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MODES of TRANSMISSION

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Serologies in 28/55 (51%) had 400 titer to Leptospira spp. ... Isolated Leptospira from blood or urine 4 fold rise in titer in acute/convalescent sera ... – PowerPoint PPT presentation

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Title: MODES of TRANSMISSION


1
MODES of TRANSMISSION
  • Arthropod-borne
  • Food-borne
  • Air-borne
  • Direct contact
  • Sexually transmitted
  • Blood-borne
  • Water-borne
  • Animal-borne
  • Soil-borne

2
AGENT
T R A N S M I S S I O N M O D E
Virus Bacteria Fungus
Protozoa Helminth
Direct Sexual Blood Food Air Water Animal
Soil Arthropod

3
AGENT
T R A N S M I S S I O N M O D E
Virus Bacteria Fungus
Protozoa Helminth
Direct Sexual Blood Food Air Water Animal
Soil Arthropod
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WATER-BORNE DISEASES
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Water-borne Transmission
  • May be part of food-borne (e.g. hepatitis A)
  • May be exclusively water-borne (e.g. Naeglaria)
  • May be animal-borne (e.g. tularemia)
  • May be parasitic (e.g. schistosomiasis)
  • May be sapronotic (e.g. algal blooms )

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Water-borne diseases
T R A N S M I S S I O N M O D E
Virus Bacteria Fungus
Protozoa Helminth
Direct Sexual Blood Food Air Water Animal
Soil Arthropod
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Elishas cruse and curse
II King 219 c. 1350 BCE
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London, 1854
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Chicago 1932
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Leyte, Philippines, 1944
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Formosa, 1950
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Worcester, Massachussetts, 1969
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Dade County, Florida, 1974
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Milwaukie, Wisconsin, 1993
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Selected Recent Waterborne Outbreaks
  • Norovirus Vermont 2004
  • Hepatitis E Japan 2003
  • Campylobacter Ontario, Canada 2000
  • E. coli O157 H7 Wyoming 1998
  • Tularemia Louisiana 1997
  • Shigellosis Idaho 1995
  • Toxoplasmosis British Columbia 1995
  • Cholera Burundi 1992-93
  • Cryptosporidiosis New Mexico 1986

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Giardiasis
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Cryptosporidiosis
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Cyclosporidiosis
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Isosporidiosis
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Naegleriasis, Acanthamoebiasis and
Balmuthiasis (Free Living Ameba)
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Schistosomiasis
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Swimmers Itch
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Case Study Nicaragua 1995
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Background
  • October 1995 clinics in Achuapa and El Sauce,
    Nicaragua report an increase in patients with
    febrile illness and headache, musculoskeletal
    pain, hemorrhagic manifestations, and shock WITH
  • - 12 deaths due to pulmonary hemorrhage
  • Recent heavy rainfall had been noted with an
    increase in mosquito rodent populations

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Questions
  • How does one confirm that this is an outbreak?
  • What might be the cause(s) be ?
  • How extensive is the problem?
  • What puts certain individuals at risk?
  • Is anything facilitating transmission? (if the
    epidemic was due to an infectious agent(s)
  • What prevention/control measures are recommended?

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Objectives
  • Identify etiologic agent(s)
  • Determine scope of outbreak
  • Identify risk factor(s) and develop a case
    definition
  • Identify potential vector/reservoir
  • Estimate seroprevalence in epidemic area
  • Make recommendations

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Objectives
  • Identify etiologic agent(s)
  • Determine scope of outbreak
  • Identify risk factor(s) and develop case
    definition
  • Identify potential vector/reservoir
  • Estimate seroprevalence in epidemic area
  • Make recommendations

46
Questions
  • What is a good syndrome of signs symptoms?
  • Consider possible causes?
  • - what is the differential diagnosis
  • What should be the initial approach to determine
    cause(s)?

47
Differential Diagnosis Considerations
  • Dengue, DHF, DSS
  • Hantavirus
  • New World arenavirus
  • LCM virus
  • Bunyavirus
  • Filovirus
  • Togavirus
  • Rickettsiae spp.
  • Ehrilichia chaffeensis
  • Coxiella burnetti

48
Identifying the etiologic agent
  • 55 case-patients suspected of having dengue
  • Serum specimens had been submitted to CDC
  • Post-mortem tissue specimen(s) available from
  • 4 fatal case-patients for immunohistochemistry
    (IHC) evaluation

49
Identifying etiologic agent Results
  • Leptospira spp. identified in 3 of 4 specimens
  • Serologies in 28/55 (51) had gt 400 titer to
    Leptospira spp.
  • 13/14 post-mortem tissue specimens were positive
    for Leptospira spp.)

50
Leptospirosis
(Weil disease, Canicola fever, Hemorrhagic
jaundice, Mud fever, Swineherd disease)
AGENT Leptospira interrogans
51
Leptospirosis
  • History Long identified in certain risk
    groups
  • Agent 23 serogroups with gt 200 serovars

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Leptospirosis
  • History Long identified in certain risk
    groups
  • Agent 23 serogroups with gt 200 serovars
  • Reservoir Domestic and wild mammals esp. rats

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Leptospirosis
  • History Long identified in certain risk
    groups
  • Agent 23 serogroups with gt 200 serovars
  • Reservoir Domestic and wild mammals esp. rats
  • Host Humans and mammals

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LEPTOSPIROSIS CLINICAL PRESENTATION
  • Incubation period 4-49 days
  • Sign Symptoms Fever, headache, chills,
    myalgia, rash, conjunctivitis.
  • Complications Meningitis, hepatitis, anemia,
    hepatorenal syndrome, cardio- pulmonary
    involvement
  • Mortality rate 1-20

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Clinical Presentations of Leptospirosis
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Leptospirosis
  • History Long identified in certain risk
    groups
  • Agent 23 serogroups with gt 200 serovars
  • Reservoir Domestic and wild mammals esp.
    rats
  • Host Humans and mammals
  • Distribution Worldwide
  • Diagnosis ELISA culture serology
  • Treatment Penicillins and tetracyclines

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Objectives
  • Identify etiologic agent(s)
  • Determine scope of outbreak
  • Identify risk factor(s) and develop a case
    definition
  • Identify potential vector/reservoir
  • Estimate seroprevalence in the epidemic area
  • Make recommendations

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Questions
  • What kind of sampling is appropriate?
  • Should clinic records be reviewed?
  • What should be the screening criteria?
  • What time period should be covered?
  • Is mortality data available for deaths in the
    area?
  • What regional population data are available?
  • What are the demographic characteristics?

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Determine serovar strain case findings
  • Active clinic-based surveillance from Achuapa
    El Sauce clinics and the nearby Leon Hospital
  • Blood/urine specimens taken from acutely ill
    cases with fever and chills AND 3 of the
    following
  • - Headache, musculoskeletal pain, abdominal pain,
    nausea, vomiting, retro-orbital pain, hemorrhagic
    manifestations, dyspnea, respiratory failure,
    thrombocytopenia

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Determine scope of outbreak
  • Review of 37,030 clinic records
  • 2,259 people presented with a non-malarial
    febrile illness from Oct. 1 Nov. 30
  • Cumulative incidence 2,259/37,030 6.1
  • Age-specific incidence rates calculated
  • Ages 1-14 were most affected (7.8)
  • Males and females equally affected

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Non-malarial febrile illnesses
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Age-specific non-malaria febrile illnesses
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Determine scope of outbreak
  • Mortality data
  • 15/2,259 (0.7) pulmonary hemorrhage deaths from
    the areas of study
  • A total of 48 (15 33 from other areas)
    hemorrhagic deaths from nearby towns and
    Managua from Oct. 12 to Nov. 19

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Objectives
  • Identify etiologic agent(s)
  • Determine scope of outbreak
  • Identify risk factor(s) and develop case
    definition
  • Identify potential vector/reservoir
  • Estimate seroprevalence in the epidemic area
  • Make recommendations

68
Questions
  • What kind of study design is appropriate?
  • How do you develop a case definition?
  • Should there be a comparison group (controls)?
  • How do you collect the relevant data?

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Identify risk factor(s) of illness
  • Case-control study was conducted
  • - Cases from urban El Sauce Achapua, La Calera
    (rural district with highest incidence), and
    all fatal cases
  • - Controls ONE per case patient selected
    randomly from the same town/district matched by
    AGE group

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Epi Case Definition
  • In a hospitalized patient, presence of
  • 1) fever, headache, and either chills or
    musculoskeletal pain
  • AND
  • 2) abdominal pain, respiratory distress,
    hemorrhagic manifestations, or hypotension
  • AND
  • 3) a negative malaria smear

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Symptom or Signs in case patients
(a 11 patients died)
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Lab Case Definitions
  • Confirmed
  • Isolated Leptospira from blood or urine
  • gt 4 fold rise in titer in acute/convalescent
    sera
  • Leptospira found in post-mortem tissue by IHC
  • Probable
  • Titer of gt 400 to one or more serovars
  • Negative
  • Titer lt400 to all serovars

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Questionnaire
  • Questions on travel, daily activities,
    environment exposures, food history, pre-existing
    medical conditions, animal exposures
  • The questionnaire was administered to both
    cases/controls

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Risk factors
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Lab Results
  • Case patients (n 51)
  • Lab specimens from 39 (76) 34 serum specimens
    (17 paired 17 single) and 5 post-mortem tissue
  • 14 lab confirmed, 12 probable, 13 negative
  • Controls (n 51)
  • Lab specimens from 47 (92) 36 (71)
    seronegative and 11 (22) gt 400

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Objectives
  • Identify etiologic agent(s)
  • Determine scope of outbreak
  • Identify risk factor(s) of illness
  • Case definition
  • Identify potential vector/reservoir
  • Estimate seroprevalence (epidemic area)
  • Make recommendations

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Questions
  • What could be done to identify vector(s)?
  • What animals are in the area?
  • What is the prevalence of Leptospira spp. among
    local animals?

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Identify potential vector/reservoir
  • Mosquitoes
  • Entomologic surveys were conducted
  • Resting mosquito collections were obtained
  • Light and CO2 traps were placed indoors /
    outdoors, and in both rural and urban areas
  • NO Aedes aegypti collected

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Lab evidence of leptospirosis
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Objectives
  • Identify etiologic agent(s)
  • Determine scope of outbreak
  • Identify risk factor(s) of illness
  • Case definition
  • Identify potential vector/reservoir
  • Estimate seroprevalence (epidemic area)
  • Make recommendations

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Estimate seroprevalence
  • 204 serum obtained from household contacts
  • 72/204 had titers gt 400 to one or more serovars
    and not more likely than controls to have titers
    gt 400 to Leptospira spp.
  • Prevalence of febrile illnesses 14 100 in
    October
  • Other survey results pending

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Objectives
  • Identify etiologic agent(s)
  • Determine scope of outbreak
  • Identify risk factor(s) of illness
  • Case definition
  • Identify potential vector/reservoir
  • Estimate seroprevalence (epidemic area)
  • Make recommendations

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Questions
  • Do findings support identified causes for which
    recommendations are needed?
  • How can laboratory components be improved?
  • What public education (including healthcare
    workers) measures should be taken?

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Summary of findings
  • There was a major outbreak of leptospirosis
    resulting in a pulmonary hemorrhage syndrome
    (associated with deaths)
  • Previous heavy rainfall and flooding were
    important contributors
  • Potential animal reservoirs (dog urine) can
    become an important source of infection

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Make recommendations
  • Increase MD awareness of leptospirosis as part of
    differential diagnosis in areas endemic for
    malaria, dengue and typhoid fever
  • Early Rx with penicillin may be curative
  • People living in at-risk areas should reduce
    exposure by avoiding contact with potentially
    contaminated water wearing protective
    boots/clothing
  • Ensure proper specimen collection, transportation
    and testing at centralized reference laboratory

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Leptospirosis Diagnosis
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Leptospirosis
  • History Long identified in certain risk
    groups
  • Agent 23 serogroups with gt 200 serovars
  • Reservoir Domestic and wild mammals esp. rats
  • Host Humans and mammals
  • Distribution Worldwide
  • Diagnosis ELISA culture serology
  • Treatment Penicillins and tetracyclines

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ALMOST THE END
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Water-borne disease Considerations in Virginia
  • Flooding
  • Well water contamination
  • Recreational sports and activities
  • Fresh water temperatures gt85
  • Wild and domestic animal reservoirs
  • Environmental incursions
  • Importation of fruits and vegetables
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