AssessmentsHepatitis A and Hepatitis E virus
Hepatitis A and Hepatitis E virus
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A 34-year-old woman at 32 weeks gestation presents to the clinic with malaise, fatigue, and fevers. She reports she arrived from Egypt last week to visit family here. She reports she is otherwise healthy, does not smoke, use illicit drugs, or consume alcohol. The pregnancy has otherwise been uncomplicated. She has never received blood products in the past. Temperature is 37.8 °C (100°F), pulse is 83/min, respirations are 12/min, and blood pressure is 137/72 mmHg. Physical examination is notable for scleral icterus. The liver is palpated 3 cm below the right costal margin. Laboratory findings are demonstrated below:
This patient is at risk of developing which of the following pathologic conditions?
Content Reviewers:Viviana Popa, MD
The name comes from the word hepat - meaning liver, and suffix -itis to label inflammatory disease, meaning that hepatitis is an inflammation of the liver.
They tend to cause hepatitis epidemics, especially in children and young adults.
Now, even though they cause the same disease, Hepatitis A and E viruses come from different families.
Hepatitis A is a picornavirus, while hepatitis E is a hepevirus.
They are naked viruses, made of a single strand RNA surrounded by a capsid, which is a spherical protein shell.
And they’re “naked” because the capsid isn’t covered by a lipid membrane.
These viruses are transmitted by the fecal-oral route, in other words, you catch it by ingesting stool particles of someone who is sick - yuck!
This usually happens if infected stool ends up in the food, water and shellfish, or on surfaces.
So usually, outbreaks can often be traced to the same source of food or water, and they also tend to be common in day-care centers.
And just like nutrients, the hepatitis A or E reach the liver through the hepatic portal venous system.
Now, the liver is made of functional units called hepatic lobules.
The main cells are called hepatocytes, and their main job is to use a huuuge array of enzymes to detoxify harmful substances from our blood - like drugs or alcohol; synthesize a variety of important proteins, like coagulation factors; and convert cholesterol into bile salts which along with water and bilirubin make up the bile.
Bile flows into the bile ducts and eventually reaches the gallbladder, which is a small pear-shaped hollow organ located beneath the liver.
This is where bile is stored and becomes more concentrated.
In the liver the hepatitis A virus binds to receptors on hepatocytes and Kupffer cells and enters by endocytosis, which is when a particle, in this case virus is enveloped by cell membrane and brought inside the cell.
Inside the cell, viral RNA is released from its protein coat.
Then, it binds to the host ribosomes, which translate it into a single polyprotein which is cut into smaller proteins that will be used to create the capsid and RNA polymerase, to make more copies of the viral RNA.
Then, viral proteins and RNA bind to make new viral particles that exit the cell by exocytosis, which is like reverse endocytosis; they can also exit when the infected cell is destroyed by the immune system.
The presence of hepatitis A virus outside the cell has twofold effects.
First, after they exit the cell, viral particles are secreted into bile.
CD8+ T-cells, also known as cytotoxic T-cells, along with natural killer cells eliminate infected hepatocytes and Kupffer cells, mostly by inducing programmed cell death, called apoptosis.
This results in liver damage.
On a liver biopsy, liver damage translates as ballooning hepatocytes, which are about to enter apoptosis, and councilman bodies, which are shrivelled, dying hepatocytes, and there’s also monocyte infiltration.
Ok, now, finally, the immune system secretes antibodies against the virus.