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Bioterrorism and Natural Outbreaks

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Title: Bioterrorism and Natural Outbreaks


1
Bioterrorism and Natural Outbreaks
Ian Britton - FreeFoto.com
2
What is bioterrorism?
The intentional or threatened use of viruses,
bacteria, fungi, or toxins from living organisms
to produce death or disease in humans, animals,
or plants.
3
What is a Natural Outbreak?
A disease outbreak is the occurrence of disease
cases in excess of normal expectancy. The number
of cases varies according to the disease-causing
agent, and the size and type of previous and
existing exposure to the agent.
4
When does a Natural Outbreak become a
Bioterrorist Attack?
5
Natural Disease vs Bioterrorism
  • Recent endemic exposure
  • Recent travel to endemic area
  • Sporadic, infrequent cases
  • Multiple cases associated with exposure to the
    same food product or water source

6
Natural Disease vs Bioterrorism
  • No known endemic exposure
  • Point source in urban, crowded setting
  • Cluster of severe and fatal illness
  • Cases that dont respond to recommended
    antibiotic treatment

7
Human Salmonella Enteritidis Associated with
Shell Eggs
  • September 7, 2010, a total of 2,612 illnesses
    reported
  • 1,519 illnesses associated with outbreak
  • 11 states
  • 29 restaurants or event clusters
  • 1 egg supplier in 15 of these 29 restaurants or
    event clusters

8
Why Biological Attacks?
  • Easy to obtain
  • Inexpensive to produce
  • Environmental stability
  • Aerosol distribution
  • Delayed recognition/response
  • Perpetrators escape easily
  • Susceptible population

9
The use of biological weapons through history.
  • 400 B.C. Archers dipped arrows into the manure,
    blood and rotting bodies.
  • 14th Century Bodies of bubonic plague victims
    were catapulted over the walls of the city of
    Kaffa.
  • 15th Century Spanish contaminated French wine
    with the blood of leprosy victims.
  • 17th Century A Polish General put saliva from
    rabid dogs into hollow artillery spheres.
  • 18th Century Smallpox blankets were given to
    American Indians.

10
U.S. Biological Warfare Program
  • Geneva Protocol developed in 1925
  • prohibits the use of biological and chemical
    agents during warfare
  • U.S. offensive program in 1942-1969
  • research program tested the use of anthrax,
    botulism, plague, tularemia, Q fever, Venezuelan
    equine encephalitis virus, brucellosis and
    Staphylococcal enterotoxin B.
  • U.S. defensive program in 1969
  • offensive biological weapons production
    terminated in the US and all stockpiles of
    bioweapons destroyed
  • Biological Weapons Convention in 1972
  • Banned the possession of biological agents except
    for defensive research. After signing the
    document, the Soviet Union soon began an
    offensive weapons program.
  • Geneva Convention Ratified in 1975

11
History of Biological Agent Use/Possession in the
U.S.
1972
College students produced 30-40 kg of Salmonella
typhi with plans to release it into the water
supplies of major Midwestern cities.
12
History of Biological Agent Use/Possession in the
U.S.
1984
Members of the Rajneesh cult sprayed Salmonella
on eight local salad bars in Oregon in an attempt
to influence a local election. They caused 715
cases of illness, but didnt alter the election
results.
13
History of Biological Agent Use/Possession in the
U.S.
1992
Members of the Patriots Council plotted to kill
law enforcement officers using ricin placed on
the door knobs of their vehicles. The plot failed
because an informant notified authorities, and
the conspirators were arrested.
14
History of Biological Agent Use/Possession in the
U.S.
1996
A disgruntled med tech brought doughnuts spiked
with Shigella for her co-workers coffee break.
15
History of Biological Agent Use/Possession in the
U.S.
2001
  • Multiple anthrax attacks
  • 22 cases ( 1 lab-acquired case)
  • 11 inhalational cases
  • 11 skin cases
  • 5 deaths

16
Agent Selection Considerations
  • Catastrophic public health consequences
  • Mass casualties which overwhelm medical systems
  • High morbidity or mortality
  • Contagious

17
What are the main bioterrorist weapons?
18
Biological Agents of Highest Concern
  • Bacillus anthracis (Anthrax)
  • Yersinia pestis (Plague)
  • Francisella tularensis (Tularemia)
  • Botulinum toxin (Botulism)
  • Variola major (Smallpox)
  • Filoviruses and Arenaviruses (Viral hemorrhagic
    fevers)

19
Most of the information on what would happen in a
Bioterrorist attack is based on what we know
about the natural disease.
20
Why These Agents?
  • Can cause disease via aerosol route
  • Organisms fairly stable in aerosol
  • Susceptible civilian populations
  • High morbidity and mortality
  • Some with person-to-person transmission
    (smallpox, plague, VHF)
  • Difficult to diagnose and/or treat
  • Previous development for Biological Warfare

21
3 Categories of Bioterrorist Agents
22
Category A
  • Easily transmitted
  • Easily disseminated
  • High mortality rate
  • Potential for major public health impact
  • Can cause public panic and social disruption
  • Requires special action for public health
    preparedness

23
Bacterial Agents - Category A
  • Bacillus anthracis
  • Yersinia pestis
  • Francisella tularensis

24
Category B
  • Moderate morbidity
  • Low mortality
  • Require specific non-standard diagnostic capacity
  • Moderately easy to distribute
  • Requires enhanced disease surveillance

25
Bacterial Agents - Category B
  • Brucellosis - Brucella species
  • Q Fever - Coxiella burnetii
  • Psittacosis - Chlamydia psittaci

26
Bacterial Agents - Category B continued
  • Glanders - Burkholderia mallei
  • Meliodiosis - Burkholderia pseudomallei
  • Typhus fever - Rickettsia prowazekii

27
Bacterial Agents - Category B continued
  • Water Threats
  • Cholera -Vibrio cholerae
  • Cryptosporosis - Cryptosporidium parvum (PROTOZOA)

28
Bacterial Agents - Category B continued
  • Food Safety Threats
  • Escherichia coli O157H7
  • Salmonella serotype Typhimurium
  • Salmonella serotype Enteritidis
  • Shigella sonnei
  • Shigella flexneri, dysenteriae type 1
  • Salmonella Typhi
  • Vibrio cholerae

29
Category C
  • Newly discovered disease
  • Easily obtained
  • Easy to make and distribute
  • Potential for high morbidity and mortality

30
Types of Bioterrorist Events
  • Announced
  • (Overt)
  • Unannounced
  • (Covert)

31
Likely Scenarios
  • Overt threat
  • anthrax letters
  • device, e.g. aerosol bomb, Heating Air
    conditioning systems release
  • Covert release
  • food or water contamination, aerosol release,
    surface contamination, zoonotic attack

32
Covert vs. Overt Event
  • Overt Covert
  • Recognition early delayed
  • Response early delayed
  • Treatment early delayed
  • Responders Traditional Health Care
    FirstResponders Workers

33
Delivery Systems
  • Air
  • aerosol most effective dissemination method
  • droplet size lt 10 µm, 1-5 µm optimal
  • Food
  • Water
  • Skin and mucous membranes

34
Step 1 in Preparing forBioterrorism
35
Recognition of Biological Attack
  • Environmental detection not feasible
  • Onset of symptoms is delayed
  • incubation periods range from days to weeks
  • Symptoms may be nonspecific
  • initial presentation mimics flu
  • Symptoms may be acute
  • incapacitation, paralysis, coma, death

36
Maintain a high level of suspicion in a number of
clinical situations
  1. A rapidly increasing disease incidence in a
    normally healthy population
  2. An epidemic curve that rises and falls during a
    short period of time
  3. An unusual rise in the number of people seeking
    care, especially with fever, respiratory, or
    gastrointestinal complaints
  4. An endemic disease rapidly emerging at an
    uncharacteristic time or in an unusual pattern

37
  1. Lower attack rates among people who have been
    indoors, compared with people who have been
    outdoors
  2. Clusters of patients arriving from a single
    locale
  3. Large numbers of rapidly fatal cases
  4. Patient presenting with a disease that is
    relatively uncommon and has bioterrorism
    potential
  5. Concurrent reports of increased animal deaths
  6. Unusual age distribution
  7. Atypical disease presentations

38
Step 2 in Preparing forBioterrorism
39
Develop and use epidemiological tools
  1. Presence or lack of an appropriate exposure
    history
  2. Travel to a location that has high-consequence
    disease transmission
  3. Pathogens with unusual antimicrobial resistance
  4. Routine surveillance and disease-reporting
    mechanisms

40
American Academy of Family Physician Suggestions
  • Know how to contact local and state health
    departments.
  • Maintain contacts with local health officials.
  • Maintain reference materials on the diagnosis and
    treatment of agents of bioterrorism.

41
  • Develop a bioterrorism response plan for your
    office. Be prepared to use infection control
    practices.
  • Know the requirements for laboratory support.
  • Be aware of proper post-exposure management for
    patients and health care staff.
  • Develop skills in and resources for counseling
    patients to minimize the psychologic consequences.

42
Clinical and microbiological characteristics
Agent Infective dose Incubation period Clinical presentation Case fatality
Bacillus anthracis 800050,000 spores (LD50) 114 days Cutaneous 160 days inhalational -Hemorrhagic pneumonia -Septicemia -Necrotic eschar -Dysentery Untreated inhalational and systemic, 100 Early treatment, 55 untreated cutaneous, 20 with treatment, lt1
Yersinia pestis lt100 organisms 17 days -Buboes -Pneumonia -Septicemisa untreated, 5090 treated, 515
F. tularemia 1050 organisms 114 days -Ulceroglandular -Ooculoglandular -Pneumonia -Septicemia untreated pneumonic and severe systemic disease, 3060 Untreated overall, 515 Treated , lt2
Brucella species 10100 organisms 560 days -Isolated fever -Orchitis -Endocarditis -Osteomyelitis Untreated, lt5
43
Agent Person-person transmission Isolation procedure Biosafety level (BSL) Key microbiologic characteristics for presumptive identification
Bacillus anthracis NO Standard precautions BSL-2 with biosafety cabinet use Large GPR in chains nonhemolytic nonmotile Capsule in primary specimens catalase Sporulates aerobically
Yersinia pestis Yes (high) Droplet precautions - pneumonic disease until patient has received 3 days of treatment BSL-2 with biosafety cabinet use GNR that may have bipolar staining fried egg or hammered copper colonies at 4872 h nonlactose fermenter catalase oxidase-indole-urease negative nonmotile even at 28C
F. tularemia NO Standard precautions BSL-3 Tiny, pleomorphic poorly staining GNCB small gray-white nonhemolytic colonies after 210 days weakly catalase oxidase and urease negative b-lactamase Does not require X or V factor
Brucella species NO Contact isolation if draining lesions present BSL-3 Tiny, pale-staining GNCB small nonhemolytic colonies after 23 days Oxidase-catalase-urease
44
Fear is the enemy.
  • Know which of the biological warfare agents occur
    naturally in your area.
  • If a biological attack is identified, keep a calm
    face.
  • Remind people not to rush to the hospital or
    Doctors office.
  • Help family members understand the facts.
  • Do not let the news media and sensational
    reporting distract from accurate information.

45
Since the 9/11 attacks, the federal government
has spent about 50 billion to improve the way
it detects and responds to biological threats.
But progress has been limited, and some security
experts say the threat is greater than it was.
46
Scenario
  • On April 1, 2009 a 20 year old male student from
    the University of North Carolina comes home to
    visit his family in Cayce.
  • While he is home he develops a fever. This
    rapidly progressed to shortness of breath, chest
    pain, dry cough, headache, chills and rigors,
    generalized body aches (in the low back), head
    cold symtoms, and sore throat
  • On April 5th his mother takes him to the E.R.
    With sever shortness of breath, chest pain and
    dry cough.
  • Findings on clinical examination -
    undifferentiated febrile illness with incipient
    pneumonia, pleuritis, and hilar lymphadenopathy.

47
  • This was 3 days after the NCAA basketball
    tournament sweet 16 in Charlotte.
  • What do you look for? Which organisms could it
    be and what additional information would you
    need? Who do you contact?
  • Unusual respiratory disease in its early stages,
    could be difficult to distinguish from a natural
    outbreak of community-acquired infection,
    especially influenza or various atypical
    pneumonias.

48
  • Tularemia would be expected to have a slower
    progression of illness and a lower case-fatality
    rate than either inhalational plague or anthrax.
  • Plague would most likely progress very rapidly to
    severe pneumonia, with copious watery or purulent
    sputum production, hemoptysis, respiratory
    insufficiency, sepsis, and shock.
  • Inhalational anthrax would be differentiated by
    its characteristic radiological findings of
    prominent symmetric mediastinal widening and
    absence of bronchopneumonia.
  • Anthrax patients would be expected to develop
    fulminating, toxic, and fatal illness despite
    antibiotic treatment.
  • Milder forms of inhalational tularemia could be
    clinically indistinguishable from Q fever
    establishing a diagnosis of either would be
    problematic without reference laboratory testing.
  • Presumptive laboratory diagnoses of plague or
    anthrax would be expected to be made relatively
    quickly, although microbiological confirmation
    could take days. Isolation and identification of
    F tularensis using routine laboratory procedures
    could take several weeks.
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