Title: SARS: An Emerging Infectious Disease
1SARS An Emerging Infectious Disease
- June 11, 2003
- Edward L. Goodman, MD
2Emerging Infectious DiseasesInstitute of
Medicine Definition
- New, reemerging or drug-resistant infections
whose incidence in humans has increased within
the past two decades.
3Major Factors Contributing to EID
- Human demographics and behavior
- Technology and industry
- Economic development and land use
- International travel and commerce
- Microbial adaptation and change
- Breakdown of public health measures
4Emerging Infectious Diseases USA 1996 - 2003
- Ebola in non human primates, Texas
- Racoon rabies, Ohio
- Cyclospora gastroenteritis, multiple states
- Non imported Malaria, Georgia and Florida
- E coli 0157H7 in apple juice, multiple states
- West Nile Virus 1999, NY and now nationwide
- Anthrax 2001 Fla., NYC, DC, NJ
- Monkeypox Prairie Dogs to Humans 2003 Wisc
5Goals of todays presentation
- Show the power of epidemiology
- Case definition/revisions
- Descriptive epidemiology
- Geographic Variation
- Clinical findings
- Infection Control Recommendations
- Even before knowing an etiology
- Show the extent of modern microbiology
- Virology
- Gene detection technology
- Serology
6Epidemiology
- The science of studying diseases in populations
- Examples
- Cholesterol and CAD
- Smoking and lung cancer
- Tampons and TSS before Staph identified
- Defined risk groups for AIDS before HIV
identified - Draws conclusions on transmission and control
even when etiology not known
7Epidemiologic Investigation of an Apparent
Outbreak
- Preliminary Case Definition
- Compare Features of Cases to Non-cases
- Refine Case Definition
- Case-control studies
- Refine Case Definition multiple times
- Investigate Etiology in refined definition group
- Define Clinical Features
- comparing proven to unproven cases
8Case Report
9Radiology of typical caseLee NEJM 4/7/04
10Initial signs of a worldwide outbreak
- February 11, 2003
- Respiratory illness in Guangdong province, China
- 305 cases, 5 deaths since November 16, 2002
- February 26March 12, 2003
- Disease spreads to large number of health care
workers in Hong Kong and Vietnam - March 12, 2003
- Global alert for Severe Acute Respiratory
Syndrome (SARS) - CDC offers assistance to the WHO
11Preliminary Case DefinitionMarch 19, 2003
12Epidemics Within Epidemics
- HIV
- Predominantly MSM/IVDU in US and Europe
- Predominantly heterosexual in Africa
- Lyme Borreliosis
- Predominantly joint disease in US
- Disproportionately CNS disease in Europe
13Epidemics within Epidemics
- SARS
- Asia and Canada
- Healthcare Workers and families
- USA
- Mostly imported from Asia
- Little transmission
14The Hong Kong connectionHotel M
February
March
A B C D E F G H I J K L M
Onset of symptoms
Stayed at Hotel M
15The Hong Kong connectionHotel M
February
March
A B C D E F G H I J K L M
Onset of symptoms
Stayed at Hotel M
16The Hong Kong connectionHotel M
February
March
A B C D E F G H I J K L M
Onset of symptoms
Stayed at Hotel M
17Spread from Hotel M Reported as of March 28, 2003
Guangdong Province, China
A
A
Hotel MHong Kong
18Epidemic Curve Hong Kong
19Clinical Features Hong Kong
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21Estimated Mortality Hong Kong
- Patients lt 60 years old 13.2 (9.8-16.8)
- Patients gt 60 years old 43.3 (35.2-52.4)
- By comparison, the mortality from Influenza in
1918 was 1! - Lancet on line. May 7, 2003
22SARS in CanadaPoutenan et al. NEJM May 15, 2003
23Timeline linked Candadian cases
24SARS in Greater Toronto AreaJAMA June 4, 2003
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31Epidemic Curve Worldwide
32Epidemic Curve USA May 30363 cases
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36CDC Update June 4, 2003
- WHO reports 8402 cases from 29 countries
- November 1, 2002 June 4, 2003
- 772 deaths (9.2 CFR)
- US and PR Cases 373, no deaths
- 67 probable, 306 suspect
- 65/67 attributed to international travel
- One each HCW and household contact
37Clinical Characteristics of Suspect SARS Cases
United States, 2003
Characteristics N100 Median Fever
( Range) 101.60F (100.4-104.50F) Cough 94
Shortness of Breath 40 Documented
Pneumonia 29 Hospitalized gt24
hours 39 Acute Respiratory Distress
Syndrome 1 Ventilated 1
Died 0
Denominators may vary due to missing information
38Finding the Pathogen
- Pathology
- Virology
- Gene detection
- Classification
- Diagnostics
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41What are Coronaviruses?
- Taxonomy
- Order Nidovirales
- Family Coronaviridiae
- Genus Coronavirus
- Structure large, enveloped, positive-stranded
RNA - Genome 30,000 nucleotides, the largest of any
RNA virus
42Structure
43More than you want to know!
- Group 1 and 2 are mammalian
- Group 3 are avian
- Major veterinarian pathogens
- Infectious bronchitis virus
- Feline infectious peritonitis virus
- Transmissible gastroenteritis virus
44Enough already!
- Human coronavirus infections
- Group 1 and 2
- 30 of common cold viruses
- SARS human coronavirus (SARS-CoV)
- Urbani strain, named after Italian physician who
succumbed to this virus - Distinct from other CoV
45Relatedness to other Coronaviruses
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48Clinical Aspects of Severe Acute Respiratory
Syndrome (SARS)
- Incubation period 2-10 days
- Onset of fever, chills/rigors, headache,
myalgias, malaise - Respiratory symptoms often begin 3-7 days after
symptom onset
49Symptoms Commonly Reported By Patients with
SARS1-5
- Symptom Range ()
- Fever 100
- Cough 57-100
- Dyspnea 20-100
- Chills/Rigor 73-90
- Myalgias 20-83
- Headache 20-70
- Diarrhea 10-67
-
1. Unpublished data, CDC. 2. Poutanen SM, et al.
NEJM 3/31/03. 3. Tsang KW, et al. NEJM. 3/31/03
4. Peiris JSM, et al. Lancet 4/8/03 5. Lee N. et
al NEJM 4/7/03
50Symptoms Reported by Patients With Diagnostic
SARS-CoV Laboratory Testing, United States, 2003
Symptom Coronavirus Positive (n6) Coronavirus Negative (n28)
Fever 100 96
Cough 100 93
Dyspnea 100 61
Myalgias 83 75
Chills/Rigor 83 68
Headache 67 68
Diarrhea 67 25
Coryza 17 43
Sore Throat 17 43
p.07
51Common Clinical Findings in Patients with SARS1-5
Finding Range ()
Examination Rales/Rhonci Hypoxia 38-90 60-83
Laboratory Leukopenia Lymphopenia Low platelet Increased ALT Increased LDH Increased CPK 17-34 54-89 17-45 23-78 70-94 26-56
1. Unpublished data, CDC. 2. Booth CM, et al.
JAMA 5/6/03. 3. Tsang KW, et al. NEJM. 3/31/03
4. Peiris JSM, et al. Lancet 4/8/03 5. Lee N. et
al NEJM 4/7/03
52Clinical Findings in Patients With Diagnostic
SARS-CoV Laboratory Testing, United States, 2003
Symptom Coronavirus Positive (n6) Coronavirus Negative (n28)
Examination Rales/rhonci 83 23
Hypoxia 83 29
Infiltrates 100 30
Laboratory Leukopenia 17 5
Lymphopenia 83 53
Low platelets 17 5
Increased ALT 60 17
plt.05
53Radiographic Features of SARS
- Infiltrates present on chest radiographs in gt
80 of cases - Infiltrates
- initially focal in 50-75
- interstitial
- Most progress to involve multiple lobes,
bilateral involvement
54Lee N. et al NEJM 4/7/03
55Lee N. et al NEJM 4/7/03
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58Clinical Outcome of Patients with SARS, 2003
n Progression to Resp. Failure ()
U.S.1 6 17
Canada2 144 14
Hong Kong3 10 20
Hong Kong4 50 38
Hong Kong5 138 14
Singapore1 178 12
1. Unpublished data, CDC. 2. Booth CM SM, et al.
JAMA 5/6/03. 3. Tsang KW, et al. NEJM. 3/31/03 4.
Peiris JSM, et al. Lancet 4/8/03 5. Lee N. et al
NEJM 4/7/03
59Clinical Outcome of Probable SARS Cases, 2003
n Case Fatality Proportion()
U.S. 65 0
Canada 146 15
Hong Kong 1654 12
Singapore 178 13
http//www.who.int/csr/sarscountry/2003_05_07/en
/
60Clinical Features Associated with Severe Disease
- Older Age
- Underlying illness
- ? Lactate dehydrogenase levels
- ? Severe lymphopenia
61Transmission
- Probable major modes of transmission
- Large droplet aerosolization
- Contact
- Direct
- Fomite
- Airborne transmission cannot be ruled out
- ? Role of aerosol-generating procedures
- ? Fecal-oral
- Transmission efficiency may vary among individuals
62SARS Virus Survival
- Survive on plastic surfaces up to 48 hours
- Survival in feces 2 days (solid) 4 days
(loose) - Survival in urine at least 24 hours
- Source WHO May 5, 2003
63Diagnostic Approach to Patients with Possible SARS
- Consider other etiologies
- Diagnostic workup
- Chest radiograph
- Blood and sputum cultures
- Pulse oximetry
- Testing for other viral pathogens (e.g.
influenza) - Consider urinary antigen testing for Legionella
spp. and Streptococcus pneumoniae
64Diagnostic Approach to Patients with Possible SARS
- Diagnostic workup (continued)
- Save clinical specimens for possible additional
testing - Respiratory
- Blood
- Serum
- Acute and convalescent sera (gt21 days from
symptom onset) should be collected - Contact Local and State Health Departments for
SARS-CoV testing
65Treatment of Patients with SARS
- Most effective therapy remains unknown
- Optimize supportive care
- Treat for other potential causes of
community-acquired pneumonia of unknown etiology
66Treatment of Patients with SARS
- Potential Therapies Requiring Further
Investigation - Ribavirin
- ?other antiviral agents
- Immunomodulatory agents
- Corticosteroids
- Interferons
- Others?
67Infection Control
- Early recognition and isolation is key
- Heightened suspicion
- Triage procedures
- Transmission may occur during the early
symptomatic phase - Potentially before both fever and respiratory
symptoms develop
68Infection Control
- Isolation
- Hand hygiene
- Contact Precautions (gloves, gown)
- Eye protection
- Environmental cleaning
- Airborne Precautions (N-95 respirator, negative
pressure)
69Why Such Variation in Epidemiology and Outcome?
- Viral variation?
- Genetic host susceptibility?
- Prevalence of smoking?
- In adequate Infection Control Measures?
70Isolation
- Major thrust of Infection Control at PHD
- Constant education
- Intranet updates
- Constant surveillance
- Categories
- Standard Precautions
- Airborne
- Respiratory
- Contact
71Standard Precautions
- Default category
- All patients assumed to have a blood borne
pathogen - Gloves for contact with body fluids, excretions
- No special signs or equipment except gloves
available
72Airborne Precautions
- Droplet nuclei travel long distances
- Proper size to be deposited in alveoli
- Tuberculosis, Varicella or disseminated Zoster,
Smallpox and now SARS (4/03) - Negative pressure rooms
- N 95 respiratory masks for HCW
- Fit tested to each individual
- Standard surgical masks for patients when out of
room
73Respiratory
- Larger particles travel short distance
- Trapped in upper airway, mucociliary defense
- Meningococci, Mycoplasma, Measles
- Standard surgical masks
- Regular rooms
74Contact Isolation
- Draining wounds not covered by dressings
- Environmentally stable organisms
- Clostridum difficile (spores)
- VRE
- Multi-drug resistant bacteria
- MRSA
- VRE environmentally stable
- ESBL producing GNR
- Epidemiologically important apparent clusters
- Group A Strept infections (Clinical Inf Dis Dec
2002)
75Contact - continued
- Components
- Gloves upon entering room
- Hand washing prior to leaving room
- Gowns for
- Contact with excreta/secretions
- Environmentally stable (VRE, C. diff.)
- Many institutions require gowns for all Contact
Isolation - Computerized tracking for future readmissions
76Infection Control
77Outpatient Infection Control
78Home Measures
79A Word About Quarantine
- Complex legal process
- Poorly understood by lay public
- Rarely invoked
- Hard to enforce
80Every medication has 2 effects. . .
- The one you dont want
- The one you want
81Quarantine/Isolation
Individual liberties Economic loss Social
isolation Social Stigma
Limit transmission
82Quarantine/Isolation unintended consequences?
Limiting transmission
Maintaining transmission e.g., HIV, leprosy
83EXECUTIVE ORDER 13295 REVISED LIST OF
QUARANTINABLE COMMUNICABLE DISEASES
- Cholera Diphtheria infectious Tuberculosis
Plague Smallpox Yellow Fever and Viral
Hemorrhagic Fevers - (Lassa, Marburg, Ebola, Crimean-Congo, South
American, - and others not yet isolated or named).
- (b) Severe Acute Respiratory Syndrome (SARS),
which is a disease associated with fever and
signs and symptoms of pneumonia or other
respiratory illness, is transmitted from person
to person predominantly by the aerosolized or
droplet route, and, if spread in the population,
would have severe public health consequences.
President George W. Bush April 4, 2003
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85What Next
- Rapid Diagnostic Tests (at present only at CDC)
- Antigen detection
- Gene detection PCR
- Serology (ELISA and IFA)
- Seroepidemiology
- Prevalence of antibody in healthy persons 0
- Is there asymptomatic seroconversion?
- Does antibody confer immunity?
86What Next?
- Expect epidemic curve to peak and die out
- Warmer weather should reduce transmission
- Fewer susceptibles in community
- Likely another epidemic in 2004
- Since genome sequenced
- Expect progress on determining protective
epitopes, thus leading to - Candidate Vaccine trials
87Therapy
- Supportive
- Antimicrobial
- Treat treatable causes of CAP
- IDSA 2000 Guidelines
- Broaden the diagnostic work up of suspect cases
- No proven effective anti-viral therapy
- Ribavirin used in uncontrolled studies
- Steroids used in uncontrolled studies
88Summary
89In Memory
90Bibliography
- http//www.cdc.gov/ncidod/sars/
- http//www.who.int/csr
- Donnelly CA et al. Epidemiological determinants
of spread of causal agent of SARS in Hong Kong. - Lancet on line May 7, 2003
- Ksiazek T. G. et al. A Novel Coronavirus
Associated with Severe Acute Respiratory
Syndrome. NEJM 2003 www.nejm.org. Apr 10, 2003 -
91- Lee N. et al. A Major Outbreak of Severe Acute
Respiratory Syndrome in Hong Kong. N Engl J Med
2003 published at www.nejm.org on Apr 7, 2003 - Rota PA, Oberste MS et al.Characterization of a
Novel Coronavirus Associated with Severe Acute
Respiratory Syndrome. Science Online 30 April
2003. - Seto W H, D Tsang et al. Effectiveness of
precautions against droplets and contact in
prevention of nosocomial transmission of severe
acute respiratory syndrome (SARS). Lancet
20033611519-20.