Lecture 4: Virus Transmission and Epidemiology PDF

Summary

This lecture covers virus transmission and epidemiology, including portals of virus entry, dissemination within a host, portals of virus exit, and patterns of infection. It also discusses epidemiology and control measures.

Full Transcript

Lecture 4
VIRUS TRANSMISSION
AND EPIDEMIOLOGY
 Lecture Outline

Portals of virus entry

Dissemination within a host

Portals of virus exit

Patterns of infection

Epidemiology

Epidemiological studies
 Virus Transmission.
To remain successful, a virus must be able to be transmitted from an
infected individual to an uninfected host.

To initiate a successful infection:
1. Sufficient numbers of virions must enter the host
One virion is theoretically enough… but there are mechanical,
chemical, and microbiological barriers to infection at every site of
the body, as well as the host immune system

2. The host must be accessible to (come into contact with) the virus

3. The cells must be susceptible to infection
Must express the cell surface receptors to which the virus binds
Determines the tropism of the virus: the specificity of a virus for a
particular type of cell or tissue

To be considered as permissive, the cells have to contain the receptor for
infection and the proteins and molecules within the cell that are necessary
for replication to occur
 A fighting balance
Viral pathogenesis is how a virus causes disease within a host

VIRUS HOST

The viruses that exist today have evolutionarily been selected for their traits that allow
them to circumvent host factors and initiate infection, although the most successful viruses
are not the most virulent: an extremely pathogenic virus will kill its host, thereby
eliminating its reservoir and interrupting the chain of infection to another susceptible host
 Virus Transmission

Portals of Portals of
Entry Exit

Infection (and
possible
dissemination
within host)
 Portals of Virus Entry
Several different portals of entry are used Eyes

by different viruses to gain entry into a new
host
Most viruses interact with cells of an epithelium,
the layers of cells that line the outside surfaces
and inner cavities of the body
Mucosal epithelium lines all the internal
surfaces of the body
Respiratory tract
Gastrointestinal tract
Genital tract
Some portals of entry bypass the epithelium
Penetration through the skin (e.g., needle
injection)
Organ transplants
Blood transfusion
Transplacentally (through the placenta)
 Portals of Virus Entry: The Skin
The skin possesses barriers to viral infection:
Sebum (oil) produced by skin glands creates an acidic environment
Outermost strata of epidermis is not alive and cannot support viral infection or
replication

Transmission through the skin:
Small cuts or abrasions in the skin that allow access to the lower, dividing layers
Primarily localized infections
Penetration of the epidermis through insect bites (mosquitoes, ticks, mites)
Subcutaneous tissue can be accessed through animal bites, needle punctures,
improperly sterilized tattooing or piercing equipment
Viruses can gain entry into bloodstream directly or through draining lymph
(which empties into the bloodstream)
→ dissemination of the virus to other locations
 Portals of Virus Entry: Respiratory Tract
The respiratory tract is the most common portal of entry into the
body by viruses
Consists of mucosal epithelium
Upper respiratory tract: nose, nasal passages, sinuses, pharynx, and larynx
(voice box)
Lower respiratory tract: trachea (windpipe), bronchi (singular: bronchus),
and lungs

Upper

Lower
 Ticks : heartland virus, powassan virus, Colorado tick fever
Portals of Virus Entry: Respiratory Tract
virus
Through placenta tract,
In the respiratory Cytomegalovirus,
viruses must variolaavoid:virus, herpes simplex virus-1,
(transplacental)
being trapped inherpes mucus simplex virus-2, measles virus, rubella virus
Eye* being eliminated Adenoviruses,
by antibodies herpesor simplex virus-1, cytomegalovirus,
macrophages
enterovirus 70, Coxsackievirus A24, rubella virus, measles
virus, vaccinia virus
Transplants
-Table 5.1 Common PortalsHepatitis
solid organs of EntryBand thehepatitis
virus, VirusesCthat Use
virus, Them
HIV, cytomegalovirus,
West Nile virus, rabies virus, lymphocytic choriomeningitis
Portal Selected Human
virus, herpes Viruses
simplex virus,that Use this
varicella Portal
zoster virus
Respiratory tract* adenovirus, measles, mumps, rubella, enterovirus D68,
- blood influenza A virus,
HIV, hepatitis influenza
B virus, B virus,
hepatitis rhinovirus,
C virus, humanrespiratory
T-
syncytial virus, virus-1
lymphotrophic varicellaand
zoster virus, variola
-2, dengue virus,SARS-CoV1
Ebolavirusand 2
*Gastrointestinal tract
several viruses are able toNorwalk virus,
gain entry rotavirus,
through mucouspoliovirus, entericatenteroviruses,
membranes these locations
hepatitis A virus, hepatitis E virus, sapovirus
Genital tract Human papillomaviruses, HIV, hepatitis B virus, hepatitis C
virus, herpes simplex virus-2
Skin
- direct contact Human papillomaviruses, herpes simplex virus-1, molluscum
 Portals of Virus Entry: Gastrointestinal Tract
The human gastrointestinal tract (digestive tract) is a
hollow tube that stretches from the oral cavity (mouth)
to the anus

Gastrointestinal tract transmission:
From mother to child in breast milk
Free virions or within infected cells
HIV, human cytomegalovirus, West Nile virus
Fecal-oral route
Virions present in the feces of an infected
individual gain entry into the oral cavity of
another individual
Table 5.1 Common Portalsinofcountries
Common Entry and the proper
without Viruses that Use Them
sanitation or water-treatment facilities
Portal PolioSelected Human Viruses that Use this Portal
Ingesting contaminated food or water
Respiratory tract* Norwalk adenovirus, measles,causing
virus (Norovirus), mumps, rubella, enterovirus D68,
influenza
"stomach A "Winter
flu" or virus, influenza
VomitingB virus, rhinovirus, respiratory
Disease”. Common
syncytial virus,onvaricella
cruise ship.
zoster virus, variola
Gastrointestinal tract Norwalk virus, rotavirus, poliovirus, enteric enteroviruses,
hepatitis A virus, hepatitis E virus, sapovirus
 Portals of Virus Entry: Genital Tract
The human genital tract
Females: vagina, cervix,
uterus, fallopian tubes,
ovaries
Males: penis, urethra,
scrotum, testes, epididymis,
vas deferens, ejaculatory
ducts, seminal vesicles, and
prostate gland
Sexually transmitted diseases
(STDs) are transmitted
directly via the genital tract

Examples:
Human papillomavirus
(HPV)
Hepatitis B, C virus
HIV
HSV-2
 syncytial virus, varicella zoster virus, variola
Gastrointestinal tract PortalsNorwalkofvirus,
Virus Entry:poliovirus,
rotavirus, The Eye enteric enteroviruses,
hepatitis A virus, hepatitis E virus, sapovirus
Raretract
Genital to have infection of the eye
Human itself
papillomaviruses, HIV, hepatitis B virus, hepatitis C
without injury (such as a puncture
virus, herpes simplex virus-2
wound)
Skin
Infection of the cornea occurs
contact
- direct Herpes simplex virusHuman papillomaviruses,
infection of the herpes simplex virus-1, molluscum
cornea is the most contagiosum
common
infectious
- penetration cause ofInjection/cuts
into dermis corneal blindness
: hepatitis B virus, hepatitis C virus, HIV,
in the UStissue
or subcutaneous Ebolavirus
Infection of the conjunctiva of the eye or
Mosquito : dengue virus, West Nile virus, eastern equine
eyelid causes conjunctivitis (“pink-eye”)
Adenovirus common encephalitis virus, Chikungunya virus, yellow fever virus
Ticks : heartland virus, powassan virus, Colorado tick fever
virus
Through placenta Cytomegalovirus, variola virus, herpes simplex virus-1,
(transplacental) herpes simplex virus-2, measles virus, rubella virus
Eye* Adenoviruses, herpes simplex virus-1, cytomegalovirus,
enterovirus 70, Coxsackievirus A24, rubella virus, measles
virus, vaccinia virus
Transplants
 Portals of Virus Entry: The Placenta
The placenta is a fetal tissue that
facilitates the transfer of oxygen, carbon
dioxide, waste products, and nutrients
between the mother and fetus

Fetal and maternal blood does not mix,
but close contact allows diffusion to
occur

Congenital infections: viruses present at the
time of birth, transmitted transplacentally or
during birth from the birth canal

Cause severe effects, including
miscarriage, low birth weight,
intellectual deficiencies, hearing loss,
and death

Henry Gray, Anatomy of the Human Body.
Philadelphia and New York, Lea and Febinger, 1918.
Portal Selected Human Viruses that Use this Portal
Respiratory tract* Portals of Virusmeasles,
adenovirus, Entry: The Placenta
mumps, rubella, enterovirus D68,
influenza A infection
Vertical transmission: virus, influenza
fromB virus,
mother rhinovirus,
to childrespiratory
syncytial virus, varicella zoster virus, variola
Gastrointestinal tract Norwalk virus, rotavirus, poliovirus, enteric enteroviruses,
hepatitis A virus, hepatitis E virus, sapovirus
Genital tract Human papillomaviruses, HIV, hepatitis B virus, hepatitis C
virus, herpes simplex virus-2 Human cytomegalovirus
Skin is the most common
- direct contact Human papillomaviruses, herpes causesimplex virus-1, molluscum
of congenital
contagiosum infections, occurring in
- penetration into dermis Injection/cuts : hepatitis B virus, hepatitis C virus, HIV,
2.5% of live births
or subcutaneous tissue Ebolavirus
Mosquito : dengue virus, West Nile virus, eastern equine
encephalitis virus, Chikungunya virus, yellow fever virus
Ticks : heartland virus, powassan virus, Colorado tick fever
Table 5.1 Common Portals of Entry and the Viruses that Use Them
virus
Through placenta Cytomegalovirus, variola virus, herpes simplex virus-1,
Portal
(transplacental) Selected Human
herpes simplex Viruses
virus-2, that Use
measles this
virus, Portal
rubella virus HIV
Respiratory
Eye* tract* adenovirus,
Adenoviruses,measles,
herpesmumps,
simplexrubella,
virus-1, enterovirus D68,
cytomegalovirus,
 Portals of Virus Entry: Transplants (blood)

Viruses can be transmitted through transplanted organs and tissues

Blood is the most common transplanted tissues
Transfusion-transmitted infections (TTIs)
Blood supply is screened for many high-impact viruses
New viruses can contaminate donated blood before tests exist to
detect them
20,000 people contracted HIV from the blood supply before 1985
More than half of all the hemophiliacs in the US
Table 5.2 Pathogens for which the blood supply is currently tested

Pathogen Type Specific Pathogens Tested For
Virus Hepatitis B virus (HBV)
Hepatitis C virus (HCV)
Human immunodeficiency virus -1 and -2 (HIV-1/HIV-2)
Human T-lymphotropic virus -1 and -2 (HTLV-1/HTLV-2)
West Nile Virus
Bacterium Treponema pallidum (syphilis)
- direct contact Portals of Human
Viruspapillomaviruses,
Entry: Transplantsherpes simplex virus-1, molluscum
(organs)
contagiosum
Organ transplants
- penetration into dermiscanInjection/cuts
also harbor virusesB (although
: hepatitis transmission
virus, hepatitis C virus, HIV,
or subcutaneous
through solid tissue
organs isEbolavirus
rare)
Mosquito : dengue virus, West Nile virus, eastern equine
Organ recipients encephalitis
are given virus, Chikungunya
potent drugs to virus, yellow fever
suppress thevirus
immune
Ticks : heartland virus, powassan virus, Colorado tick fever
system, leading to an immunocompromised individual
virus
Through placenta Cytomegalovirus, variola virus, herpes simplex virus-1,
(transplacental) herpes simplex virus-2, measles virus, rubella virus
Eye* Adenoviruses, herpes simplex virus-1, cytomegalovirus,
Table 5.1 Common Portals enterovirus
of Entry70,
andCoxsackievirus A24, Use
the Viruses that rubella virus, measles
Them
virus, vaccinia virus
Transplants Selected Human Viruses that Use this Portal
Portal
- solid organs Hepatitis B virus, hepatitis C virus, HIV, cytomegalovirus,
Respiratory tract* adenovirus, measles, mumps, rubella, enterovirus D68,
West Nile virus, rabies virus, lymphocytic choriomeningitis
influenza A virus, influenza B virus, rhinovirus, respiratory
virus, herpes simplex virus, varicella zoster virus
syncytial virus, varicella zoster virus, variola
Gastrointestinal
- blood
tract Norwalk virus, rotavirus, poliovirus, enteric enteroviruses,
HIV, hepatitis B virus, hepatitis C virus, human T-
hepatitis A virus,
lymphotrophic hepatitis
virus-1 and -2,Edengue
virus, sapovirus
virus, Ebolavirus
Genital tract Human papillomaviruses, HIV, hepatitis B virus, hepatitis C
 Dissemination within a Host
Localized infections infect and replicate only within cells at the initial
site of infection

Systemic infections initiate infection in one organ and spread to other
sites within the body

Neurotropic spread: spread through neurons
Virus replicates in local tissue and then infects neurons
Peripheral nerves can be used to access the central nervous system
herpesviruses (HSV-1, HSV-2, varicella zoster virus), polio, rabies

Hematogenous spread: spread through the bloodstream
Viremia: virus in the bloodstream
Primary viremia: first time the virus is in the blood
Secondary viremia: virus in the blood following replication in an
organ that was infected through the primary viremia

Can occur directly (through injection or animal bites) or indirectly from
high amounts of replicated virus spilling over from the local infection site
 Portals of Virus Exit

Shedding is the release of infectious virions from an infected individual

During localized infection, virions are shed from the site of infection

Skin-to-skin contact (for skin-infecting viruses)
Respiratory secretions (for respiratory viruses)
Diarrhea or aerosolized vomit (for gastrointestinal viruses)
Saliva (for viruses that replicate within salivary glands or oral
compartments)
Genital secretions (for STDs)

Systemic infections may be spread through local sites or from:
Blood / bodily fluids
Viruria: virus within the urine
Feces
 Portals of Virus Exit

The stability of virions within the environment depends upon several
factors, both of the environment and of the virion itself
Table 5.3 Characteristics that affect virion stability

Factor Characteristic
Virion Type of nucleic acid (DNA more stable than RNA)
Sensitivity of viral proteins to pH changes
Presence/absence of envelope (envelope is susceptible to detergents)
Sensitivity to damage from ultraviolet light
Strain of virus
Adsorption to other materials
Particle size
Aggregation of virions

Environment Temperature
pH
Humidity
Seawater/freshwater/distilled water
Amount and type of organic matter
Presence of other organisms
Salinity
Presence of enzymes or degrading factors
Type of surface / medium
 Portals of Virus Exit
Airborne viruses are transmitted via the respiratory route when a person coughs,
sneezes, speaks, or breathes
Droplets, ~20 microns in size, are only spread short distances before they
succumb to gravity and fall out of the air (especially at higher humidity)
Aerosolized particles, ~5 microns in size, remain airborne for longer
greater success in reaching the lower respiratory tract
 Periods of Infection
An infected host typically goes through 4 stages of disease development
 Patterns of Infection

Patterns of Disease:

Acute infection
Rapid replication of the virus within the host
Spread of virus to others
Immune system clears the infection within 1-2 weeks
Can be inapparent/subclinical; but can still spread to others can still occur!
Most viral infections fall into this category, e.g., flu. COVID

Persistent infection
Host immune system is unable to clear the infection
Infection does not kill the host
Infection can be lifelong
E.g., hepatitis B.
Latent infections.
The infected virus become dormant and patients shows no symptom
Reactivation may occur
E.g., HIV, HSV
 Epidemiology

Epidemiology = the study of how disease spreads throughout a
population

Epidemiologists determine how a disease is transmitted from
person to person and establish control measures that interrupt
the continued transmission of the virus
 Epidemiology: Disease Occurrence Terminology

Sporadic: infrequently, without a consistent pattern

Endemic: the usual presence of a disease in a population or an
area at any given time

Epidemic: more cases of a disease (a sudden increase) in a
particular area than are expected during endemic times
Also referred to as an “outbreak”

Pandemic: when an epidemic spreads through several
countries, a continent, or the world
 Epidemiology: Disease Occurrence Terminology

Sporadic, Endemic, Epidemic, or Pandemic?

1. 20 million people worldwide died of influenza in 1918-1919.
2. 60 cases of yellow fever virus are usually reported in this region
per week of the year.
3. 122 cases of norovirus were reported last week in Chicago
(normal is 1-5 cases each week).
4. A single case of the rare lymphocytic choriomeningitis virus was
reported in Rhode Island this week.
 Epidemiology: Chain of Infection
The details of the epidemiologic triad model can be further examined
by inspecting the factors found within the chain of infection:

Transmission of the agent to the host occurs when the agent leaves its
reservoir through a portal of exit, is conveyed by a mode of
transmission, and enters a susceptible host through a portal of entry.
 Epidemiology: Chain of Infection

Humans are the most common reservoirs of human viruses

Some exclusively within humans
Poliovirus or variola virus (cause of smallpox)

Others infect humans and other animals
Zoonosis: infectious disease that can be transmitted from an animal
to a human
Influenza A virus, Ebola virus, MERS-CoV, SARS-CoV-1, SARS-CoV-
2

A carrier is a reservoir that can transmit the pathogen but shows no
symptoms of infection
 Epidemiology: Control measures
Control measures interfere with the transmission of the virus
Can be instituted at any point within the chain of infection
Most often directed at controlling/eliminating the virus at its source,
preventing the transmission of the virus, protecting portals of entry, and
increasing host defenses

Examples:
Prevent virus from leaving infected individual (antivirals)
Remove/relocated infected animal hosts
Isolate infected individuals (quarantine)
Rearrange environment
Ventilation systems
Water treatment
Insect-spraying programs
Protect portals of entry
Personal protective equipment (PPE)
Handwashing
Sterilization measures
Bed nets
Long pants
 Epidemiology: Control measures

The most effective control measure that protects the susceptibility
of the individual is vaccination.
Works by exposing an individual to non-infectious parts of a pathogen to
prepare the immune system for the actual pathogen
Protects the individual
Protects a population through herd immunity
 Epidemiology: Herd immunity and infection control
Herd Immunity
Transmission of a pathogen within a population is prevented due to lack of
susceptible hosts because of vaccination
R0 and the percentage of the population needs to be vaccinated