DD 02-26-14 08-10am Common Viral Pathogens - Curtis

Question 1

Infection vs. Disease

Answer 1

Infection = virus has replicated in host
Disease = infection that causes symptoms

Question 2

Lab Tests to Dx Viral Infection

Answer 2

• Culture: can grow SOME viruses in TISSUE
• Antigen assays
• PCR
• ELISA (Enzyme-Linked Immunosorbent Assay)

Question 3

Antigen assays for viral Dx

Answer 3

• various assays using enzymatic rxns or immunofluorescence to detect specific Ags of virus in question (ex: rapid flu test)

Question 4

PCR for viral Dx

Answer 4

• copying & amplifying portion of viral genome
• very sensitive & specific
• can be done on blood, nasal wash, CSF, biopsies

Results may be…

• qualitative (+ or -)
• quantitative (# of copies/mL)

Question 5

ELISA (Enzyme-Linked Immunosorbent Assay to Dx virus

Answer 5

• to look for host’s immune response to viral infection by looking for Abs specific for that virus

Most commonly, ELISA would…

• Coat plate w/ viral Ag (whole virus or part)
• Incubate host’s serum on plate to let Abs attach to Ag on bottom of wells
• Then incubate plate w/ an antibody that detects the host antibody (i.e., a secondary antibody)
• Then incubate plate w/ a substrate that will allow visualization of the secondary antibody

Question 6

Herpes virus (type of virus, who they infect)

Answer 6

• double-stranded DNA viruses

- infect most animals.

Question 7

Hallmark of a herpes infection

Answer 7

Once a host is infected, the host is always infected.

• establishes latency after infection
• latent virus can become reactivated
• reactivated infection doesn’t always cause disease

Question 8

Antiviral medications for Herpes Viruses

Answer 8

• work against some of the human herpes viruses

Acyclovir
= most common
= works by inhibiting the viral DNA polymerase
= indicated for HSV and VZV infections

Question 9

Herpes Viruses that infect humans (8)

Answer 9

• HHV-1: Herpes Simplex Virus-1 (HSV-1)
• HHV-2: HSV-2
• HHV-3: Varicella Zoster Virus (VZV)
• HHV-4: Epstein Barr Virus (EBV)
• HHV-5: Cytomegalovirus (CMV)
• HHV-6: Roseola (HHV-6a, HHV-6b)
• HHV-7: Roseola
• HHV-8: HHV-8

Question 10

Clinical Manifestations of Herpes Simplex viruses 1 & 2 (HSV-1, HSV-2)

Answer 10

• Oral and genital herpes
• Neonatal herpes
• Herpes keratitis (eye)
• Herpes encephalitis
• Herpetic whitlow (finger lesion)
• Herpes gladiotorum (“wrestlers”)
• Encephalitis

Question 11

Clincal Manifestations of Varicella zoster virus

VZV

Answer 11

• Chickenpox,

- In immunocompromised: vasculitis, encephalitis, pneumonia

Question 12

Clincal Manifestations of Epstein-Barr virus

EBV

Answer 12

• Infectious mononucleosis
• Burkitt’s lymphoma-
• Encephalitis
• In immunocompromised: lymphoma

Question 13

Clincal Manifestations of Cytomegalovirus

CMV

Answer 13

• Infectious mononucleosis-like syndrome
• In immunocompromised: retinitis, pneumonia
• In newborns: congenital CMV

Question 14

Clincal Manifestations of Human herpesvirus 6 & 7

Answer 14

• Roseola or exanthem subitum

- In immunocompromised: fever, encephalitis

Question 15

Clincal Manifestations of Human herpesvirus 8

Answer 15

• Kaposi’s sarcoma (only occurs in immunocompromised)

Question 16

Signs/Symptoms of Herpes Simplex viruses 1 & 2 (HSV-1, HSV-2)

Answer 16

-painful vesicles at the site of inoculation

Question 17

Differences between of HSV-1 & HSV-2

Answer 17

Though both can cause oral & genital herpes…

• HSV-1 is predominantly oral lesions
• HSV-2 is predominantly genital lesions
• These differences are becoming less strong with time, mainly as a result of oral sex allowing the two viruses to now infect other body sites

Question 18

Incubation Period of HSV-1 & -2

Answer 18

2-12 days

typically ~4 days

Question 19

Transmission of HSV-1 & -2

Answer 19

Transmission occurs through inoculation from someone who is shedding virus into a mucosal surface or cut of another person.

Question 20

Clinical patterns of HSV-1 & HSV-2 depend on…

Answer 20

whether infection is primary or recurrent

Question 21

Primary infection vs. Latent infection vs. Reactivation infection with HSV-1/HSV-2: Clinical pattern

Answer 21

Primary:

• most are asymptomatic
• usually worse than recurrent infection
• If symptomatic, lesions usually develop 1-3 days after inoculation
• Vesicular rash +/- fever
• Usually occurs during childhood w/ HSV gingivostomatitis (historically HSV-1)

Latent:
- asymptomatic

Reactivation:

• Contagious, though may be asymptomatic
• If symptomatic, usually less than primary infection
• Can be infrequent or very frequent
• Provoked by variety of stimuli

Question 22

HSV-1 & -2 Rash in Immunocompromised vs. Immunocompetent Hosts

Answer 22

Immune competent hosts:
- area of vesicular rash stays contained to area of inoculation
Immunocompromised host:
- Infection may involve larger areas of skin
- Can disseminate to specific/multiple organs (systemic)
- EX: encephalitis, hepatitis

Question 23

Neonatal HSV-1 & -2 infection: Locations

Answer 23

Skin
Eye
Mucous Membrane
CNS
Disseminated

Question 24

Latent infection with HSV-1/HSV-2: where infection occurs

Answer 24

Occurs in sensory ganglia of areas infected w/ the primary infection

• Orofacial infection: trigeminal ganglia
• Genital infection: sacral ganglia

Question 25

HSV-1/-2 Diagnosis:

Answer 25

Often clinical Dx

If need definitive Dx:

• Tzanck smear
• HSV culture
• Direct Fluorescent Antigen stain
• PCR of lesions

Question 26

Triggers of Reactivation of HSV-1/HSV-2 Infection

Answer 26

• sunlight
• stress
• febrile illness
• menstruation
• immunosuppression

Question 27

HSV Treatment

Answer 27

Severe HSV infections:
<– IV acyclovir
= for neonatal HSV, HSV in immunocompromised hosts, encephalitis/meningoencephalitis

Oral antiviral therapy (acyclovir or related antiviral)
= for oral or genital outbreaks
= standing Rx for ppl w/ frequent outbreaks not on suppressive therapy, so they can fill it & start treatment at very onset of reactivation / outbreak

Question 28

Tzanck smear to Dx HSV-1/-2 infection

Answer 28

• direct specimen (scrape base of lesion)
• put specimen on slide & stain
• look for multinucleated giant cells
• not specific for HSV (also VZV and CMV)
• rarely used in favor of easier & more sensitive / specific testing

Question 29

HSV-1/-2 Prevention of Reactivation Infection (& what warrants it)

Answer 29

Prophylactic Acyclovir

• in lower doses than used for treatment
• difficult to maintain

Used for pts with:

• frequent outbreaks of oral / genital lesions
• recurrent keratitis & encephalitis

Question 30

HSV-1/-2 Prevention of Primary Infection

Answer 30

• NO vaccine available
• Hand hygiene
• Physical barriers: gloves, condoms
• Avoid contact

Question 31

Varicella Zoster Virus (VZV) - Clinical Syndrome

Answer 31

VZV causes 2 clinical syndromes of importance:
• Chickenpox (varicella)
• Shingles (zoster)

Question 32

Primary Varicella Zoster Virus (VZV) Infection

Answer 32

= Varicella, or Chicken pox

Question 33

Clinical Pattern of Primary VZV infection (Chickenpox/Varicella)

Answer 33

1. Fever, malaise, headache, +/- cough
2. Rash develops, in successive waves
   - Typically lasts 7 days
   - No longer contagious when lesions all crusted over

Question 34

Primary VZV Infection (Chickenpox / Varicella) Rash

Answer 34

• itchy
• vesicular
• “dew drop on rose petal” = clear fluid + red base
• Usually starts on trunk & spreads to face & limbs
• Lesions appear in successive waves, so lesions will be in various stages on physical exam

Question 35

Pathogenesis of Primary VZV Infection (Chickenpox / Varicella)

Answer 35

1. Virus gains entry via respiratory tract
2. Spreads to regional lymphoid system & replicates over next 2-4 days
3. Causes primary viremia (~4-6 days after incoc.)
4. Replicates in liver, spleen & other organs causing secondary viremia.
5. Secondary viremia spreads viral particles to skin 14-16 days after initial exposure & causes typical vesicular rash.

Question 36

Primary VZV Infection - Age, Spread, Incubation, Prevention

Answer 36

• common childhood disease
• highly contagious
• incubation of 10-21 days
• preventable by vaccination (introduced in 1995)

Question 37

Varicella Treatment

Answer 37

• Typically self-limited & requires no treatment
• Treatment accelerates resolution of chickenpox & decreases symptoms
• Immunocompromised patients should always receive treatment

Question 38

Varicella Prevention/Prophylaxis

Answer 38

Varicella vaccine: is a live-attenuated vaccine

• Beware in immunocompromised hosts
• 2-dose series at 12-15 mo & 4-6 yo
• Can be used post-exposure in certain situations

Varicella-zoster immune globulin (Varizig)
- for reducing severity of varicella in high-risk individuals if given w/in 4 days of exposure
= pooled Abs from ppl w/ high VZV Ab titers

Question 39

Pathogenesis of Latency and Reactivation of VZV

Answer 39

• Latent in cranial, dorsal root and/or trigeminal ganglia
  = Only herpes virus w/out asymptomatic viral shedding in normal hosts
• Reactivation is ALWAYS SYMPTOMATIC
• Reactivates in ganglion & tracks down sensory nerve to skin innervated by the nerve
• Causes dermatomal rash that is pathognomonic for Zoster

Question 40

Zoster (Shingles) Infection = Reactivation of Primary VZV

Answer 40

• in up to 30% of population
• 1st symptom is pain at site where vesicles will erupt in a few days.

Lesions

• develop in single dermatome.
• itchy, but main symptom is pain
• usually crust over within 2 weeks

Question 41

Complications of Zoster (Shingles):

Answer 41

• Similar to Varicella
• Secondary skin infections
• VZV ophthalmicus
• Encephalitis
• CNS vasculitis
• Myelitis (spinal cord inflammation)
• Cranial-nerve palsies: Ramsay-Hunt syndrome, Bell’s palsy
• Peripheral nerve palsies
• Post-herpetic neuralgia (PHN): can be very debilitating & last weeks to months after lesions resolve

Question 42

Immune response to VZV reactivation

Answer 42

• Cell-mediated immunity is crucial to maintaining latency & preventing reactivation of VZV
• Cell-mediated immunity decreases w/ age & is often affected by immunosuppression and HIV

Question 43

Complications of Varicella (Primary VZV)

Answer 43

Secondary infection:

• Group A Strep
• Necrotizing fasciitis
• Pneumonia (bacterial or viral)
• Encephalitis or encephalomyelitis
• Hepatitis
• Congenital varicella (TORCH infection, severe)

Adolescents & adults have more severe disease

Pregnant / immunocompromised ppl have higher morbidity / mortality from primary VZV

Question 44

Zoster treatment

Answer 44

Acyclovir

• decreases number & duration of lesions
• decreases pain

PAIN
= often worst part of shingles
- can be treated w/ NSAIDS & opiates, occasionally with steroids

Question 45

Zoster Prevention/Prophylaxis:

Answer 45

• Live-attenuated vaccine, Zostavax (ZOS)
• One dose age 60+ recommended by ACIP
• Boosts immune response to VZV, thereby preventing reactivation
• Can also use acyclovir for people w/recurrent shingles (usually the immunocompromised)

Question 46

Epstein Barr Virus - Primary Infection

Answer 46

• very common (almost all ppl infected by age 40)
• primary infections often occur in early childhood
• either asymptomatic or are a mild febrile illness
• incubation period is 4-6 weeks
• Transmission via saliva: kissing, sharing utensils/food/drink

Question 47

Infectious mononucleosis

Answer 47

= clinical syndrome that occurs when older child, adolescent or adult gets primary EBV infection (or less commonly CMV)
= in ~40-50% of primary infections in this age group
= “kissing disease”

Symptoms include:

• fever
• sore throat
• swollen lymph nodes
• fatigue

Physical exam:

• Exudative tonsillitis
• Enlarged cervical nodes
• Splenomegaly, occasionally hepatomegaly

Symptoms usually resolve in 4-8 weeks

Question 48

Pathogenesis of EBV infection

Answer 48

1. Infects nasopharyngeal epithelium
2. Results in cell lysis & viral spread to adjacent structures (salivary glands, oropharyngeal lymphoid tissue, etc.)
3. Viremia occurs w/ distribution to liver, spleen, & infection of B lymphocytes
4. Remains dormant/latent in nasopharyngeal epithelium & B cells
5. Periodically, can reactivate (normally asymptomatic) & is commonly found intermittently in saliva of infected persons

Question 49

Diagnosis of EBV (Infectious Mono)

Answer 49

• Often clinical diagnosis
• Atypical lymphocytes on peripheral blood smear & often are >10% on the differential
• Monospot/heterophile tests
• If definitive Dx needed, can do EBV serology

Question 50

Monospot/heterophile tests for EBC/Infectious mononucleosis

Answer 50

• Detects presence of Abs that agglutinate horse / sheep / cattle RBCs
• After acute infection w/EBV, 75-90% of pts develop Abs that cross-react & agglutinate RBCs
• Heterophile Abs highest during 1st four weeks of infection

Question 51

EBV serology

Answer 51

• used if definitive Dx of EBV is needed
• measures development of Abs to EBV antigens: EBNA and VCA (viral capsid antigen)

IgM response to VCA indicates recent infection:

• appears early in infection & disappears in 4-6 wks
• seen by the time symptoms appear

IgG response to VCA indicates prior infection:
- appears at 2-4 weeks after symptoms begin & persists for life

EBNA (IgG) indicates past infection:

• infection at least a few months back
• NEVER positive in an acute infection

Question 52

EBV Prevention/Prophylaxis

Answer 52

• NO vaccine available

- Prevention of primary infection through preventing contact w/ infectious saliva

Question 53

Cancers associated with EBV

Answer 53

• Not part of a primary infection, but occur later

Burkitt’s Lymphoma:

• endemic in Africa & sporadic elsewhere
• B cell tumor often affecting the jaw

Hodgkin’s lymphoma

Nasopharyngeal carcinoma: esp. in Chinese

Lymphoproliferative disease:
- in immunocompromised patients
<– uncontrolled proliferation of EBV-infected B cells

Question 54

EBV Treatment

Answer 54

In normal hosts
- treated supportively (fluids, antipyretics)

Steroids

• for pts w/impending tonsillar enlargement threatening to occlude airway
• for pts w/ severe hepatitis

In immunocompromised hosts

• very difficult to treat
• mainstay is restoring immune function (reducing immunosuppression) if possible

Question 55

Cytomegalovirus (CMV) Transmission

Answer 55

Transmission through contact w/ infected body fluids

• Saliva, milk, sexual contact, blood, tears, urine
• Blood transfusions & organ transplantation

Infected pregnant women can pass the virus to their unborn babies (in utero or perinatally)

Question 56

Zoster/Shingles diagnosis

Answer 56

• Usually diagnosed clinically

- can use Direct IFA, PCR, or culture

Question 57

Pathogenesis of CMV:

Answer 57

1. Infects epithelial cells of salivary gland or genital tract
2. Persistent infection & intermittent viral shedding
   * All cells where CMV becomes latent UNKNOWN
3. Likely viremia causing wide distribution of virus to other organs & tissues
   * Infection of GU system leads to shedding in urine

Question 58

Primary Infection with CMV in normal, healthy people

Answer 58

In most healthy persons acquiring CMV after birth:

• Almost always asymptomatic
• Sometime mild febrile illness
• Sometimes mono-like syndrome (similar to EBV) w/ fever, swollen lymph nodes, & mild hepatitis
• no longterm consequences

Incubation period 2 weeks to 2 months

Question 59

Primary Infection with CMV in Immunocompromised

Answer 59

• serious & can infect most organs
• severity parallels degree of impairment of cell-mediated immunity
• severe disease most common in pts with organ / marrow transplants or HIV (w/very low CD4 counts)
• -> CMV pneumonia, colitis, retinitis, hepatitis, encephalitis
• -> CMV retinitis & colitis in HIV patients

Question 60

Pregnancy & CMV

Answer 60

• Most common in utero infection in US
• When pregnant woman develops primary CMV infection, 3-5% chance that child will be born w/ congenital CMV infection.
• Infection of fetus can also occur if pregnant women reactivates CMV, but much lower risk (<1% infected & even fewer symptomatic)

Question 61

Congenital CMV Syndrome

Answer 61

• Most congenitally infected infants asymptomatic
• Only 10-15% have symptoms at birth (this is 3-5% of infants born to mothers w/ primary infections)

Syndrome:

• Low birth weight
• Microcephaly
• Hearing loss
• Mental impairment
• Hepatosplenomegaly & Jaundice
• Skin rash (blueberry muffin spots)
• Chorioretinitis

Question 62

Latency and Reactivation of CMV:

Answer 62

• Latent in monocytes & lymphocytes

- May reactivate from time to time, during which infectious virions appear in urine & saliva

Question 63

Reactivation of CMV in Pregnant Women

Answer 63

• can lead to vertical transmission (mom to fetus)

- more common in mothers w/ primary infection

Question 64

Epidemiology of CMV Infection

Answer 64

• In developed countries w/ high standard of hygiene, 50-80% of entire population is infected by 40 yo
• In developing countries, over 90% are infected

Question 65

Reactivation of CMV in immunocompromised individuals

Answer 65

• may produce serious disease w/ high morbidity & mortality

Disease can be…

• non-focal viral syndrome
• organ-specific infection (ex:hepatitis, pneumonitis)

Question 66

Diagnosis of CMV infection

Answer 66

• Serology (CMV IgM & IgG)
• Viral culture (easy to grow, takes several days)
• PCR
• Direct fluorescence test
• Tissue histology

Question 67

Reactivation of CMV in persons with normal immune systems

Answer 67

• asymptomatic

- BUT virus is being shed in bodily secretions

Question 68

Tissue histology in CMV infection

Answer 68

“Owl’s Eye” appearance of infected cells
= densely staining body surrounded by a halo
- due to intranuclear inclusion bodies (viral proteins or particles)

Intracytoplasmic inclusions (multiple smaller inclusions) are also seen in CMV infection

Question 69

Treatment of CMV in Immunocompetent hosts

Answer 69

No treatment indicated

Question 70

Treatment of CMV in Pregnant woman

Answer 70

• Some protection offered by immunoglobulin preparation w/ high titer of CMV Abs (CMV-IG)

Question 71

Treatment of CMV in Infants w/ Congenital CMV

Answer 71

• Gancyclovir in infants w/congenital CMV is currently being studied
• NEW standard of practice will likely be treatment of symptomatic congenital CMV infection for first 6 mos of life w/ oral valganciclovir

Question 72

Prevention of CMV

Answer 72

• NO vaccines available

In Immunocompromised pts at very high risk for severe CMV disease:

• IV CMV-IG once a month as prophylaxis
• Ganciclovir or valganciclovir as prophylaxis in some circumstances (ex: post-transplant)

Question 73

Respiratory Syncytial Virus (RSV) – Family & Structure

Answer 73

• Paramyxoviridae family
• Enveloped
• ssRNA genome
• 2 important surface proteins: G-protein & F-protein

Question 74

2 Important Surface Proteins in RSV

Answer 74

G-protein - for viral attachment to host cells

F-protein (Fusion protein)
- fusion of infected cells to neighboring cells to form syncytia (multinucleated giant cells)

Question 75

Primary Infection w/ RSV (w/ ages)

Answer 75

• Usually Symptomatic
• lasts 7-21 days
• Acute respiratory disease in patients of all ages
• Bronchiolitis: children <1 yr of age
• Viral pneumonia: young children & elderly
• Upper respiratory tract infection: children & adults

Question 76

Transmission of RSV & Incubation period

Answer 76

• By contact w/ droplets (respiratory secretions) on fomites, with subsequent contact w/eye, nose, or mouth
• By aerosol droplets also possible
• Incubation period is 5 days

Question 77

Clinical patterns of RSV in premature infants & young children

Answer 77

Most frequent cause of bronchiolitis & viral pneumonia

Almost all children infected at least once by 2yo
Symptoms include:
- fever
- runny nose
- cough
- wheezing w/ involvement of lower respiratory tract

Question 78

Clinical patterns of RSV infection (seasonality, hospitalizations)

Answer 78

• Seasonal illness, peaking in Winter

- Up to 125,000 hospitalizations annually

Question 79

Reinfection w/ RSV

Answer 79

• In adults and older children
• Rarely Asymptomatic
• Generally resembles severe cold
• Usually confined to upper respiratory tract

Question 80

Bronchiolitis w/ RSV

Answer 80

1. URI w/ congestion, sore throat, fever
2. Cough deepens & becomes more prominent
3. Lower respiratory tract involvement develops w/
   - increased respiratory rate
   - intercostal muscle retraction
   - wheezing

Wheezing in child <2 yr of age is most likely bronchiolitis

Question 81

Pathogenesis of RSV infection

Answer 81

1. Entry through mucosa of eye & nose
2. Infects respiratory tract locally
3. Cell-to-cell transfer of virus leads to spread from upper to lower respiratory tract
4. Syncytia formed through fusion of adjacent cell membranes

Question 82

Pathogenesis of Bronchiolitis in RSV infections

Answer 82

Bronchiolitis results from:

• Mucosal edema
• Cell necrosis & sloughing
• Increased mucous secretion & plugging of bronchiolar lumina w/ epithelial debris & mucous

Airway hyper-reactivity & bronchoconstriction also occur as a result of inflammation –> wheezing

Question 83

High-risk patients for RSV infections

Answer 83

Infants at high risk for severe RSV bronchiolitis

• Premature infants (< 32 weeks gestation)
• Pts w/ Chronic lung disease
• Pts w/Complicated congenital heart disease

Adults & older children at high risk for severe RSV disease are those w/significant immunosuppression (bone marrow or solid organ transplant)

Question 84

High risk infants vs. Non-high risk infants with RSV infection

Answer 84

High risk (premature) infants:

• 8-10 x higher hospitalization rates
• Higher need for ICU care & mechanical ventilation
• 2-6 x higher Mortality rates

Question 85

Treatment of CMV in Immunocompromised hosts:

Answer 85

• Treat with gancyclovir or valganciclovir

- Choice of med & duration of treatment depends on the disease

Question 86

Treatment of RSV

Answer 86

-Mostly supportive

Can use inhaled bronchodilators (albuterol)

Ribavirin = only antiviral available for Tx of RSV

• Currently limited use (only in dire circumstances – bone marrow transplant, complicated congenital heart disease, etc.)
• Controversial efficacy / safety
• Modest effects in studies
• Given as an aerosol
• VERY Expensive

Question 87

RSV Prevention

Answer 87

• Humoral immunity (antibodies)
• NO licensed vaccine available
• Primary prevention via avoiding infected secretions

Question 88

Humoral immunity (antibodies) in Prevention of RSV infection

Answer 88

Infants w/ high levels of maternal Abs to RSV are less likely to be infected

RSV F-protein mAb prep

• can be given IM to high risk infants
• -> ~50% reduction in hospitalizations due to RSV
• Administered monthly during RSV season
• Very expensive

Question 89

Rotavirus (Family, Structure, etc.)

Answer 89

Reoviridae family

Double stranded RNA virus w/ segmented genome
–> Allows for reassortment & genetic diversity

Several serotypes (strains) of rotavirus
- 5 strains responsible for >90% of rotavirus disease in the U.S.

Question 90

Diagnosis of RSV:

Answer 90

• usually clinical
• Viral culture
• Serology
• Direct fluorescent antibody

Question 91

Transmission of Rotovirus

Answer 91

• Fecal oral transmission most common
• Kids excrete 100 billion rotavirus particles per mL of feces
• Infectious dose is 10-100 virus particles
• 43% of rotavirus virions survive on human fingers for 60 minutes
• Rotavirus in feces may survive for days to weeks on environmental surfaces

Question 92

Pathogenesis of Rotavirus & Recovery

Answer 92

1. Infects mature absorptive epithelial cells or enterocytes (at tips of villi) in proximal 2/3 of ileum
2. Cell death leads to:
   - Reduced absorptive surface area of sm. intestine
   - Loss of enzymes that break down complex sugars
   - Increased fluid & osmotic load –> diarrhea

Regeneration of villi takes 7-10 days (recovery period)

Question 93

Natural Immunity to Rotovirus

Answer 93

• 1st infections –> severe gastroenteritis
• Subsequent infections –> milder or asymptomatic
• Protective immunity develops after each infection which protects against symptomatic disease

Question 94

Epidemiology of Rotovirus infection

Answer 94

• Leading single cause of severe diarrhea and/or gastroenteritis in infants & young children
• Prior to vaccine, nearly every child had been infected at least once w/ rotavirus by age 5

Question 95

Rotovirus Treatment

Answer 95

• No antivirals available
• Supportive management
  = Attention to fluids (Pedialyte, 50/50 Gatorade / water, IV fluids for severe dehydration)

Question 96

Rotovirus Prevention/Prophylaxis

Answer 96

2 oral, live-attenuated rotavirus vaccines licensed for use in infants:

• RotaRix (2 doses): monovalent human
• RotaTeq (3 doses): pentavalent human-bovine reassortment

Both vaccines roughly equivalent in safety & efficacy

Both highly protective in prevention of moderate & severe rotavirus disease
- ~90% reduction in all types of health care visits

Question 97

Diagnosis of rotavirus

Answer 97

ELISA on stool samples