Hepatitis B virus
From IDWiki
Background
Microbiology
- Reverse-transcription double-stranded DNA (RT-dsDNA) virus
- Genotypes A through J vary in geographic distribution and clinical severity
Genotype | B | C | A | D | E-J |
---|---|---|---|---|---|
Clinical characteristics | |||||
Modes of transmission | Perinatal/vertical | Perinatal/vertical | Horizontal | Horizontal | Horizontal |
Tendency of chronicity | Lower | Higher | Higher | Lower | No data |
HBeAg positivity | Lower | Higher | Higher | Lower | No data |
HBeAg seroconversion | Earlier | Later | Earlier | Later | No data |
HBsAg seroclearance | More | Less | More | Less | No data |
Histological activity | Lower | Higher | Lower | Higher | No data |
Clinical outcomes | |||||
Response to interferon-α | Higher | Lower | Higher | Lower | Lower in G |
Response to NRTIs | No significant differences | No data | |||
Viroloical characteristics | |||||
Viral load | Lower | Higher | No data | ||
Frequency of PC A1896 mutation | Higher | Lower | Lower | Higher | No data |
Frequency of basal core promoter T1762/A1764 mutation | Lower | Higher | Higher | Lower | No data |
Frequency of preS deletion utation | Lower | Higher | No data |
Phases of Chronic Infection
- Phase 1: HBeAg + chronic infection (previously immune tolerant)
- Viral replication including HBeAg without evidence of immune response
- Phase 2: HBeAg + chronic hepatitis (previously immune active)
- Elevated liver enzymes and HBV DNA
- Phase 3: HBeAg – chronic infection (previously inactive carrier)
- HBeAg clears and liver enzymes normalize, but ongoing low-level viral replication
- Phase 4: HBeAg – chronic hepatitis (previously HBeAg-negative chronic hepatitis)
- Increasing viral load with fluctuating liver enzymes
- Phase 5: HBsAg negative
- HBsAb positive or negative, other studies return to normal
Clinical Manifestations
Acute
- 75% are asymptomatic
- Symptoms range from self-resolving jaundice to fulminant liver failure in about 5%
Chronic
- Chronic hepatitis B begins as e antigen positive, usually with very high levels of HBV DNA and necroinflammation.
- Four types of chronic hepatitis B
- Immunotolerant hepatitis B: HBV DNA levels (>20,000 IU/ml), HBeAg positive, with normal ALT
- Common after vertical transmission and can persist for years before progressing to another form
- HBeAg-positive immune-active chronic hepatitis B: HBsAg-positive, HBV DNA levels (>20,000 IU/ml), HBeAg positive, anti-HBe negative with elevated ALT
- HBeAg-negative immune-active chronic hepatitis B: HBsAg-positive, HBV DNA levels (<20,000 IU/ml), HBeAg negative, anti-HBe positive, with elevated ALT
- Results from anti-HBe seroconversion when a mutation decreases HBeAg expression
- Inactive hepatitis B (healthy carrier): HBsAg for > 6 months without any evidence of necroinflammation and HBV DNA levels are < 2,000 IU/m
- May still transmit it, but overall a better prognosis
- Immunotolerant hepatitis B: HBV DNA levels (>20,000 IU/ml), HBeAg positive, with normal ALT
- Hepatocellular carcinoma is a risk in chronic hepatitis B, but especially in certain populations including cirrhosis
- Polyarteritis nodosa
- Membranous nephropathy or membranoproliferative glomerulonephritis
- Sensorimotor neuropathy
- Sjogren syndrome
Investigations
Management
Acute
- Supportive care
Chronic
- Diagnosed with HBsAg present for 6 or more months; HBV-DNA is variable
- Can be HBeAg positive or negative, with generally higher HBV DNA levels in HBeAg-positive patients
- ALT can be normal or elevated
- Liver biopsy shows chronic hepatitis and variable necroinflammation or fibrosis
- Bloodwork should be monitored every 3 months looking at ALT and HBV DNA to assess for indications for treatment
Indications for Treatment
- The goal of treatment is to decrease the risk of cirrhosis and hepaticellular carcinoma, so is generally reserved for those at higher risk of these sequelae
- The risk is generally higher with higher HBV-DNA and HBsAg titres, and possibly higher ALT
- The decision to treat requires consideration of patient age, viral load, HBeAg, and evidence of significant liver disease (i.e. persistent ALT elevation, fibrosis or inflammation on biopsy, or non-invasive assessment of hepatic fibrosis)
- Treatment is generally indicated when:
- HBV DNA >2000 IU/mL and ALT is elevated for 3-6 months (regardless of HBsAg)
- Evidence of significant hepatic fibrosis (even if HBV DNA <2000 IU/mL and ALT normal)
- Cirrhosis and detectable HBV DNA
- Treatment may also be indicated for other patients with elevated HBV DNA regardless of ALT level
- If inactive for a year (e.g. HBeAg negative, HBeAb positive, normal ALT, and HBV DNA <2000 IU/mL), then can back off to q6-12mo
Treatment Regimens
- Choose one of pegylated-interferon (48 weeks), tenofovir (until 12 months post-HBeAg conversion), or entecavir (until 12 months post-HBeAg conversion)
- Tenofovir or entecavir are preferred for treatment-naïve patients
- Peg-IFN contraindicated in autoimmune disorders, uncontrolled psychiatric disease, cyptopenia, severe cardiac disease, uncontrolled seizures, and decompensated cirrhosis
- Peg-IFN preferred in lamivudine resistance
- Peg-IFN avoided if HBeAg negative
- Tenofovir preferred in cirrhosis, ± entecavir
- Tenofovir is safe in pregnancy
- Entecavir avoided in lamivudine resistance
- Duration depends on what stage is being treated
- Continue HCC surveillance regardless of treatment
Drug | Dose | Duration | |||
---|---|---|---|---|---|
HBeAg positive | HBeAg negative | Cirrhosis | HCC | ||
pegylated interferon α-2a | 180 μg SC weekly | 48 weeks | avoid | ||
tenofovir disoproxil fumarate | 300 mg PO daily | at least 12 months after HBeAg seroconversion, or until HBsAg loss | until HBsAg loss | ||
tenofovir alafenamide | 25 mg PO daily | ||||
entecavir | 0.5 mg PO daily | ||||
lamivudine | do not use | ||||
adefovir | do not use |
Inactive Chronic Hepatitis B
- Defined by HBeAg-negative, anti-HBeAb-positive, normal ALT, and HBV DNA <2000 IU/mL
- Monitor ALT q3mo for 1 year, then q6-12mo
- If ALT rises, check HBV-DNA and HBsAg for activity
HCC screening
- Screen if HBsAg-positive with cirrhosis, or HBsAg-positive at higher risk (Asian men >40yrs, black men >40yrs, Asian women >50yrs, family history, HDV coinfection)
- First-line is ultrasound every 6 months
- Second-line is AFP levels every 6 months
Prophylaxis in Immunosuppression
- Risk stratify based on type of immune suppression and serologic status
- High-risk (>10%):
- HBsAg positive, or HBsAg negative but HBcAb positive, plus B-cell depletion such as rituximab and ofatumumab
- HBsAg positive, plus anthracyclines (doxorubicin, epirubicin), prednisone >10-20 mg/day for ≥4 weeks
- Moderate-risk (1-10%)
- HBsAg positive, or HBsAg negative but HBcAb positive, plus TNF-α inhibitors (etanercept, adalimumab, certolizumab, certolizumab, infliximab), other cytokine or integrin inhibitors (abatacept, ustekinumab, natalizumab, vedolizumab), and tyrosine kinase inhibitors (imatinib, nilotinib, ibrutinib)
- HBsAg positive: prednisone <10 mg/day for ≥4 weeks
- HBsAg negative but HBcAb positive: prednisone >10-20 mg/day for ≥4 weeks, antracycline derivatives (doxorubicin and epirubicin)
- Low-risk (<1%)
- HBsAg positive, or HBsAg negative but HBcAb positive, plus traditional immunosuppressants (azathioprine, 6-MP, methotrexate)
- HBsAg negative or HBcAb positive, plus prednisone <10 mg/day for ≥4 weeks
- High-risk (>10%):
- Concern especially with chronic steroids and rituximab
- Can have the following effects
- Asymptomatic HBV DNA and ALT
- Hepatic failure
- Death
- If ≥7.5mg/d should be screened
- HBsAg +/- HBcAb if they're adding a second agent (rituximab, TNF-alpha inhibitors, or other)
- Refer to Hepatology or Infectious Diseases
- Prophylaxis with lamivudine until 6 months after chemotherapy
Further Reading
- Update on prevention, diagnosis, and treatment of chronic hepatitis B: AASLD 2018 hepatitis B guidance
- Hepatitis B virus genotypes: Global distribution and clinical importance. World J Gastroenterol. 2014;20(18):5427–5434. doi: 10.3748/wjg.v20.i18.5427
References
- ^ Mustafa Sunbul. Hepatitis B virus genotypes: Global distribution and clinical importance. World Journal of Gastroenterology. 2014;20(18):5427. doi:10.3748/wjg.v20.i18.5427.