potent at the dosage licensed, and has a higher rate of nephrotoxicity. Also, approximately 30% of persons have a suboptimal response to adefovir [1,11].

Table 2.

Preferred antiviral medications for the treatment of chronic hepatitis B

First-line medications

Interferon alfa 2/Pegulated interferon alfa

Entecavir

Tenofovir

Second-line medications

Lamivudine (3TC)

Adefovir dipivoxil

Telbivudine (LdT)

Medications licensed by the Food and Drug Administration but not approved for hepatitis B virus

Emtricitabine (FTC)

Truvada (tenofovir + emtricitabine)

For some time, the AASLD practice guideline for HCC has recommended that persons with a family history of HCC, those with cirrhosis, and males over 40 and females over 50 with chronic HBV infection undergo 6-month surveillance for HCC to detect this cancer early. The guideline recommends liver ultrasound as the primary screening modality, but many clinicians include alpha-fetoprotein testing as well [21].

Two other issues about treatment are worth mentioning. First, HBV/HIV co-infection is not uncommon. A highly active retroviral therapy (HAART) regimen that included lamivudine as the only active drug against HBV may adequately suppress HIV, but resistance to HBV will likely develop in up to 90% of patients in 3-5 years [22]. Several studies have shown an increased rate of HBV liver-related death in co-infected patients in whom both viruses are not adequately suppressed [23]. A second important issue is that, in the past decade, it has become clear that reactivation of HBV with flares of hepatitis, even fulminate leading to death, has occurred in patients with chronic HBV infection who were administered chemotherapy or other immunosuppressive drugs, including tissue necrosis factor blockers. HBV reactivation was even reported in inactive HBsAg-positive ‘healthy’ carriers who had normal liver function tests and who were negative for HBV DNA [24]. Controlled trials and comparison studies have clearly shown that the rate of exacerbation and flares of HBV can be reduced from 50% in untreated persons to 10% if an antiviral medication is given as prophylaxes started at the beginning of chemotherapy and continued for 6 months after completion [25].

Implications for clinical practice

The most important points for clinical practice are the following:

Providers need to remember to screen their high-risk patients for HBsAg and anti-HBs to identify persons with chronic HBV who need management and to vaccinate those who are negative with hepatitis B vaccine.

It is important for clinicians treating HBV to minimize the risk of developing resistance while maximizing the probability that patients will have an excellent response to the antiviral medication chosen. Therefore, clinicians should choose one of the first-line drugs listed in Table 2. While there are advantages and disadvantages to all of the first-line drugs such as cost, toxicity, and convenience, it is difficult to recommend one drug over the other and the decision of which first-line drug to use should be left up to the physician and patient to decide.

High-risk HBV chronically infected persons should undergo regular surveillance for HCC, as recommended by AASLD practice guidelines.

If a clinician is treating HIV alone, they should use a HAART combination of drugs that do not target HBV or, if treating both infections, use a HAART regimen that has at least two antivirals active against both viruses, either tenofovir plus lamivudine or emtricitabine (Truvada®; Gilead Sciences, Inc., Foster City, CA, USA).

Before persons undergo chemotherapy or immunosuppressive therapy, they should be screened for HBV if they belong to one of the high-risk groups. If found to be HBsAg-positive, they should be administered antiviral therapy from the time of initiation of chemotherapy or immunosuppressive therapy until at least 6 months after completion.