Block 11 - L3-5

Question 1

What are two prominent viral causes of respiratory disease?

Answer 1

1. Orthomyxoviruses (influenza)

2. Paramyxoviruses (respiratory syncytial virus and parainfluenza virus)

Question 2

What is the most common route of viral infections (including influenza virus)?

Answer 2

Inhalation (aerosol droplets can contain viruses)

Question 3

What is the incubation period for the influenza virus?

Answer 3

1-3 days

Question 4

Influenza virus shedding precedes symptoms by how many days?

Answer 4

1 day

Question 5

What are the symptoms of influenza?

Answer 5

Central - headache
Systemic - fever (usually high)
Muscular - extreme tiredness
Joints - aches
Nasopharynx - runny or stuffy nose, sore throat, aches
Respiratory - coughing
Gastric - vomiting
CXR - lung consolidation

Question 6

What causes the symptoms of influneza?

Answer 6

Cytopathic infection and immune response

Question 7

How does the influenza virus cause ARDS?

Answer 7

1. Infects epithelial cells of the respiratory tract
2. Cell die (direct effects of the virus + interferon)
3. Efficiency of ciliary clearance is reduced, impairing the mucus elevator
4. Reduced clearance of infectious agents from the tract
5. Gaps in the protective epithelium provide other pathogens access to other cells
6. Bacterial pneumonia can develop; ARDS can develop

Question 8

What is almost never observed in influenza virus infection?

Answer 8

Viremia

Question 9

Which populations can experience severe cases of influenza?

Answer 9

Co-morbidities: asthma, COPD, CHF, obesity, bacterial pneumonia, immunosuppression and cytokine dysregulation

Patient populations: infants (smaller airway passages), pregnant or <2 weeks postpartum, age (<5 and >65)

Question 10

Which type of influenza causes ~70% of human disease?

Answer 10

A (B and C cause the remaining 30%)

Question 11

Describe the structure of influenza.

Answer 11

Enveloped negative-strand segmented RNA virus with a pleomorphic structure and 8 single-stranded negative-strand RNA strands in each particle

HA (hemagglutinin) and NA (neuraminidase) stud the particle

Question 12

Which viruses can be killed by organic solvents and why?

Answer 12

Enveloped viruses such as influenza can be killed by organic solvents (dissolve the lipid envelope)

Question 13

What is the infection cycle of the influenza virus?

Answer 13

1. One virus enters cells apically and newly-made progeny viruses (1000+) egress after 10 hours (apically)
2. Enter host cell nucleus and are transcribed; exit to cytoplasm and are translated to viral proteins (including polymerases which return to the nucleus to amplify infection)
3. Move to the plasma membrane to form platforms for viral budding and epical egress

Question 14

Where do anti-viral antibodies bind on the influenza virus?

Answer 14

Epitope sites on HA

Question 15

How do influenza epidemics occur?

Answer 15

Antigenic drift caused by point mutations, particularly in the hemagglutinin spikes

Question 16

How doe influenza pandemics occur?

Answer 16

RNA segment reassortment leading to antigenic shifts (8 RNA segments, influenza is widespread in different animals)

Question 17

How are influenza virus vaccines made?

Answer 17

Strains are grown in chicken eggs, purified from allantoic fluids, inactivated, quality-controlled, and injected intramuscularly; live-attenuated vaccine is also available for intranasal delivery

Question 18

How long does it take for protective antibodies to form after flu vaccination?

Answer 18

2-4 weeks

Question 19

Antibodies against the influenza virus target what aspect of the virus?

Answer 19

Bind to HA proteins and prevent virus entry and membrane fusion

Question 20

How are influenza virus vaccines classified?

Answer 20

1. Serotype (A, B, C)
2. Geographic location of the isolate
3. Host of origin
4. Strain number and year of isolation
5. HA and NA subtypes

Question 21

What are the four laboratory tests that can be used to diagnose influenza virus?

Answer 21

1. Immunofluorescence (rapid and specific, but labor-intensive/requires quality reagents)
2. Enzyme immunoassay (rapid and can be automated, but expensive and can be insensitive)
3. Culture (confirms infective virus, but is slow and some viruses cannot be cultivated)
4. PCR (fast, sensitive, and specific, and expensive with some false-positives)

Question 22

What are the two types of anti-influenza drugs and what do they target?

Answer 22

1. Amantadines (target M2)

2. NA inhibitors (target NA)

Question 23

Describe the MOA of amantadines.

Answer 23

Prevent M2 (ion channel) from functioning; this prevents the interior of the flu virus particles from becoming acidified in the endosome during entry; normally, this acidification loosens up the contacts between RNA and M1 to allow the RNA to flow into the cytoplasm

Question 24

Describe the MOA of neuraminidase inhibitors.

Answer 24

NA is a receptor destroying enzyme that strips away sialic acids from infected cells, so that when new viruses bud off of the infected cells, they will not re-bind back onto the same cell from which they arose; when NA is blocked, the viruses will re-bind, restricting the infections to a localized area. In other words, these drugs retard virus dissemination.

Question 25

What are some additional common respiratory viruses?

Answer 25

Rhinovirus
Coronavirus
Adenovirus
Influenza
Para-flu and RSV
HSV and EBV

Question 26

True or false - the same virus can cause different disease patterns (bronchiolitis, common cold, croup, influenza-like pneumonia) depending on the extent of infection and host response.

Answer 26

True

Question 27

True or false - Rhinoviruses, Adenoviruses, and Coronaviruses can all cause the common cold.

Answer 27

True

Question 28

Rhinoviruses cause acute infections in the ___. Vaccines are of limited utility - why?

Answer 28

Respiratory tract; diversity (hundreds) of serotypes

Question 29

Adenoviruses cause infections in the respiratory tract, as well as ___ (aka ___). There is a live-attenuated vaccine to some serotypes, but no antiviral drugs yet.

Answer 29

Conjunctivitis; pink eye

Question 30

Coronaviruses can cause both respiratory and ___ infections. They are common in children and often cause ___.

Answer 30

GI; croup

Question 31

Small changes in the surface glycosylation of the influenza virus are called ___.

Answer 31

Camouflage (block antibody binding site)

Question 32

What is the genome and family of influenza virus?

Answer 32

Segmented negative strand RNA orthomyxovirus

Question 33

How is influenza virus most common transmitted?

Answer 33

Respiratory

Question 34

What is the current method of detection of influenza virus?

Answer 34

Film array RT-PCR assay

Question 35

What is the mechanism of pathogenesis of influenza virus infection

Answer 35

Exuberant immune responses cause lethargy, muscle aches, fever while necrotic infected cell debris and inflammatory infiltrates occupy airways and impede breathing

Question 36

Are there any anti-viral therapies available against influenza virus?

Answer 36

Amantidine or Neuraminidase inhibitors (tami-flu)

Question 37

Are there any vaccines available against influenza virus?

Answer 37

1. Live-attenuated vaccine (flu-mist)

2. Killed virus vaccines with current year HA and NA

Question 38

Why do people need to be vaccinated annually for influenza virus?

Answer 38

Because new influenza strains arise due to antigenic drift and antigenic shift

Question 39

What causes pandemic influenza virus outbreaks?

Answer 39

RNA segment reassortment causing antigenic shift

Question 40

What are common causes of respiratory infections?

Answer 40

Viruses (82%) - rhinovirus, parainfluenza virus, influenza virus, RSV, adenovirus, enterovirus

Bacterial (13%) - GAS

Mycoplasma and other (4%)

Question 41

When do influenza and RSV present temporally?

Answer 41

Winter (peak)

Question 42

What are the viruses in the paramyxoviridae family?

Answer 42

1. Parainfluenza (types 1-4)
2. Mumps
3. Measles
4. RSV (types A and B)
5. Metapneumovirus (types A and B)

Question 43

How does RSV present in infants/young children, adults, and elderly?

Answer 43

Infants/young children - LRTI
Adults - milder URTI
Elderly - pneumonia

Question 44

How is RSV transmitted?

Answer 44

Respiratory (generally requires close contact)

Question 45

What type of patient is at high risk for complications of RSV?

Answer 45

Infants who are premature, immunocompromised, or have congenital heart disease

Question 46

Discuss the pathology of RSV infection.

Answer 46

Necrosis of bronchiolar epithelium in 18-24 hours, submucosal edema, bronchioles occluded with mucus and cellular debris, hyperinflation and air trapping

Question 47

How are respiratory specimens worked up?

Answer 47

RT-PCR (1-3 hours, FilmArray Respiratory Panel tests for 20 pathogens)

Question 48

What is the preventive treatment for RSV in high-risk infants?

Answer 48

Palivizumab - humanized Ig - expensive but effective

Question 49

What is the MOA of Palivizumab?

Answer 49

Monoclonal Ab that binds RSV F (fusion) protein, prevents attachment to the cell

Question 50

What is human metapneumovirus (hMPV)?

Answer 50

A new virus that presents similarly to RSV, with a less severe disease outocme

Question 51

Discuss the features of parainfluenza virus infections.

Answer 51

Large, relatively unstable enveloped virion, easily inactivated

Contagion period precedes symptoms and may occur in the absence of symptoms

Human hosts only

Reinfection can occur later in life

Question 52

How is parainfluenza virus transmitted?

Answer 52

Inhalation of large droplet aerosols

Question 53

How does parainfluenza virus infection present in children and adults?

Answer 53

Children - mild disease, crou
Adults - reinfection with midler symptoms

Infection is limited to the respiratory tract, URT infection is most common, though LRT infection can occur

Question 54

What is the geographic and seasonal preference of parainfluenza virus?

Answer 54

Ubiquitous, worldwide, seasonal

Question 55

Discuss the various presentations of parainfluenza virus.

Answer 55

NOT systemic, no viremia

Coldlike symptoms, bronchitis, bronchiolitis, croup (laryngotracheobronchitis)

Question 56

What type of protective immunity develops after infection with parainfluenza?

Answer 56

Protective immunity of relatively short duration

Question 57

What is another viral cause of croup?

Answer 57

Human coronavirus NL-63

Question 58

Which type of parainfluenza virus is most common?

Answer 58

Type 3

Question 59

What are the genomic features of paramyxoviridae viruses?

Answer 59

Negative single strand RNA viruses that induce cell fusion (syncytium formation)

Question 60

How does RSV appear in tissue culture?

Answer 60

Syncytia - amalgamation of cells with the loss of cell border, multinucleated cells, intracytoplasmic inclusions

Question 61

Of the 4 major types of paramyxoviruses (parainfluenza, mumps, measles, RSV), which have fusion proteins?

Answer 61

All

Question 62

Of the 4 major types of paramyxoviruses (parainfluenza, mumps, measles, RSV), which have hemagglutinin?

Answer 62

Parainfluenza
Mumps
Measles

(NOT RSV)

Question 63

Of the 4 major types of paramyxoviruses (parainfluenza, mumps, measles, RSV), which have neuraminidase?

Answer 63

Parainfluenza
Mumps

(NOT measles or RSV)

Question 64

Of the 4 major types of paramyxoviruses (parainfluenza, mumps, measles, RSV), what type of immunity develops for each?

Answer 64

Short-lived - parainfluenza, RSV

Life-long - mumps, measles

Question 65

Of the 4 major types of paramyxoviruses (parainfluenza, mumps, measles, RSV), which have multiple antigenic types?

Answer 65

Parainfluenza - 4

RSV - 2

Question 66

Of the 4 major types of paramyxoviruses (parainfluenza, mumps, measles, RSV), which have a vaccine?

Answer 66

Mumps and measles (both live-attenuated)

RSV - in development

Question 67

What is the most common disease associated with RSV?

Answer 67

Severe lower respiratory tract infection in children

Question 68

How is RSV usually transmitted?

Answer 68

Inhalation of respiratory droplets

Question 69

What is the current recommended mode of detection for RSV?

Answer 69

Film array RT-PCR of nasal wash

Question 70

What is the pathogenesis of RSV?

Answer 70

Necrosis of bronchiolar epithelium in 18-24 hours, submucosal edema, bronchioles occluded with mucosa and cellular debris, and hyperinflation and air trapping

Question 71

Are there any effective anti-viral agents available for treatment of hospitalized children with RSV?

Answer 71

No

Question 72

Are there any effective therapeutics against RSV?

Answer 72

Administer Palivizumab prior to infection

Question 73

Is there a vaccine currently available for RSV?

Answer 73

No

Question 74

Are there any long-term consequences to RSV infections?

Answer 74

Less severe reinfection and short-term immunity

Question 75

How is mumps transmitted?

Answer 75

Respiratory droplets

Question 76

Discuss the pathogenesis of mumps virus.

Answer 76

Respiratory tract is inoculated, local replication occurs, infects epithelial cells of the respiratory tract, spreads systemically by viremia to: parotid gland, testes, CNS
Less commonly - peripheral nerves, eye, inner ear, pancreas

Question 77

What is the incubation period of mumps infection?

Answer 77

7-14 days

Question 78

What is the classic symptom of mumps?

Answer 78

Swelling of parotid glands

Question 79

What component of host defense is necessary to combat mumps?

Answer 79

CMI (Ab is not sufficient due to mumps’ ability to spread cell to cell)

Note - CMI is partly responsible for symptoms

Question 80

What is the clinical definition of mumps?

Answer 80

Acute onset of unilateral or bilateral swelling of the parotid or salivary gland lasting >2 days without another apparent cause

Question 81

What is the lab criteria for diagnosis of mumps?

Answer 81

Isolation of mumps virus OR
Significant increase in mumps IgG Ab level between acute and convalescent samples OR
Positive serologic test for mumps IgM Ab

Question 82

Describe the features of the mumps vaccine.

Answer 82

Live-attenuated, 95% effective, lifelong immunity, 1 dose + 1 boost, administered with MMRV

Question 83

What is a leading cause of vaccine-preventable deaths in children?

Answer 83

Measles

Question 84

What are the symptoms of measles?

Answer 84

Characteristic maculopapular rash, coryza, cough, conjunctivitis, Koplik’s spots (grain-of-salt appearance in mouth)

Question 85

What are possible complications of measles?

Answer 85

Diarrhea, oitis media, croup, bronchopneumonia, encephalitis and subacute sclerosing panencephalitis

Question 86

What is the incubation period of measles?

Answer 86

~7 days

Question 87

What is the course of measles?

Answer 87

7 day incubation period
~1 week of viremia, viriuria, viral shedding
Rash presents between day 10-14

Question 88

Why is a measles booster given?

Answer 88

Outbreaks in children <5 y/o are unvaccinated

Outbreaks in children 5-18 y/o are vaccinated

Question 89

What are the symtpoms of rubella?

Answer 89

URTI and maculopapular rash

Question 90

How is rubella diagnosed?

Answer 90

Isolation of rubella virus OR significant rise in rubella IgG by any standard serologic assay OR positive serologic test for rubella IgM antibody

Question 91

What is congenital rubella syndrome?

Answer 91

Acute infection of rubella during the first three months of pregnancy can lead to infection of the fetus; if mild and chronic, this develops; if severe, spontaneous abortions and stillbirths occur

Question 92

What are the effects of CRS?

Answer 92

Deafness, cataracts, heart defects, microcephaly, mental retardation, bone alterations, liver and spleen damage

Question 93

What are the structural features of parvovirus B19?

Answer 93

Single-stranded DNA virus with capsid

Question 94

How is parvovirus B19 spread?

Answer 94

Respiratory and oral secretions

Question 95

Discuss the pathogenesis of parvovirus B19.

Answer 95

Infects mitotically active erythroid precursor cells in the bone marrow and establishes lytic infection

Initial symptoms are flu-like and due to viral shedding; later phase is related to immune response

Can cross the placenta and infect the baby

Question 96

What are the symptoms of parvovirus B19 infection?

Answer 96

Mild, flu-like illness with fever, headache, chills, myalgia, malaise

Erythema infectiosum (fifth disease/slapped cheek syndrome)

Aplastic crisis in people with chronic anemia

Arthropathy (polyarthritis)

Risk of fetal loss (can cross the placenta), also causes anemia-related disease, but not congenital anomalies

Question 97

How is parvovirus B19 diagnosed?

Answer 97

Erythema infectiosum - clinical diagnosis

Virus specific IgM and/or viral DNA evaluation for other presentations

Question 98

What is the most common manifestation of disease associated with Mumps virus infection?

Answer 98

Parotitis

Question 99

How is the Mumps virus most commonly transmitted?

Answer 99

Respiratory

Question 100

How is Mumps virus currently diagnosed?

Answer 100

Clinical symptoms with confirmation by serology performed by the public health department

Question 101

What is the most common pathogenesis of a Mumps infection?

Answer 101

Viral replication in respiratory tract leading to viremia & infection and inflammation of parotid gland

Question 102

Are there any approved anti-virals against Mumps infection?

Answer 102

No

Question 103

Is there a vaccine currently available for Mumps virus?

Answer 103

Live-attenuated vaccine in combination with Measles and Rubella and Varicella

Question 104

Are there any major consequences to Mumps infections?

Answer 104

Long-term immunity

Question 105

What is the most common manifestation of disease associated with Measles virus infection?

Answer 105

Maculopapular rash, coryza, cough and conjunctivitis and Koplik’s spots

Question 106

How is the Measles virus usually transmitted?

Answer 106

Respiratory from the cough of infected person

Question 107

How is Measles virus currently diagnosed?

Answer 107

Clinical symptoms with confirmation by serology performed by the public health department

Question 108

What is the most common pathogenesis of a Measles infection?

Answer 108

Viral replication in respiratory tract leading to viremia and rash

Question 109

Are there any approved anti-virals against Measles infection?

Answer 109

No

Question 110

Is there a vaccine currently available for Measles virus?

Answer 110

Live-attenuated vaccine in combination with Mumps and Rubella and Varicella

Question 111

Are there any major consequences to Measles infections?

Answer 111

Risk of subacute sclerosing panencephalitis

Question 112

What is the most common disease associated with Parainfluenza virus in children?

Answer 112

Croup

Question 113

How is parainfluenza virus transmitted?

Answer 113

Respiratory droplets

Question 114

Wha is the current recommended mode of detection for Parainfluenza virus?

Answer 114

Clinical diagnosis by common presentation and film array RT-PCR

Question 115

Knowing the pathogenesis of Parainfluenza virus, which of the following are the expected clinical findings?

Answer 115

Coldlike symptoms, bronchitis, croup

They are not systemic and do NOT cause viremia

Question 116

Are there any effective therapeutic agents available to treat Parainfluenza virus infections?

Answer 116

Glucocorticoids for severe cases of croup

Question 117

Is there a vaccine currently available for Parainfluenza virus?

Answer 117

No

Question 118

Are there any long term complications to Parainfluenza virus infection?

Answer 118

Short-term immunity

Question 119

What is the common name given to Rubella virus infection?

Answer 119

German measles

Question 120

How is the Rubella virus usually transmitted?

Answer 120

Respiratory

Mother to fetus

Question 121

What laboratory test is done to diagnose Rubella virus?

Answer 121

Serology

Question 122

What is the most common pathogenesis of a Rubella infection?

Answer 122

Viral replication in respiratory tract leading to viremia and rash

Question 123

Are there any approved anti-virals against Rubella infection?

Answer 123

No

Question 124

Is there a vaccine currently available for Rubella virus?

Answer 124

Live-attenuated vaccine in combination with Mumps and Measles and Varicella

Question 125

Are there any consequences to Rubella infections in pregnant women?

Answer 125

Congenital rubella syndrome