AssessmentsVaricella zoster virus
Varicella zoster virus
USMLE® Step 1 style questions USMLE
A 71-year-old woman presents to her primary care provider for evaluation of painful lesions on the forehead. The lesions appeared approximately one week ago and started off as small fluid filled sacs. Over the past few days, the lesions have become more red and painful. Past medical history is notable for hypertension, hyperlipidemia, and asthma. She does not consume tobacco or alcohol. Vital signs are within normal limits, and physical examination is notable for the following finding:
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If untreated, this patient is at highest risk of developing which of the following complications?
Content Reviewers:Rishi Desai, MD, MPH
Now, let’s first talk a bit about the nervous system - it consists of two parts.
The central nervous system which includes the brain and the spinal cord, and the peripheral nervous system includes the nerves that fan out from the central nervous system to reach the skin, muscles, and organs.
Its sensory neurons create a nerve cell cluster called trigeminal ganglion, located in the bones on the side of the face between the eyes and ears.
Each nerve is formed by a dorsal and a ventral root.
Ventral roots contains neurons that carry motor innervation from the spinal cord to the muscles.
Sensory information, like touch, temperature, pain, and pressure from the skin and other tissues travel through 1st order sensory neurons, in the dorsal root ganglion near the spinal cord, then through the dorsal root, and into the spinal cord, where it synapses with the 2nd order neurons.
For example, if you step on a lego, the pain would be carried by the S1 nerve, but if you hit your big toe on a table leg, the pain would be carried by the L5 nerve.
Varicella zoster virus is a double-stranded DNA virus, protected by a protein coat called capsid, which is enveloped in a lipid membrane.
The virus initially enters respiratory epithelial cells - but eventually spreads to numerous cell types.
It gets into all of these cells by fusing its membrane with the cell membrane and releasing the capsid inside the cell.
The capsid binds to the nucleus and injects it with viral DNA, where it’s copied.
The viral genes are transcribed into RNA and go over to the ribosomes, where they are translated into capsid proteins. The capsid and viral DNA fuse together.
They go through the Golgi complex, a cell organelle in charge of packing proteins, to get their lipid membrane and finally the newly formed viruses leave the cell. Leaving behind a dead cell.
When an infected person sneezes or coughs, the viruses leaves the lungs and get released into the air.
The virus can also be transmitted through contact with the oral or skin lesions of the infected person.
When the virus comes in contact with the respiratory mucosa or the skin of a new person, it starts replicating in the epithelial cells.
It soon gets picked up by nearby immune cells and gets transported to a nearby lymph node.
Once the T cells reach the skin, they release the viruses, which start infecting keratinocytes.
The infection spreads through the skin, going directly from cell to cell.
Sometimes the infected keratinocytes start to fuse together and create giant multinucleated cells called Tzanck cells.