1. Viruses and Viral Diseases

2. General Structure of Viruses
Size range
most <0.2 μm
requires electron microscope
Virion
fully formed virus able to establish an infection

4. General Structure of Viruses
Capsids
All viruses possess
Constructed from identical subunits called capsomers
made of protein
nucleoscapsid
Capsid + nucleic acid

5. General Structure of Viruses
Three main structural types:
helical
Continuous helix of capsomers forming a cylindrical nucleocapsid
icosahedral
20-sided with 12 corners
vary in the number of capsomers
Some are enveloped
Complex

6. Icosahedral
Helical

7. General Structure of Viruses
Viral envelope
mostly animal viruses
acquired when virus leaves host cell
Protects the nucleic acid when the virion is outside the host cell
spikes
exposed proteins on the outside of the envelope
essential for attachment of the virus to the host cell
Naked
composed only of a nucleocapsid
Enveloped
surrounded by an envelope

8. General Structure of Viruses
Complex viruses: atypical viruses
Poxviruses
lack typical capsid
covered by dense layer of lipoproteins
Bacteriophages
Virus that infects and replicates within bacterial cells

9. Viral targets Viruses have host range and tissue specificity
Host range refers to what organisms the virus can infect
depends on capsid structure
Many viruses infect certain cell or tissue types within the host (tissue tropism)

10. Nucleic acids Viral genome Carries genes necessary to invade host cell
either DNA or RNA but never both
Carries genes necessary to invade host cell
then redirect cell’s activity to make new viruses
Number of genes varies for each type of virus
few to hundreds

11. Nucleic Acids DNA viruses usually double stranded (ds)
may be single stranded (ss)
circular or linear

12. DNA Viruses DNA viruses causing human disease: enveloped DNA viruses
nonenveloped DNA viruses
nonenveloped ssDNA viruses

13. Nucleic Acids RNA viruses usually single stranded
may be double stranded
Segmented versus nonsegmented
positive-sense RNA
ssRNA genomes ready for immediate translation
negative-sense RNA
ssRNA genomes that must be converted into proper form

14. RNA Viruses
Assigned families based on envelope, capsid, and nature of RNA genome

15. Viruses….a comparison Most DNA viruses are budded off the nucleus
Most RNA viruses multiply in & released from the cytoplasm
Most DNA & a few RNA viruses can become permanent resident of the host cell
Several viruses can cross the placenta & cause developmental disturbances

16. What about Viral classification??
Acellular
Completely different way of classifying
Will discuss in viral section….

17. Naming Viruses 3 Orders 63 Families 263 genera
Order name end in –virales
Herpesvirales
63 Families
Family name ends in -viridae
Herpesviridae
263 genera
Genus name ends in –virus
Simplexvirus, Herpes simplex virus I (HSV-I)

18. Naming Viruses Family – Herpesviridae Genus – Varicellovirus
Common name – chickenpox virus
Disease - chickenpox

19. Modes of Viral Multiplication

20. Multiplication Cycle in Bacteriophages
Bacteriophages – bacterial viruses (phages)
Most widely studied are those that infect Escherichia coli
Multiplication goes through similar stages as animal viruses
Only the nucleic acid enters the cytoplasm
uncoating not necessary
Two types of phages:
Virulent
Temperate

21. Lysogeny
Results in the spread of the virus without killing the host cell
Lysogenic conversion
Phage genes in the bacterial chromosome
Cause production of toxins or enzymes that cause pathology
Corynebacterium diptheriae
Vibrio cholera
Clostridium botulinum

22. Animal virus replication
attach to host plasma membrane via spikes on the capsid or envelope

23. Genome Replication DNA viruses RNA viruses ds ss
Two complementary paired nucleic acids ss
Unpaired nucleic acids
Reverse transcribing viruses

24. 1. DNA Viruses Use host cell’s synthesizing machinery
ds DNA releases its DNA then:
Enters nucleus
Is transcribed
Viral mRNA translated and proteins enter nucleus
Viral DNA replicated in nucleus
Viral DNA and proteins assembled
CAN insert itself into host DNA

25. 2. RNA Viruses Genetic information encoded in RNA
Use own enzymes to copy their genomes
Can be:
(-) genome and must be converted before translation
(-) that can be converted to DNA or dsRNA
(+) genome ready to be translated into proteins

26. (+) genome ready to be translated into proteins
Penetration and uncoating of viral RNA
Directly translated on host cell ribosomes into viral proteins
(-) genome synthesized to produce for final assembly
(-) template used to make (+) replicates
RNA strands assembled

27. 3. Reverse Transcribing Viruses
Synthesize DNA using their ssRNA genome as a template
Reverse transcriptase
Packaged with each viral particle
Synthesizes ssDNA from their template
Directs formation of complementary strand of above
=dsDNA virus strand
Enters nucleus
integrated into host genome
We then make more ssRNA

28. Some Animal Viruses Can Exist as Proviruses
Some DNA viruses and retroviruses insert their genome into the host chromosome as a provirus
Retroviruses use reverse transcriptase to transcribe their RNA to DNA
It can then be inserted into the host chromosome

29. 6 Steps in Viral Replication
adsorption
penetration
replication
assembly
maturation
release

30. 1. Adsorption and Host Range
Virus coincidentally collides with a susceptible host cell
adsorbs specifically to receptor sites on the cell membrane
Attachment
host range
Spectrum of cells a virus can infect
hepatitis B – human liver cells
poliovirus – primate intestinal and nerve cells
Rabies – various cells of many mammals

31. 2. Penetration/Uncoating
Flexible cell membrane penetrated by the whole virus (or its nucleic acid) by:
endocytosis
entire virus engulfed and enclosed in a vacuole or vesicle
fusion
envelope merges directly with membrane
Results in nucleocapsid’s entry into cytoplasm

32. 3. Replication
Varies depending on whether the virus is a DNA or RNA virus
DNA viruses generally are replicated and assembled in the nucleus
RNA viruses generally are replicated and assembled in the cytoplasm

33. 4. & 5. Assembly and Maturation
Mature viruses made from various parts
Capsid laid down first
Enveloped
Insert viral spikes

34. 6. Release Assembled viruses leave host cell in one of two ways:
budding
exocytosis
nucleocapsid binds to membrane which pinches off and sheds the viruses gradually
cell is not immediately destroyed
lysis
nonenveloped and complex viruses released when cell dies and ruptures

35. Damage to Host Cell Cytopathic effects - virus-induced damage to cells
Changes in size & shape
Cytoplasmic inclusion bodies
Nuclear inclusion bodies
Cells fuse to form multinucleated cells
Cell lysis
Alter DNA
Transform cells into cancerous cells

37. Techniques in Cultivating and Identifying Animal Viruses
Obligate intracellular parasites require appropriate cells to replicate
In vitro
In vivo
Methods used:
cell (tissue) cultures
bird embryos
live animal inoculation

38. Techniques in Cultivating and Identifying Animal Viruses
Cell (tissue) cultures
cultured cells grow in sheets that support viral replication
permit observation for cytopathic effect

39. Techniques in Cultivating and Identifying Animal Viruses
Bird embryos
incubating egg is an ideal system
virus is injected through the shell

40. Techniques in Cultivating and Identifying Animal Viruses
live animal inoculation
occasionally used when necessary

41. Pathogenic DNA Viruses

42. Poxviruses Produce eruptive skin pustules called pocks or pox
Largest and most complex animal viruses
largest genome of all viruses
dsDNA
variola – cause of smallpox
vaccinia – closely related virus used in vaccines
monkeypox
cowpox

44. Smallpox first disease to be eliminated by vaccination
exposure through inhalation or skin contact
infection associated with fever,
malaise, prostration, & a rash
Variola major
highly virulent, caused toxemia, shock, & intravascular coagulation
Variola minor
less virulent
routine vaccination ended in US in 1972
reintroduced in 2002

45. Molluscum Contagiosum
caused by unclassified poxvirus
primarily an infection of children
transmitted by direct contact and
fomites
AIDS patients suffer atypical form
attacks the skin of the face
forms tumorlike growths
Treatment
freezing, electric cautery, chemical agents

46. The Herpesviruses
All members show latency and cause recurrent infection
more severe with advancing age, cancer chemotherapy, or other conditions that compromise the immune defenses

47. Herpesviridae large Family; 8 infect humans HSV-1 HSV-2 VZV EBV CMV
HHV-6
HHV-7
HHV-8

48. Epidemiology of Herpes Simplex Viruses: HSV-1 & 2
Transmission
direct exposure to secretions containing the virus
active lesions most significant source
genital herpes can be transmitted in the absence of lesions
HSV multiplies in sensory neurons, moves to ganglia
HSV-1 enters 5th cranial nerve
HSV-2 enters lumbosacral spinal nerve trunk ganglia

49. Epidemiology of Herpes Simplex Viruses
Recurrent infection triggered by various stimuli
fever, UV radiation, stress, mechanical injury
Newly formed viruses migrate to body surface
produce a local skin or membrane lesion

50. Type 1 Herpes Simplex (HSV – 1)
Herpes labialis
fever blisters, cold sores
most common recurrent HSV-1 infection
vesicles occur on mucocutaneous junction of lips or adjacent skin
itching and tingling prior to vesicle formation
lesion crusts over in 2-3 days and heals
Herpetic gingivostomatitis
infection of oropharynx in young children
fever, sore throat, swollen lymph nodes
Herpetic keratitis
ocular herpes

51. Type 2 Herpes Simplex (HSV – 2)
Genital herpes
herpes genitalia
starts with malaise, anorexia, fever, and bilateral swelling and tenderness in the groin
clusters of sensitive vesicles on the genitalia, perineum, and buttocks
urethritis, painful urination
Recurrent bouts usually less severe
triggered by menstruation, stress, and concurrent bacterial infection

52. Herpes of the Newborn HSV-1 and HSV-2
Potentially fatal in the neonate and fetus
Infant contaminated by mother before or during birth
hand transmission by mother to infant
Infection of mouth, skin, eyes, CNS
Preventative screening of pregnant women
delivery by C-section if outbreak at the time of birth

53. Diagnosis, Treatment, and Control
Vesicles and exudate are typical diagnostic symptoms
scrapings from base of lesions showing giant cells
culture and specific tests for diagnosing severe or disseminated HSV

54. Varicella-Zoster Virus (VZV)
HHV-3
chickenpox & shingles
transmitted by respiratory droplets & contact
primary infection
Chickenpox

55. Varicella-Zoster Virus (VZV)
virus enters neurons & remains latent
later reactivation of the virus results in shingles
vesicles localized to distinctive areas
dermatomes
treatment
acyclovir, famciclovir, interferon
live attenuated vaccine
Always effective?!

56. Epstein-Barr Virus (EBV)
HHV-4
infects lymphoid tissue & salivary glands
transmission
direct oral contact & contamination with saliva
by mid-life 90-95% of all people are infected
causes mononucleosis
sore throat, high fever, cervical lymphadenopathy
Complications include:
heart defects
facial paralysis
rupture of the spleen
jaundice (hepatitis)

57. Epstein-Barr Virus (EBV)
30-50 day incubation
most cases asymptomatic
Burkitt’s lymphoma
associated with chronic co-infections with malaria
nasopharyngeal carcinoma in Chinese & African men

58. Cytomegalovirus (CMV)
HHV-5
produce giant cells with nuclear & cytoplasmic inclusions
transmitted in saliva, respiratory mucus, milk, urine, semen, cervical secretions & feces
commonly latent in various tissues
most infections are asymptomatic
3 groups develop a more virulent form of disease
fetuses, newborns, immunodeficient adults

59. CMV perinatal CMV infection newborns transplant patients Treatment
mostly asymptomatic or a mononucleosis-like syndrome
newborns
may exhibit enlarged liver & spleen, jaundice, capillary bleeding, microcephaly, & ocular inflammation
may be fatal
transplant patients
pneumonitis, hepatitis, myocarditis, meningoencephalitis
Treatment
ganciclovir, valvcyclovir

60. Human Herpes Virus 6 HHV-6 T-lymphotropic virus
transmitted by close contact
very common
causes roseola
An acute febrile disease in babies 2-12 months
can cause encephalitis, cancer

61. Human Herpes Virus 6
begins with fever, followed by a faint maculopapular rash
usually self-limited
adults may get mono-like symptoms, lymphadenopathy, hepatitis
over 70% of MS patients show signs of infection

62. Diseases of the Skin Caused by Herpesviruses

63. Papillomavirus papilloma caused by 100 different strains of HPV
benign, squamous epithelial growth, wart or verruca
caused by 100 different strains of HPV
common seed warts
Fingers
plantar warts
soles of feet
genital warts
prevalent STD
transmissible through direct contact or contaminated fomites
Incubation
2 weeks – more than a year

64. Genital Warts
most common STD in US
over 6 M new cases each year
30 M carriers of one of the 5 types of HPV associated with genital warts
strong association with cervical & penile cancer
Treatment
cauterization, freezing, laser surgery, immunotherapy

66. Hepadnaviruses enveloped DNA viruses never grown in tissue culture
unusual genome containing both double & single stranded DNA

67. The Viral Agents of Hepatitis
inflammatory disease of liver cells
may result from several viruses (RNA)
Interferes with liver’s excretion of bile pigments
bilirubin accumulates in blood and tissues causing jaundice
3 principal viruses involved in hepatitis:
hepatitis B
hepatitis A
hepatitis C

68. Hepatitis B Virus 107 virions/mL blood sexually transmitted
minute amounts of blood can transmit infection
sexually transmitted
high incidence among homosexuals & drug addicts
can become a chronic infection

69. Pathogenesis of Hepatitis B Virus
Enters through break in skin or mucous membrane or by injection into bloodstream
Reaches liver cells
multiplies and releases viruses into blood
average 7 week incubation
continuously seeds blood with viruses
increases risk of liver cancer
May develop liver disease with necrosis and cirrhosis
Some experience malaise, fever, chills, anorexia, abdominal discomfort and diarrhea

70. Parvoviruses nonenveloped icosahedral, ssDNA
small diameter & genome size
B19
cause of fifth disease
erythema infectiosum rash of childhood
Child may have fever & rash on cheeks
Severe fatal anemia can result if pregnant woman transmits virus to fetus

71. Pathogenic RNA Viruses
Naked, positive ssRNA
Enveloped, positive ssRNA
Enveloped, positive ssRNA with Reverse transcriptase
Enveloped, unsegmented, negative ssRNA
Enveloped, segmented, negative ssRNA
Naked, segmente dsRNA

72. Ebola ssRNA 5 subtypes Filamentous virions
Causes Ebola hemorrhagic fever
fatal
Mainly restricted to Africa
Infect many primates including gorillas
Natural reservoir unknown

73. Ebola acute, no carriers Direct spread
fever, headache, joint and muscle aches, sore throat, and weakness, followed by diarrhea, vomiting, and stomach pain
Supportive therapy

74. Human Rhinovirus (HRV)
More than 110 serotypes (strains) associated with the common cold
Sensitive to acidic environments
optimum temperature is 33oC
Unique molecular surface makes development of a vaccine unlikely
Endemic with many strains circulating in the population at one time
acquired from contaminated hands and fomites

75. Diseases of the Enteroviruses
Coxsackie A viruses
Infection occurs via the fecal-oral route
Produce lesion and fever
Herpangina
Hand-foot-and-mouth disease

76. Poliovirus and Poliomyelitis
can survive stomach acids when ingested
Poliomyelitis (polio)
acute enteroviral infection of the spinal cord
can cause neuromuscular paralysis
Worldwide vaccination programs have reduced the number of cases
eradication is expected

77. Hepatitis A Virus and Infectious Hepatitis
Not carried chronically
principal reservoirs are asymptomatic, short-term carriers or people with clinical disease
Fecal-oral transmission
Most infections subclinical or vague, flu-like symptoms occur
No specific treatment once the symptoms begin
Inactivated viral vaccine
Pooled immune serum globulin for those entering into endemic areas

78. Hepatitis C Virus
Hepatitis C virus (HCV) belongs to the Flaviviridae family
transmitted by blood
Few symptoms are associated with primary infection
Most cases develop a symptomless chronic infection, involving cirrhosis and other complications
HCV damage is the primary reason for liver transplants in the United States
Damage is accelerated by alcoholism and drug use

79. Caliciviruses “Cruise ship virus” Norwalk agent best known
believed to cause 1/3rd of all viral gastroenteritis cases
Transmitted by fecal-oral route
Infection in all ages at any time of year
Acute onset, nausea, vomiting, cramps, diarrhea, chills
Rapid and complete recovery

80. Rubella Caused by Rubivirus, a Togavirus ssRNA with a loose envelope
German measles
Most cases reported are adolescents and young adults
Transmitted through contact with respiratory secretions

81. Rubella Two clinical forms: Postnatal rubella Congenital rubella
generally mild
malaise, fever, sore throat, lymphadenopathy, rash
lasting about 3 days
Congenital rubella
infection during 1st trimester most likely to induce miscarriage or multiple defects
Diagnosis based on serological testing
No specific treatment available
Attenuated viral vaccine MMR

82. Coronavirus common in domesticated animals
3 types of human coronaviruses have been characterized:
HCV
causes a cold
an enteric virus
Severe Acute Respiratory Syndrome (SARS)

83. SARS Severe Acute Respiratory Syndrome-Associated Coronavirus
Newly emerging disease – 2002
Transmitted through droplet or direct contact
Fever, body aches, and malaise
severe cases can result in respiratory distress and death
Diagnosis relies on exclusion of other likely agents
10% cases fatal
Treatment is supportive

84. Retroviruses enveloped, ssRNA viruses
encode reverse transcriptase enzyme which makes a DNA copy of their RNA genome
Human Immunodeficiency Virus (HIV)
cause of Acquired Immunodeficiency Syndrome (AIDS)
HIV-1 & HIV-2

85. Retroviruses
HIV normally infects the immune system cells, including T lymphocytes (CD4+ T cells)
Incapacitation of T lymphocytes allows opportunistic pathogens to infect the body
HIV also infects and paralyzes B lymphocytes

86. Epidemiology of HIV Infections
Transmission
occurs by direct and specific routes
mainly through sexual intercourse and transfer of blood or blood products
babies can be infected before or during birth, and from breast feeding
HIV does not survive long outside of the body

87. Facts…. First recognized in 1981
“Patient 0”
6th most common cause of death among people aged years in the U.S.
Men account for 70% of new infections
IV drug abusers can be HIV carriers
significant factor in spread to heterosexual population
In 2010, the number of infected individuals worldwide is estimated to be 35 million
~1 million in the U.S.

88. Risk Categories homosexual or bisexual males – 45%
intravenous drug users – 30%
heterosexual partners of HIV carriers – 11%
blood transfusions & blood products – since testing, no longer a serious risk
inapparent or unknown risk – 9% - (due to denial, death, unavailability)
congenital or neonatal – can be reduced with antiviral drugs

89. Pathogenesis and Virulence Factors of HIV
Enters through mucous membrane or skin
travels to dendritic phagocytes beneath the epithelium
multiplies and is shed
Virus taken up and amplified by macrophages in the skin, lymph organs, bone marrow, and blood
HIV attaches to CD4 and coreceptor
HIV fuses with cell membrane
Reverse transcriptase makes a DNA copy of RNA
Viral DNA is integrated into host chromosome (provirus)
Can produce a lytic infection or remain latent

91. Effects of HIV infection
Primary effects
extreme leukopenia
lymphocytes in particular
formation of giant T cells and other syncytia
allows the virus to spread directly from cell to cell
Infected macrophages release the virus in central nervous system
toxic effect, inflammation
Secondary effects
Destruction on CD4 lymphocytes
allows for opportunistic infections and malignancies

92. Signs and Symptoms of HIV Infections and AIDS
Initial infection
mononucleosis-like symptoms that soon disappear
Asymptomatic phase 2-15 years (avg. 10)
Antibodies are detectable 8-16 weeks after infection
When T4 cell levels fall below 200/mL AIDS symptoms appear

93. Diagnosis of HIV Infection
Testing based on detection of antibodies specific to the virus in serum or other fluids
Initial screening
ELISA
rapid results but may result in false positives
Follow up with Western blot analysis to rule out false positives
False negatives can also occur
persons who may have been exposed should be tested a second time 3-6 months later

94. Diagnosis of AIDS Made when a person meets the criteria:
Positive for the virus, and
They fulfill one of the additional criteria:
They have a CD4 count of fewer than 200 cells/ml of blood
Their CD4 cells account for fewer than 14% of all lymphocytes
They experience one or more of a CDC-provided list of AIDS-defining illnesses

95. HIV Treatment Azidotheymidine (AZT)
first drug used for treatment
interferes with reverse transcriptase activity
HIV can become resistant to some antivirals
requires a cocktail of drugs called highly active antiretroviral therapy (HAART)
HAART reduces the risk of HIV transmission and can extend life of patients by about 8 years
A vaccine has not yet been developed
HIV continually mutates and recombines
makes vaccine development difficult

96. Paramyxoviruses enveloped ssRNA respiratory transmission
(parainfluenza, mumps virus)
Morbillivirus
(measles virus)
Pnuemonovirus
(respiratory syncytia virus)
respiratory transmission
virus causes infected cells to fuse with neighboring cells
syncytium or multinucleated giant cells form

97. Measles Morbillivirus “red measles” & “rubeola” very contagious
transmitted by respiratory aerosols
humans the only reservoir
sore throat, dry cough, headache, conjunctivitis, lymphadenitis, fever, Koplik spots
oral lesions
Rash

98. Measles
most serious complication is subacute sclerosing panencephalitis (SSPE)
progressive neurological degeneration of the cerebral cortex, white matter & brain stem
1 case in a million infections
involves a defective virus spreading through the brain by cell fusion & destroys cells
leads to coma & death in months or years
attenuated viral vaccine MMR

99. Parainfluenza widespread as influenza respiratory transmission
more benign
respiratory transmission
seen mostly in children
minor cold, bronchitis, bronchopneumonia, croup
no specific treatment available

100. Mumps epidemic parotitis
self-limited, associated with painful swelling of parotid salivary glands
humans are the only reservoir
incubation 2-3 weeks fever, muscle pain & malaise, classic swelling of both cheeks
in 20-30% of infected males, epididymis & testes become infected
sterilization is rare
live attenuated vaccine MMR

101. RSV also called Pneumonvirus infects upper respiratory tract
produces giant multinucleate cells
most prevalent cause of respiratory infection in children 6 months or younger
epithelia of nose & eye portal of entry
rhinitis, wheezing, otitis, croup

102. Rabies Rhabdovirus family bullet-shaped virions enveloped
slow, progressive zoonotic disease
Highest mortality rate of any human disease

103. Rabies virus enters through bite, grows at trauma site for a week
enters nerve endings & advances toward the ganglia, spinal cord & brain
dumb form of rabies
paralyzed, stuporous
furious form of rabies
agitation, disorientation, seizures, twitching, hydrophobia

104. Rabies often diagnosed at autopsy treatment
intracellular inclusions (Negri bodies) in nervous tissue
treatment
passive & active postexposure immunization
Days 1, 3, 7, 14, 28, 60

105. Influenza Belongs to the Orthomyxoviridae family
3 distinct influenza virus types: A, B, C
Virus attaches to, and multiplies in, the cells of the respiratory tract
finished viruses are assembled and budded off

106. Influenza It contains two types of spikes Hemagglutin (H)
helps the virion attach and penetrate host cells
Neuraminidase (N)
helps release virions from the host cell after replication and assembly

107. Influenza Type A acute, highly contagious respiratory illness
causes rapid shedding of cells, stripping the respiratory epithelium, severe inflammation
fever, headache, myalgia, pharyngeal pain, shortness of breath, coughing
annual trivalent vaccine
New flu strain evolves every year
requires development of a new vaccine

108. Influenza Type B Type C strikes every year less common than type A
causes a mild respiratory illness
not epidemic

109. Influenza
Complications such as pneumonia or secondary infections occur in:
Infants
Elderly
Immunocompromised people
Guillain-Barré syndrome
occurs when the body damages its own peripheral nerve cells
Reye syndrome
often occurs in children who take aspirin to treat pain and fever

110. Arboviruses viruses that spread by arthropod vectors 400 viruses
mosquitoes, ticks, flies, & gnats
400 viruses

111. The Influence of the Vector
Vectors and viruses tend to be clustered in the tropics and subtropics
many temperate zones have periodic epidemics
life cycles are closely tied to the ecology of the vectors
peak incidence when the arthropod is actively feeding and reproducing
Humans can serve as dead-end, accidental hosts or they can be a maintenance reservoir
Controlling the vector controls the disease

112. Characteristics of Arbovirus Infections
Viral encephalitis
brain, meninges, and spinal cord are involved
convulsions, tremor, paralysis, loss of coordination, memory deficits, changes in speech and personality, coma
survivors may experience permanent brain damage
Treatment is supportive

113. N.A.Viruses Colorado tick fever (CTF)
most common tick-borne viral fever in U.S.
Rocky Mountain states
Western equine encephalitis (WEE)
western U.S. and Canada
extremely dangerous to infants and small children
Eastern equine encephalitis (EEE)
eastern U.S. and Canada

114. N.A. Viruses California encephalitis; 2 different strains:
California strain
western states
little human impact
LaCrosse strain
eastern U.S. and Canada
prevalent cause of viral encephalitis
St. Louis encephalitis (SLE)
most common of all in America
epidemics in midwestern and southern states
inapparent infections are very common

115. N.A. Viruses
West Nile encephalitis
1999
2000
2001

116. Hemorrhagic Fevers Yellow fever eliminated in U.S.
Two patterns of transmission:
urban cycle
humans and mosquitoes
sylvan cycle
forest monkeys and mosquitoes
South America
Acute fever, headache, muscle pain
may progress to oral hemorrhage, nosebleed, vomiting, jaundice, and liver and kidney damage
significant mortality rate

117. Hemorrhagic Fevers Dengue fever flavivirus carried by Aedes mosquito
not in U.S.
usually mild infection
dengue hemorrhagic shock syndrome, breakbone fever
extreme muscle and joint pain
can be fatal

118. Unconventional

119. Unconventional Viruslike Agent
cause spongioform encephalopathies
transmissable, fatal, chronic infections of the nervous system
Creutzfeldt-Jakob Disease (CJD)
New variant CJD
Kuru
caused by prions
infectious proteins

121. Prions proteinaceous infectious particles
misfolded proteins
contain no nucleic acid
Result in amyloid plaques
Extremely resistant to usual sterilization techniques
Cause transmissible spongiform encephalopathies (TSEs) in humans and animals
Neurodegenerative diseases with long incubation periods

122. Prions Variant CJD became apparent in the late 1990’s
after eating meat from cattle afflicted with bovine spongiform encephalopathy (BSE)
Difficult to diagnose
requires examination of biopsied brain or nervous tissue
Prevention relies on avoidance of contaminated tissue
Treatment focuses on easing symptoms

123. New Variant Creutzfeldt-Jakob Disease (vCJD)