Chapter 18 part 2: infectious disorders

Question 1

Types of infectious disorders of the liver

Answer 1

• Viral Hepatitis: A, B, C, D, E

- Bacterial, Parasitic and Helminthic infections

Question 2

Systemic viral infections that can involve the liver

Answer 2

• Epstein-Barr virus
• CMV
• Yellow fever virus
• Less commonly: rubella, adenovirus, enterovirus, herpesvirus

Question 3

Unless specified, hepatitis refers only to what kind of infections??

Answer 3

• infections of the liver by the hepatotropic viruses: A, B, C, D, or E!!!
• All produce similar clinical and morphological patterns of acute hepatitis but vary in their routes of transmission and potential to induce carrier states or chronic disease

Question 4

Hepatitis A virus

Answer 4

• ssRNA that causes a benign, self limited disease
• fulminant HAV is rare (0.1-0.3% fatality)
• not directly cytopathic
• hepatocyte damage is due to CD8+ T cell responses
• Accounts for 25% of acute hepatitis in world
• Acute infxn marked by anti HAV IgM in serum; IgG appears as IgM declines (in few months) and persists for years conferring long-term immunity
• vaccine available

Question 5

Hep B virus can cause:

Answer 5

• Acute, self-limited hepatitis
• Nonprogressive chronic hepatitis
• Progressive chronic disease culminating in cirrhosis and increased risk of HCC
• Fulminant hepatitis with massive liver necrosis
• Asymptomatic carrier state

Question 6

Potential outcomes of Hep B infection in adults and frequencies

Answer 6

• Acute infection–>subclinical dz (65), acute hepatitis (25), chronic hepatitis (5-10)
• Subclinical dz–>recovery (100)
• Acute hepatitis–>Recovery (99) or Fulminant Hep (<1)–>death or transplant
• Chronic hep–>HCC (2-3), cirrhosis (20-30), recovery
• cirrohhosis and HCC–>death or transplant

*acute hepatic failure and fulminant hep are same thing

Question 7

Major determinant of the outcome of Hep B infection is?

Answer 7

• Host immune response to virus
• Younger age at infection has higher probability of chronicity
• Innate immunity is protective during initial phases of infection and strong responses by virus-specific CD4+ and CD8+ interferon (IFN-y) producing cells are associated with resolution
• Abs prevent subsequent reinfection and form basis of effective vaccines

Question 8

How is hepatocyte killing mediated in HBV infection?

Answer 8

• HBV is not cytopathic
• hepatocyte killings is mediated by cytotoxic CD8+ T lymphocytes against virus-infected cells
• Viral DNA sequences can also integrate into host genomes, constituting a pathway for cancer development

Question 9

Structure of HBV

Answer 9

• ciruclar, partially DsDNA
• mature virus exists as a spherical “Dane particle” with outer surface protein and lipid envelop encasing an electron dense core
• 8 viral genotypes with distinct global distributions
• HBV genome has 4 open reading frames

Question 10

4 open reading frames of HBV

Answer 10

• Nucleocaspid core Ag (HBcAg) plus a longer polypeptide transcript (HBeAg) that is secreted into bloodstream
• Hep B surface Ag (HbsAg) envelope glycoproteins (large, middle and small); infected hepatocytes can synthesize and secrete massive quantities of noninfective HbsAg (mostly small HBsAg)
• Polymerase with both DNA polymerase and reverse transcriptase activity; viral replication occurs through an intermediate RNA template: DNA–>RNA–>DNA
• Hbx protein, a transcriptional transactivator of host and viral genes, necessary for viral replication

Question 11

HbsAg, HBe Ag and HBV DNA

Answer 11

• HbsAg appears before symptoms (anorexia, fever, jaundice)
• peaks during overt disease and declines over months
• HBeAg and HBV DNA appear soon after HBsAg and before disease onset
• HbeAg is detectable in serum during viral replication but some mutant strains do not produce it
• HbeAg usually declines within weeks
• persistence suggests progression to chronic disease

Question 12

Abs that appear in Hep infection

Answer 12

• IgM and anti-HBcAg are first to appear, followed by:

- anti-HbeAg and IgG anti-HBcAg

Question 13

Anti-HBSAg signifies

Question 14

Chronic carrier defined by

Answer 14

-presence of HBsAg in serum for 6 months

Question 15

Chronic Hep B infection Tx

Answer 15

-difficult to cure due to development of resistant mutant strains

Question 16

Hep B transmission–differences based on geography

Answer 16

• in high prevalence areas (Africa, Asia), transmission during childbirth=90%
• in intermediate prevalence regions (Southern and eastern europe), horizontal transmission in childhood by minor cutes or breaks in mucus membranes is most common
• in low prevalence areas (US and western Europe), IV drug abuse and unprotected intercourse are major modes of transmission

Question 17

Hep C Virus characteristics

Answer 17

• ssRNA, enveloped virus
• low fidelity of HCV RNA polymerase causes substantial genomic variability and constitutes a major obstacle to vaccine development–any person can harbor a population of related but divergent quasi species and the presence of high titers of anti-HCV IgG does not confer effective immunity

Question 18

Viral replication of Hep C virus

Answer 18

• begins with translation of a single polypeptide that is processed into nucleocapsid protein, envelope proteins and seven nonstructural proteins
• E2 envelope protein is a target of several anti-HCV Abs but is also the most variable region of genome allowing escape from otherwise neutralizing titers
• Anti-HCV Abs do not confer protection

Question 19

characteristic feature of HCV infection

Answer 19

-repeated bouts of damage

Question 20

difference bw HCV infection and HBV infection

Answer 20

• In contrast to HBV, progression to chronic disease occurs in most (80-90%) of HCV infected patients and cirrhosis occurs in 20%
• Like HBV hepatocellular damage is immune mediated, although the cellular immune responses are largely unable to completely eradicate HCV infections

Question 21

Incidence of HCV infection

Answer 21

• half of U.S burden of chronic liver dz

- incidence has significantly declined as a result of blood supply screening

Question 22

What ppl are at risk for HCV infection?

Answer 22

-Primary=IV drug abusers and multiple sexual partners

Question 23

Dx of HCV infection

Answer 23

• HCV RNA detectable in blood for 1-3 weeks during active infection, coincident with transaminase elevations
• Anti-HCV Abs occur in only 50-70% of patients in acute setting although 90% will eventually develop such Abs

Question 24

Treatment for chronic HCV infection

Answer 24

• potentially curable
• older Tx=IFN-a and ribovarin
• newer drugs that target viral protease and polymerase can achieve undetectable levels of virus in majority of pts

Question 25

Hep D virus

Answer 25

• defective RNA virus that can replicate and cause infection ONLY when encapsulated by HBsAg
• so ONLY develops when there is confection by HBV infection
• Acute confection by HDV and HBV leads to hepatitis that ranges from mild to fulminant but chronicity rarely develops
• BUT HDV SUPERINFECTION of an unrecognized HBV carrier or in a pt with chronic HBV leads to eruption of acute hepatitis with frequent conversion to chronic disease and cirrhosis

Question 26

High prevalence areas for HDV coinfection

Answer 26

• Africa
• Middle East
• Italy
• Amazon basin
• *UNCOMMON in US, Southeast Asia and China

Question 27

structural features of HDV

Answer 27

• has an HBV envelope
• the only protein produced by virus is an internal polypeptide assembly called the delta Ag (HDAg) associated with small circular ssRNA
• Viral replication requires host RNA polymerase activity

Question 28

HDV Dx

Answer 28

• HDV RNA appears in blood and liver before and ruing early acute symptomatic infection
• IgM anti-HDV indicates recent HDV exposure
• IgM anti-HbcAg suggests acute HBV confection whereas serum HBsAg implies superinfection
• Vaccination against HBV can prevent HDV infection

Question 29

Hep E virus

Answer 29

• nonenveloped ssRNA virus
• enterically transmitted, water-borne infection with several animal reservoirs (monkeys, cats, pigs, and dogs)
• HEV epidemics have occurred in Asia, Mexico, and Africa and also endemic in India where 30-60% of acute hepatitis cases
• typically self-limited with no chronicity but high rate of fatal fulminant hepatitis (20%) in pregnant women

Question 30

Hep E–Dx

Answer 30

• HEV Ag found in hepatocytes during active infection and visions and RNA can be detected in stool and serum before symptom onset
• Subsequent development IgG anti-HEV confers long-lived protection against reinfection

Question 31

Clfinicopathologic syndromes of viral hepatitis

Answer 31

• any hep virus can be asymptomatic or symptomatic
• fulminant course uncommon
• serologic and molecular studies essential for viral hep Dx and to distinguish type
• Acute asymptomatic infection with recovery, Acute symptomatic infection with recovery, Acute liver failure

Question 32

Acute asymptomatic infection with recovery

Answer 32

• Pts identified only incidentally based on elevated transaminases or by antiviral Ab titers
• HAV and HBV are frequently subclinial

Question 33

Acute symptomatic infection with recovery

Answer 33

• Acute symptomatic infections are all similar with variable incubation pds, asymptomatic preicteric phase, symptomatic icteric phase, and convalescence
• Peak infectivity occurs during last asymptomatic days of incubation pd and early days of acute symptoms

Question 34

Acute liver failure

Answer 34

• Viral hepatitis causes 10% of cases of acute hepatic failure; globally hep A and E are the most common causes whereas HBV is more common in Asian and Mediterranean countries
• Survival for more than a week may allow residual hepatocyte replication and activation of stem and progenitor cells yields prominent ductular reactions; recovery depends on restoration of missing parenchyma
• Care is supportive and liver transplantation is only option when disease does not resolve

Question 35

Chronic hepatitis

Answer 35

• symptomatic (fatigue, malaise, jaundice), biochemical or serologic evidence of ongoing hepatic disease for >6 months
• Acute HCV infxn progresses to chronic hepatitis in 80%–1/3 develop cirrhosis
• In addition to ongoing liver injury and risk of cirrhosis and/or HCC, immune complex disease (due to circulating Ab-Ag complexes) may develop w/vasculitis and glomerulonephritis
• 35% of chronic hep C pts develop cryoglobulinemia

Question 36

Carrier state

Answer 36

• A carrier harbors and can transmit hepatitis but has no manifest symptoms
• includes patients with chronic disease but few or no symptoms and those with little or no adverse effects (healthy carriers); for HBV, healthy carriers lack HBe Ag but have anti-HBeAg, normal serum aminotransferase levels, low serum HBV DNA and a liver biopsy without significant necrosis or inflammation
• In the US, adult HBV rarely produces a healthy carrier state but >90% of HBV infections acquired early in life in endemic areas result in healthy carrier state

Question 37

HIV and chronic viral hepatitis

Answer 37

• similar transmission modes and risks result in frequent HIV and hepatitis virus confections
• 10% of HIV patients are infected with HBV and 30% with HCV resulting in more aggressive liver disease
• Chronic hepatitis is a major cause of morbidity and mortality in HIV infected patients and liver disease is the 2nd most common cause of death in AIDS

Question 38

Morphology of acute and chronic hepatitis–general

Answer 38

• All hepatotropic viruses share most of the same morphologic changes
• features are nonspecific and can be mimicked by drug reaction or autoimmune liver disease but some distinct features may be present (HBV, HCV)

Question 39

HBV morphology

Answer 39

-infected hepatocytes can show a finely granular “ground glass” cytoplasm packed with HBsAg

Question 40

HCV morphology

Answer 40

-portal lymphoid aggregates, bile duct reactive changes and lobular regions of macro vesicular steatosis

Question 41

Acute hepatitis morphology

Answer 41

• Injured hepatocytes are eosinophilic and rounded with shrunken or fragmented nuclei (apoptosis) or swollen (ballooning degeneration)
• In severe hepatitis, confluent damage causes bridging necrosis between portal and central regions of adjacent lobules; cholestasis can occur
• Kupffer cell hyperplasia and macrophage aggregates mark the site of hepatocyte loss
• Portal tracts exhibit mononuclear cell inflammation often with spillover into adjacent parenchyma associated with periportal apoptosis (interface hepatitis)

Question 42

Chronic hepatitis morphology

Answer 42

• Histology ranges from mild to severe to cirrhosis
• Mild: inflammatory infiltrates only in portal tracts
• Progressive disease: extension of chronic inflammation from portal tracts with interface hepatitis; linking of portal-portal and portal-central regions constitutes bridging necrosis
• continued loss of hepatocytes results in fibrous septum formation!! Associated hepatocyte regeneration results in cirrhosis

Question 43

Bacterial, Parasitic and Helminthic Infections–Extrahepatic infections

Answer 43

-especially sepsis can induce hepatic inflammation and varying degrees of cholestasis

Question 44

Bacterial, Parasitic and Helminthic Infections–Biliary obstruction and intrabiliary bacterial proliferation

Answer 44

-can cause severe acute inflammatory response (ascending cholangitis)

Question 45

Bacterial, Parasitic and Helminthic Infections–parasitic infections

Answer 45

• e.g., amebic, echinococcal, malarial or helminthic organisms–are common causes of hepatic abscesses in developing countries
• Liver flukes most common in southeast Asi case a high rate of CCA

Question 46

Bacterial, Parasitic and Helminthic Infections–Abscesses occurring in developed countries

Answer 46

• rare; usually bacterial or candidal
• sources are intra-abdominal (via portal vein), systemic (via arterial supply), biliary tree, direct extension, and penetrating injuries
• Abscesses are associated with fever, right upper quadrant pain, tender hepatomegaly, and possibly jaundice
• Mortality without daringe is 90%; survival is dramatically improved by early Tx
• Rupture of echinococcal cysts can precipitate systemic spread of organism with severe immune mediated shock