Viral+Infections_IT3_Spring_2023+-+Copy.pdf

Transcript

Management & Treatment of
Non-HIV Viral Infections

Integrated Therapeutics 3
Infectious Diseases Pharmacotherapy

Monika N. Daftary, PharmD, BCPS, AAHIVP
Professor
 Objectives
Identify the major types of viral infections – HSV,
VZV, CMV, Influenza and others.

Identify and describe the pathophysiology and
pharmacotherapy of viral infections

Specifically name the appropriate
pharmacological, non-pharmacological and OTC
products (where applicable) used to
treat/prevent/suppress viral infections
 Objectives
Name MOA, brand/generic and dosing for
antiviral agents

Be able to discuss and name uses of
these agents in special populations

Be able to discuss emerging viral
infections: Hantavirus, West Nile Virus,
SARS, COVID-19 and MPox
 Epidemiology
Common

Self-limiting to fatal

Many viral diseases have no vaccines

Progress with chemotherapy and
diagnosis
 Viral Infections

Common
HSV-1, HSV-2, VZV and CMV
Following acute infection, these types of
viruses share a common feature of latency
and reactivation leading to recurrent
disease
Epidemiology, pathogenesis and clinical
features vary
 Herpes Simplex Infections

DNA virus that infects humans
Two types of herpes:
-HSV-1 non-genital herpetic infections
-HSV-2 genital infections
Previous infection with one type of HSV
does not provide immunity for the other
Genital herpes is a chronic, lifelong viral
infection
 Herpes Simplex Infections
Background
HSV-2 is transmitted sexually and perinatally

Majority of genital herpes infections are
transmitted by persons who are
– unaware they are infected with HSV-2 or
– asymptomatic when transmission occurs

Efficiency of sexual transmission is greater
from men to women than from women to men
 Herpes Simplex Infections
Background
Likelihood of transmission declines with
increased duration of infection

Incubation period after acquisition is 2-
12 days (average is 4 days)

Drying and soap and water readily
inactivate HSV; fomite transmission
unlikely
 Herpes Simplex Infections

The virus remains latent indefinitely
Reactivation is precipitated by multiple known
and unknown factors and induces viral
replication
The re-activated virus may cause a
cutaneous outbreak of herpetic lesions or
subclinical viral shedding
Up to 90% of persons seropositive for HSV-2
antibody have not been diagnosed with
genital herpes
 Herpes Simplex Infections

First Clinical Episode
Primary infection
– First infection ever with either HSV-1 or
HSV-2
– No antibody present when symptoms
appear
– Disease is more severe than recurrent
disease
 Herpes Simplex Infections

Recurrent symptomatic infection
Antibody present when symptoms
appear
Disease usually mild and short in
duration
Asymptomatic infection
Serum antibody is present
No known history of clinical outbreaks
 Herpes Simplex Infections
Primary
Characterized by multiple lesions that are more
severe, last longer, and have higher titers of virus
than recurrent infections
Typical lesion progression:
– papules → vesicles → pustules → ulcers →
crusts → healed
Often associated with systemic symptoms
including fever, headache, malaise, and myalgia
Illness lasts 2-4 weeks
 Herpes Simplex Infections
Secondary
Numerous, bilateral painful genital lesions;
last an average of 11-12 days
Local symptoms include pain, itching,
dysuria, vaginal or urethral discharge, and
tender inguinal adenopathy
Median duration of viral shedding detected by
culture (from the onset of lesions to the last
positive culture) is ~12 days
 Herpes Simplex Infections

After the primary infection, HSV
appears to remain latent in the sensory
ganglia

Trigger factors

Primary infections preceded with 1-2
days of local tenderness
 Herpes Simplex Infections
Any disorder of T-cell immunity typically
associated with severe HSV infections

Watch in organ transplantation/AIDS – confusing
presentation – can disseminate

Diagnosis: skin biopsy, cytologic smear, viral
culture, PCR techniques

Adequate analgesia very important – both
systemic and topical
 Herpes Simplex Infections
Most HSV-2 is transmitted during asymptomatic
shedding
Rates of asymptomatic shedding greater in
HSV-2 than HSV-1
Rates of asymptomatic shedding are highest in
new infections (10 episodes/yr.
 Herpes Treatment
Infections in HIV+ patients

Acyclovir 400 mg po tid x 5-10 days
OR
Acyclovir 200 mg po 5x/day x 5-10 days
OR
Famciclovir 500 mg po bid x 5-10 days
OR
Valacyclovir 1 g po bid x 5-10 days
 Herpes Treatment
Daily suppressive therapy in HIV+ patients
Acyclovir 400-800 mg po bid-tid
OR
Famciclovir 500 mg po bid
OR
Valacyclovir 500 mg po bid
 Herpes Treatment
If resistance suspected:
Foscarnet 40 mg/kg IV q8h until clinical
resolution
OR
Topical Cidofovir 1% gel applied to lesions
qd x 5 days
All acyclovir-resistant strains are resistant
to valacyclovir and most are resistant to
famciclovir.
 Herpes Encephalitis
Both HSV 1 and 2 are associated with CNS
infections
HSV-1 in adults and HSV-2 in newborns
Cultures are only for HSV-2 (CSF)
PCRs more useful
Mortality between 50 – 85%, early dx key
Empirical treatment needed
DOC: Acyclovir 5-10mg/kg Q8 hours 2-3 weeks
Resistance noted!! DOC?
Foscarnet 40mg/kg Q8-12 hrs for 2-3 weeks
 Neonatal Herpes
Neonates exposed during pregnancy
Associated with mortality and morbidity
Treatment
 Herpes Treatment
Neonatal herpes
Acyclovir 20 – 60 mg/kg IV q8h
x 21 days for disseminated/CNS infection
x 14 days for infection limited to
skin/mucous membrane
Some experts recommend acyclovir for
infants born to mothers who acquired HSV
near term.
 Oral-Facial Herpes
Herpes labialis (cold sores)
Treatment depends on immune status
PO vs. topical treatment
 Oral-Facial Herpes
Drug Dose

Docosanol (Abreva) Apply 5 times a day, continue until
healed
Acyclovir Topical (Zovirax) Apply 5 times a day for 4 days

Acyclovir Buccal Tablet (Sitavig) Apply 50mg tablet as single dose to
the upper gum region
Penciclovir Topical (Denavir) Apply every 2 hours for 4 days
 Herpes Keratitis
Infection of the eye
Any age group (contrary to belief)
Most frequent cause of corneal blindness in the
United States
Is a leading indication for corneal transplantation
Treatment:
-Trifluridine***
-Idoxuridine
-Vidarabine
 Varicella-Zoster Infections

Varicella (chicken pox) the primary
manifestation of VZV infection, usually in
childhood
Herpes Zoster (shingles) is the secondary
form of VZV
Risk increases with age
 Chicken Pox

Common childhood infection
Decreased incidence secondary to
vaccine availability
Highly contagious
Infectious from 2 days before before
onset until all vesicles crust
Certain patients can benefit from tx, esp
if extracutaneous manifestations
 Chicken Pox

The typical case of chickenpox begins
10 to 14 days after exposure and is
often associated with fever.
The rash is very itchy: there may be 10
to 1500 blisters but the usual child will
have about 300 lesions.
One of the most common complications
of chickenpox is that the blister can
become infected with bacteria;
 Chicken Pox

Supportive care
Cool baths
Calamine/Topical antipruritic
No aspirin
 Varivax

Indicated for vaccination against in
individuals 12 months of age and older
Children 12 months to 12 years of age
should receive a 0.5-mL dose
administered subcutaneously
If a second 0.5-mL dose is administered,
it should be given a minimum of 3 months
later**
 Herpes-Zoster Infections
Varicella Zoster Virus (VZV)
Results from reactivation of latent virus
in dorsal root or cranial nerve ganglion
cells
No seasonal pattern
2/3 of patients > 40 years old
Lesions preceded by a mild preeruptive
itch, tenderness or pain for several days
- erupt and are gone within 2-4 weeks
Herpes-Zoster Infections
 Herpes-Zoster Infections

Presentation: erythematous macules, papules
and plaques seen first and grouped vesicles
appear within 24 hours
Post-herpetic neuralgia (PHN) a problem
Treatment: acyclovir, famciclovir,
valacyclovir
Acyclovir proven effective in both localized
and disseminated VZV – decreases pain and
time of healing
Role of corticosteroids - controversial
 Herpes-Zoster Infections
Drug Dose

Acyclovir (Zovirax) 800mg po 5 times a day for 7 – 10 days

Famciclovir (Famvir) 500mg po TID for 7 days

Valacyclovir (Valtrex) 1 gram po TID for 7 days
 Herpes-Zoster Infections

PHN that lasts >30 days after the onset
of rash
Most common manifestation
FDA-approved tx for PHN:
-Topical capsaicin
-Topical lidocaine patches 5%
-Gabapentin
-Pregabalin
Other agents…..?
 Herpes-Zoster Infections
As of November 18, 2020 there is one
licensed vaccine and recommended to
prevent shingles in the U.S.
Zoster vaccine live (ZVL, Zostavax) has
been in use since 2006 (off market)
Recombinant zoster vaccine (RZV,
Shingrix), has been in use since 2017 and
is recommended by ACIP as the preferred
shingles vaccine.
Herpes-Zoster Infections
 Herpes-Zoster Infections

Exposure - Varizig®
Use to decrease the incidence or
severity of disease in patients without
evidence of immunity to varicella zoster
who have been exposed to the virus
and who are at high risk for severe
disease and complications.
 Resistance
Does not have activity against viral
pathogens until it is converted to the active
form acyclovir triphosphate
Mainly in immunocompromised patients
Confers resistance to both valacyclovir
and famciclovir
May respond to foscarnet or cidofovir
 Cytomegalovirus Infections

53% of Americans between 18-25 age
CMV+
81% of Americans >35 are CMV+
>95% of MSM CMV+
90% of infections asymptomatic
Virus remains latent in host until
immunosuppression
 Cytomegalovirus Infections

Acquired by a variety of routes –
congenital, sexual and person-to-person
CMV is also transmitted via
contaminated blood products/organ
transplants
In the US – acquired/latent 90% of MSM
and >70% in IVDA
CMV end-organ disease – one of the
most common OIs in patients with AIDS
 Cytomegalovirus Infections
CMV can infected virtually any organ
system – but in AIDS patients most
common manifestation – chorioretinitis
Left untreated, can cause blindness
GI infections (esophagitis & colitis) also
occur
In transplant pts, CMV pneumonia
CNS infections – severe M & M
 Cytomegalovirus Infections
Diagnosis – in the retinitis based on
lesions that appear as patches of fluffy
white retinal infiltrate with areas of
hemorrhage
Manifest as floaters, flashes of light,
blind spot
Peripheral disease mostly
asymptomatic
Various fluids, tissues, histologic exam
 Cytomegalovirus Infections
Serology
-Detects exposure
Isolation
-Tissue culture…6 weeks
-Shell vial technique…16 hours
Cytology
-Large cell’s (owl’s eye)
 Cytomegalovirus Infections

Manifestations:
-GI: Colitis, Esophagitis/Gastritis,
Hepatitis
-Pneumonia
-Retinitis
 Cytomegalovirus Infections
Treatment Agents:
Ganciclovir
Valganciclovir
Foscarnet
Cidofovir
Letermovir**(Prevymis)
**(narrow indication – approved 11/2017)
Maribavir (Livtencity)
 Cytomegalovirus Infections
Ganciclovir (Cytovene IV, Zirgan)
Valganciclovir (Valcyte)
MOA: Inhibits viral DNA synthesis
Must be triphosphorylated – rate-limiting
step
Valganciclovir is rapidly converted to
ganciclovir in the intestinal wall and liver (F
= 60%)
 Cytomegalovirus Infections
AE:
Moderate to severe neutropenia
Thrombocytopenia
Confusion, convulsions
N/V/D
Abnormal LFTs
Reproductive toxicity
 Cytomegalovirus Infections
Dose:
Induction- Valcyte 900mg BID x 14-21
days or Cytovene 5mg/kg IV Q12hrs for
14-21 days
Maintenance –Valcyte 900mg daily or
Cytovene 5mg/kg IV daily
Relapse w/o maintenance
IV maintenance means CVC
Renal adjustment
 Cytomegalovirus Infections
Dose:
Intraocular implant (ganciclovir) – releases
1 mcg/hr (replace after 6 – 8 months) plus
Valcyte 900mg Qdaily
Local therapy cannot be done alone
increases incidence of AE, contralateral
CMV retinitis
 Cytomegalovirus Infections
Foscarnet
Inhibits viral-induced DNA polymerase
Foscarnet should be reserved
 Cytomegalovirus Infections
Foscarnet
AE
Renal Impairment - **prevent by admin 2.5
L per day of NS
Dec H & H
Altered serum electrolytes (Ca, Phos, Mg)
Penile ulcerations
 Cytomegalovirus Infections
Foscarnet
Prep/Dose
Commercial Prep: 500 ml – 24 mg/ml
(central), but use 12 mg/ml for peripheral
admin
1 gram of Foscarnet has 600mg NaCL
 Cytomegalovirus Infections
Foscarnet
Dose
Induction: 60mg/kg Q8hrs or 90mg/kg
Q12hours for 14-21 days (admin 1 hr)
Maintenance: 90 – 120mg/kg/day (admin 2
hours)
Dec dose by 3.5mg/kg for each 0.1
ml/min/kg of CrCl below 1.6 ml/min/kg
Need CVC
 Cytomegalovirus Infections
Cidofovir (Vistide)
Inhibits viral DNA polymerase
Intracellular activation needed
AE: renal impairment (issues with proteinuria,
inc Scr); neutropenia, carcinogenic, teratogenic
**sulfa allergy**
-Dec effects with use of Probenecid (2 g, 3 hours
before infusion, 1g, 2 and 8 hours after infusion)
and saline hydration
 Cytomegalovirus Infections
Cidofovir (Vistide)
Dose
Induction: 5mg/kg/week x 2 weeks
Maintenance: 5mg/kg every other week
Hazardous
 Cytomegalovirus Infections
Prophylaxis:
Secondary prophylaxis is required for all
patients
May be d’ced if CD4 >100 for 3-6 months
Restart secondary prophylaxis if CD4 falls
Primary prophylaxis not recommended
 Cytomegalovirus Infections
Prevymis™ (letermovir) for Prevention of
Cytomegalovirus (CMV) Infection and Disease in Adult
Allogeneic Stem Cell Transplant Patients
Approved November 2017
IV and oral
Class of non-nucleoside CMV inhibitors (3,4 dihydro-
quinazolines)
MOA: inhibits viral replication by specifically targeting the
viral terminase complex
Drug interaction issues
 Influenza
Epidemic nature with significant mortality
Epidemics begin abruptly, peak and then
resolve
Occur almost always in the winter months
(Dec to April)
Overall rates 10-20%
Mortality greatest in those >65 (esp with
heart and lung disease)
 Influenza vs Common Cold
S/Sx Influenza Cold
Onset Sudden Gradual
Fever Characteristic Rare
Cough Dry Hacking
Headache Prominent Rare
Tiredness Yes Very mild
Chest Discomfort Common Mild
Stuffy nose Sometimes Common
Sneezing Sometimes Usual

Sore throat Sometimes Common

Myalgias Usual Slight
 Influenza
Acute infection
Virus from the Orthomyxoviridae family
Types A and B
Transmission by inhalation
Incubation 2 days (on average)
 Influenza
Type A
Grouped by variations in hemagglutinin
and neuraminidase (eg, H1N1, H1N2)
Changes through antigenic drift or shift
Pandemic can occur with one shift
Causes epidemics every 1-3 years
 Influenza
Type B
Carries one type of hemagglutinin and one
form of neuraminidase
Changes occur from drifts (mutations),
need a bunch of them to cause an
epidemic
Causes epidemics every 5 years
 Influenza
Amantadine,Rimantadine - Prevention
Prevents 50% of infections and 70-90% of
illnesses
Dosing: short-term; prophylaxis during
presumed outbreak of influenza A in pts
who did not receive vaccine
NEITHER ONE IS USED BASED ON
CURRENT GUIDELINES!!
 Influenza
Amantadine,Rimantadine
Inhibits viral uncoating and release of viral
nucleic acid by inhibiting M2 gene
Only effective against Influenza A virus
Decreases duration of s/sx by one day
AE: Dry mouth, N/V, loss of appetite,
insomnia, impaired concentration
Caution: Use with caution in patients with
seizures
 Influenza
Dosing - Treatment
100mg po BID
Elderly should not receive higher doses
Adjust for renal disease (CrCl 5 yo)
AE: HA, throat pain, cough
Warning: Neuropsychiatric events, bronchospasm (do not
use in asthma or COPD)

www.fda.gov
 Influenza
Neuraminidase Inhibitors (sx disappear 1- 1.5 days sooner)
Prophylaxis vs. Treatment
Peramivir (Rapivab)
Dosing: 600mg IV once,
CrCl 12 years)
Baloxavir Marboxil (Xofluza)
Dosing: 40kg - 80kg: 80mg po x 1 dose within 48 hours of onset
Use with caution in renal or hepatic impairment
AE: diarrhea
Other caution: Avoid administration with dairy products,
calcium, antacids or supplements with polyvalent cations
Store in original packaging
 Influenza
Prevention
- chemoprophylaxis can be done for influenza-
related complications in high-risk patients
- only Neuraminidase Inhibitors (Tamiflu and
Relenza)
Influenza
 Influenza
Vaccine (Influenza)
Each year’s vaccine contains 2 strains of
type A and 1 one strain of type B (at least)
Prevents illness in 70-90% of healthy
persons 50, nursing home
residents, adults/children with chronic issues
[pulmonary/cardiac], DM, Renal, HIV,
asthma, anemia, etc.
-Transmit issues, healthcare workers,
homecare or household with high-risk pts
Intranasal live-attenuated (FluMist)
-2-49 w/o underlying disease
 Influenza Vaccine Composition for the
2022–23 Season
There are many different flu viruses, and they are constantly changing. The composition of
U.S. flu vaccines is reviewed annually and updated as needed. The recommendations for
the 2022-2023 season include two updates compared with the recommended composition
of last season’s U.S. flu vaccines. Both the influenza A(H3N2) and the influenza B(Victoria
lineage) vaccine virus components were updated.

The recommendations for egg-based and cell-based and recombinant flu vaccines are
listed below:
-Egg-based vaccine composition recommendations:

an A/Victoria/2570/2019 (H1N1) pdm09-like virus;
an A/Darwin/9/2021 (H3N2)-like virus (updated);
a B/Austria/1359417/2021-like virus (B/Victoria lineage) (updated)
a B/Phuket/3073/2013-like virus (B/Yamagata lineage)

- Cell- or recombinant-based vaccine composition recommendations:

an A/Wisconsin/588/2019 (H1N1) pdm09-like virus;
an A/Darwin/6/2021 (H3N2)-like virus (updated);
a B/Austria/1359417/2021-like virus (B/Victoria lineage) (updated);
a B/Phuket/3073/2013-like virus (B/Yamagata lineage).
 Outbreak of Hantavirus Infection in
Yosemite National Park

As of September 13, 2012 the National
Park Service (NPS) had announced a total
of 9 confirmed cases of hantavirus
infection in people who recently visited
Yosemite National Park.
 Hantavirus Infections
Rodents are primary hosts
Transmission
4 Serotypes:
-ARDS/bilateral pulmonary infiltrates
-Autopsy of noncardiogenic pulm edema
-Hantavirus antigen in tissue
-+Hantavirus RNA
 Hantavirus Infections
Manifests as:
-Hemorrhagic fever with renal syndrome
-Nephopathia Epidemica
-Hantavirus Pulmonary Syndrome (HPS)**
Southwestern US
Sx: F/myalgia/HA/cough, fast progress to
ARDS
 Hantavirus Infections
Tx is supportive
No FDA-approved drugs
IV ribavirin in trials
No approved protocols:
Treatment: Load 30 mg/kg IV (up to 2 g), THEN 16
mg/kg IV (up to 1 g) q6hr x4 d, THEN 8 mg/kg IV (up to
500 mg) q8hr x6 d
IV form available from CDC on compassionate basis
Prophylaxis: 500-600 mg PO q6hr x7-10 d
Orphan indication sponsor
Valeant Pharmaceuticals International; 3300 Hyland
Avenue; Costa Mesa, CA 92626
 West Nile Virus
Rapidly grown in US due to migratory and
weather patterns
Flaviviridae family
Vector: mosquito
**requires mosquito bite
Summer/early fall
Ranges from asymptomatic disease to
fever to encephalitis
 West Nile Virus
Low mortality, except in encephalitis
CDC Classification
S/Sx
Treatment
-Supportive
-**current antivirals not effective, dose-
limiting toxicities
 West Nile Virus
Serious Symptoms in a Few People.
Milder Symptoms in Some People.
No Symptoms in Most People.
Transmission
Infected Mosquitoes
Transfusions, Transplants, and Mother-to-
Child
Not through touching

 West Nile Virus
There is no specific treatment for WNV
infection.
Mild cases: self-limiting
Severe cases: supportive treatment
 West Nile Virus
Prevention
DEET (OFF!, Cutter, etc)
-DEET 30% can last about six hours.
-DEET 10% can last two to three hours.
-A product with up to 30% DEET is safe for kids two
months and older.
- chemical name N,N-diethyl-m-toluamide or N,N-
diethyl-3-methyl-benzamide.
Picaridin (Cutter Advanced, Natrapel, etc)
Oil of lemon eucalyptus (Citrepel, Cutter Lemon
Eucalyptus)
Soybean oil (Bite Blocker, etc)
Permethrin (Repel Permanone, etc)
 SARS (2003)
Severe Acute Respiratory Distress
Syndrome
Identified in China first, tends to be
associated with travel to endemic area
CDC Classification
Possible coronavirus
Incubation 2 to 7 days
Treatment Options – ABx?
 MERS (Middle East Respiratory
Syndrome)
Viral respiratory illness first reported in Saudi Arabia in
2012.
It is caused by a coronavirus called MERS-CoV.
Develop severe acute respiratory illness
Most cases linked to countries near Arabian Peninsula,
no cases in US
Spread from ill people to others through close contact.
CDC Classification
Incubation with 14 days?
Treatment Options – a lot of interesting data, but no
specific drug available
 Ebola Virus
 Prototype Viral Hemorrhagic  >20 previous Ebola and
Fever Pathogen Marburg virus outbreaks
Filovirus: enveloped,
non-segmented, negative-
 2018 West Africa Ebola
stranded RNA virus outbreak caused by
Severe disease with high Zaire ebolavirus species
case fatality (five known Ebola virus
Absence of specific treatment species)
or vaccine

100
 Ebola Virus
 Zoonotic virus – bats the most likely reservoir, although
species unknown
 Spillover event from infected wild animals (e.g., fruit bats,
monkey, duiker) to humans, followed by human-human
transmission

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 Clinical Management
 Hypovolemia and sepsis physiology
Aggressive intravenous fluid resuscitation
Hemodynamic support and critical care management if necessary
 Electrolyte and acid-base abnormalities
Aggressive electrolyte repletion
Correction of acid-base derangements
 Symptomatic management of fever and gastrointestinal
symptoms
Avoid NSAIDS
 Multisystem organ failure can develop and may require
Oxygenation and mechanical ventilation
Correction of severe coagulopathy
Renal replacement therapy

Reference: Fowler RA et al. Am J Respir Crit Care Med. 2014

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 Investigational Therapies for EVD Patients
 No approved EVD-specific prophylaxis or treatment
Ribavirin has no in-vitro or in-vivo effect on Ebola virus
Therapeutics in development with limited human clinical trial data
o Convalescent serum
o Therapeutic medications
o ZMapp – three chimeric human-mouse monoclonal antibodies
o Tekmira – lipid nanoparticle small interfering RNA
o Favipiravir – oral RNA-dependent RNA polymerase inhibitor
 Vaccines – in clinical trials
Chimpanzee-derived adenovirus with an Ebola virus gene inserted
Attenuated vesicular stomatitis virus with an Ebola virus gene
inserted
References: 1Huggins, JW et al. Rev Infect Dis 1989; 2Jarhling, P et al. JID 2007; 3Mupapa, K et al. JID 1999 S18; 4Olinger, GG et al. PNAS 2012; 5Dye,
JM et al. PNAS 2012; 6Qiu, X et al. Sci Transl Med 2013; 7Qiu, X et al. Nature 2014; 8Geisbert, TW et al. JID 2007; 9Geisbert, TW et al. Lancet 2010;
10Kobinger, GP et al. Virology 2006; 11Wang, D et al. J Virol 2006; 12Geisbert, TW et al. JID 2011; 13Gunther et al. JID 2011; 14Oestereich, L et al.

Antiviral Res. 2014.

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 Clinical Management
- Antiviral Drugs
 There is currently no antiviral drug licensed by the U.S.
Food and Drug Administration (FDA) to treat EVD
 During the 2018 eastern Democratic Republic of the Congo
outbreak, four investigational treatments were initially
available to treat patients with confirmed Ebola
 For two of those treatments, called Regeneron (REGN-
EB3) and mAb114, overall survival was much higher.
These two antiviral drugs currently remain in use for
patients with confirmed Ebola

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 Prevention of EVD
 Ebola Vaccine
 The U.S. Food and Drug Administration (FDA) approved
the Ebola vaccine rVSV-ZEBOV (tradename “Ervebo”) on
December 19, 2019
 The rVSV-ZEBOV vaccine is a single dose vaccine
regimen that has been found to be safe and protective
against only the Zaire ebolavirus species of ebolavirus
 This is the first FDA approval of a vaccine for Ebola

105
 Zika Virus
Zika is spread mostly by the bite of an infected Aedes species mosquito
(Ae. aegypti and Ae. albopictus).
Zika can be passed from a pregnant woman to her fetus
No vaccine exists to prevent Zika
Prevent Zika by avoiding mosquito bites
Mosquitoes that spread Zika virus bite during the day and night
Mosquitoes that spread Zika virus also spread dengue and chikungunya
viruses
Zika can be passed through sex from a person who has Zika to his or her
sex partners. Condoms can reduce the chance of getting Zika from sex
Coronavirus Disease 2019 (COVID-19)

www.cdc.gov
 Coronavirus Disease 2019 (COVID-19)

 Outbreak of respiratory disease caused by a novel (new)
coronavirus that was first detected in China and which has
now been detected in 60 locations internationally, including
in the United States.
 The virus has been named “SARS-CoV-2” and the disease
it causes has been named “coronavirus disease 2019”
(abbreviated “COVID-19”).
 On January 31, 2020, declared a public health emergency
(PHE) for the United States

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 Coronavirus Disease 2019 (COVID-19)

 Coronaviruses are a large family of viruses that are common in people and
many different species of animals, including camels, cattle, cats, and bats
 Rarely, animal coronaviruses can infect people and then spread between
people such as with MERS-CoV, SARS-CoV, and now with this new virus
(named SARS-CoV-2)
 All three of these viruses have their origins in bats. The sequences from
U.S. patients are similar to the one that China initially posted, suggesting a
likely single, recent emergence of this virus from an animal reservoir
 Early on, many of the patients at the epicenter of the outbreak in Wuhan,
Hubei Province, China had some link to a large seafood and live animal
market, suggesting animal-to-person spread. Later, a growing number of
patients reportedly did not have exposure to animal markets, indicating
person-to-person spread
 Travel-related exportation of cases reported

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 Coronavirus Disease 2019 (COVID-19)
 The primary transmission of COVID-19 is from person to person through
respiratory droplets
– Droplets are released when someone talks, sneezes, or coughs
– Infectious droplets can land in the mouths or noses of people who are nearby
or possibly be inhaled into the lungs
 COVID-19 may also be spread if you touch contaminated objects and
surfaces
 Recent data suggest transmission by people who are not showing
symptoms
https://www.covid19treatmentguidelines. nih.gov/whats-new
https://www.covid19treatmentguidelines. nih.gov/whats-new
 Coronavirus Disease 2019 (COVID-19)
Prevention
 Vaccines: three approved (Moderna, Pfizer, J&J, Novavax)

https://www.covid19treatmentguidelines. nih.gov/whats-new
 Monkey Pox Virus

 Mpox outbreak in the United States is caused by Clade
IIb of the mpox virus
 Treatment:
-Tecovirimat (also known as TPOXX, ST-246)
-Brincidofovir (also known as CMX001 or Tembexa)
-Vaccinia Immune Globulin Intravenous (VIGIV)
-Cidofovir (also known as Vistide)
 Two vaccines may be used for the prevention of mpox
disease:
JYNNEOS vaccine is approved for the prevention of mpox and smallpox. During the current outbreak, JYNNEOS
is the main vaccine being used in the United States.
ACAM2000 vaccine is approved for immunization against smallpox and made available for use against mpox
under an Expanded Access Investigational New Drug (EA-IND) protocol.
 References
1. www.cdc.gov [Accessed February 28, 2022]
2. Grohskopf LA, Alyanak E, Broder KR, et al. Prevention and Control of Seasonal Influenza with Vaccines:
Recommendations of the Advisory Committee on Immunization Practices — United States, 2020–21 Influenza Season.
MMWR Recomm Rep 2020;69(No. RR-8):1–24. DOI: http://dx.doi.org/10.15585/mmwr.rr6908a1