Title: Laboratory Diagnosis: An Overview
1Laboratory Diagnosis An Overview
2Goals
- Provide an overview of pathogens tested in public
health laboratories - Describe laboratory tests commonly used in
outbreak investigations
3A Review of Specimens
- Laboratory staff analyze specimen to determine
presence or absence of suspected pathogens - Specimens can tell us
- Whether different individuals are infected with
the same pathogen - Whether a particular source is causing an outbreak
4A Review of Specimens
- Environmental samples include
- food (items suspected in a foodborne outbreak)
- water (from a lake, water supply, or drinking
fountain) - surfaces (medical equipment, countertops, etc.)
5A Review of Specimens
- Proper specimen collection is important (see
FOCUS Volume 4, Issue 2) - Right sample must be collected
- Collected in proper medium for survival
- Transported within proper time frame and
temperature - Accompanied by appropriate information
6Microorganisms
- Bacteria single-celled organisms
- Examples Salmonella, Streptococcus (strep),
Staphylococcus (staph), Escherichia Coli (E.
coli) - Viruses DNA (or RNA) surrounded by protective
coat of proteins - Examples Influenza, HIV, West Nile, Noroviruses,
common cold viruses (Coronavirus, Rhinovirus) - Other pathogens toxins produced by bacteria,
parasites, fungi, chemicals
7Why is Lab Diagnosis Necessary?
- Lab identification of the agent is crucial
- Because diagnosis should not be based on clinical
symptoms alone - Many agents cause similar symptoms
- Clinical symptoms may be unclear or too general
- Physicians might not recognize a rare disease
- To connect individual cases in outbreak
- To ensure proper medical treatment for patients
- Norovirus and Shigella infections cause same
symptoms Norovirus treatment is symptomatic
relief Shigella can be treated with
antibiotic
8Why is Lab Diagnosis Necessary?
- Sometimes necessary to conduct further studies to
determine specific strain or serotype a.k.a.
subtyping - Dozens of strains of Noroviruses (e.g., including
Hawaii virus, Snow Mountain virus, Desert Shield
virus, Toronto virus) if people infected with a
Norovirus have different strains, the infections
are unrelated
9Why is Lab Diagnosis Necessary?
- To help identify outbreaks across state lines
- 2006 CDC officials notified of several small
clusters of E. coli 0157H7 infections in
Wisconsin and Oregon, with fresh spinach
implicated as the probable source. The same day,
New Mexico epidemiologists contacted Wisconsin
and Oregon epidemiologists regarding similar
cluster of infections. CDCs PulseNet confirmed
through laboratory testing that E. coli O157H7
strains from infected patients in Wisconsin had
same PFGE pattern and identified that pattern in
patients from several other states.
10Laboratory Diagnosis and Surveillance Programs
- Council of State and Territorial Epidemiologists
and CDC recommend surveillance for list of
pathogens - Each state decides which pathogens healthcare
providers and laboratories must report - Lab reports to the state health department using
disease reporting system - Guidelines specify which identification methods
are used to ensure that only confirmed cases are
reported - State lab responsible for identification when
local labs do not have necessary expertise - State lab has final responsibility for reporting
cases to state health department - If identification not possible at the state
level, CDC may be asked to help
11Pathogen Identification and Typing
- Method depends on the type of organism
- Some methods are well established for particular
organisms - Guidelines exist for identifying the organism
12Pathogen Identification and Typing
13Pathogen Identification and Typing
14Microscopy
- Useful for larger organisms such as bacteria or
fungi - For standard optical or light microscope
- Small part of specimen smeared onto glass slide
- Stains applied to help identify cells and
substances within the specimen - When using Gram stain, Gram-positive bacteria
have a cell wall that will stain purple while
Gram-negative bacteria stain as red
15Microscopy
- Common bacteria shapes
- Round (cocci)
- Rod-shaped (bacilli)
- Bacteria can cluster in pairs, chains, other
arrangements - E. coli is a Gram-negative rod
- S. pneumoniae or pneumococcus is a Gram-positive
diplococcus, a round bacterium that clusters in
pairs - Shapes and growth patterns also used to identify
fungi and fungal spores
16Microscopy
- Viruses are much smaller than bacteria or fungi,
require a very high degree of magnification - Electron microscope shoots electrons at virus
(like a camera flash shoots light at an object to
capture the image) - Many viruses have a characteristic shape, can be
identified from microscope image
17Culture
- Provide right temperature, moisture, and
nutrients for a pathogen to thrive and replicate,
introduce a sample, wait for growth - Case definition may require a definite case to be
culture confirmed - Outbreak of E. coli O157H7 infections among
Colorado residents in June 2002, part of the case
definition was that specimens taken from patients
were culture-positive for E. coli. Contaminated
beef was implicated and over 350,000 pounds of
beef were recalled - Can increase amount of organism to perform
other types of tests
18Culture
- Bacteria often grown on a Petri dish
- Plate containing growth medium (gelatin-like
substance called agar, nutrients other materials) - Bacteria form distinctive-looking colonies
Culture of Nocardia asteroids, a mycobacterium
commonly found in soils. It causes illness in
people with defects in cellular immunity.
19Culture
- Some bacteria grow inside the culture nutrients
stab culture - Test tube filled with agar and nutrients, sterile
wire is dipped into sample and stabbed into tube
Stab culture of Legionella pnuemophila, the agent
that causes Legionnaires disease. It is found
in aqueous environments.
20Culture
- Viruses need living cells to reproduce, so often
grown in tissue culture derived from growing
cells or tissues. - May be tested by nucleic acid-based methods or
viewed under an electron microscope - June 2003 Multistate monkeypox outbreak, with
monkeypox virus isolated from multiple patients
and cultured. All case patients found to have
links to prairie dogs. Virus from patients grown
in cell culture and confirmed using electron
microscopy.
21Culture
- Different organisms require different conditions
- Not all organisms can be grown in culture other
methods must be used - Requires considerable amount of time to grow
certain organisms, can slow investigation - Pulmonary blastomycosis (fungal infection that
causes severe respiratory symptoms) can require
up to 5 weeks in culture before confirmatory
diagnostic tests can be performed
22Culturing a Clinical Specimen
- A clinical specimen is cultured for
microorganisms known to thrive in the particular
environment and associated with certain clinical
symptoms - Fecal samples in diarrheal illnesses are cultured
for enteric pathogenic bacteria, including
Salmonella serotypes (typhi, enteritidis,
typhimurium, etc.), Shigella, Campylobacter,
Yersinia, Escherichia coli 0157H7, Vibrio - Respiratory samples are cultured for pathogens
such as Streptococcus pneumoniae, Bordetella
pertussis, Haemophilus influenzae, Influenza,
Legionella, mycobacterium - Cervical, vaginal or penile specimens may be
cultured for Neisseria gonorrhoeae, herpes, other
organisms that cause genital
infections
23Serology
- Uses immune response to determine whether a
person has fought off an infection by a
particular pathogen - Compare blood samples taken at the time of
exposure (or shortly thereafter) and weeks later - Looks at antibodies, or immunoglobulins
- If no antibodies are present (or present in early
form) at first blood sample and fully mature
antibodies are present at second sample, person
has been recently exposed - Example syphillis rapid plasma reagin (RPR) test
detects presence of antibodies against
syphilis in a blood sample
24Serology
- Limitations
- Not useful for a rapid intervention
- Often difficult to obtain a blood sample even
once, let alone twice - May be useful
- When pathogen is not easily detected in other
types of samples - When source of exposure has been eliminated with
no remaining sample to test - For research purposes
25Antigen Detection
- Small parts of a viral or bacterial pathogen
- Separate antigens from other material, use
antibodies to find a particular antigen - If antibodies attach to the target antigen,
pathogen has been identified - If the antibodies do not find anything to attach
to, do not know which organism is causing
infection - Many ways antigens can be separated from other
matter in a specimen, many ways antigen test can
be performed
26Phage Typing
- Short for bacteriophage, a virus that infects
bacteria - Each type of phage attacks a particular type of
bacteria - Most often used to identify strains of
Staphylococcus aureus - A known phage mixed with unknown bacterium,
poured onto an agar plate, allowed to grow - If bacteria are correct strain, a plaque will
form - If no plaques, bacteria can be eliminated as
possible pathogen
A gamma phage is used to identify Bacillus
anthracis growing on agar plate. Lawn of
bacteria interrupted where the gamma phage has
attacked the bacteria, causing a plaque, or
hole in the bacterial growth.
27Molecular techniques
- Every pathogen has DNA, RNA, or both
- Can test a sample for presence of a bacteria or
virus by looking for the DNA - Often referred to as molecular methods
- Useful for distinguishing between strains
- Can distinguish between strains of E. coli
normally found in the human gut and a pathogenic
strain causing disease - Identifying exact strain is important for finding
source of an outbreak
28Summary
- This overview of diagnostic techniques can give
you a better sense of what happens once you send
that specimen off to the laboratory - Future issues of FOCUS will delve further into
more advanced laboratory techniques, such as
molecular identification and typing
29Additional Resources
- To see examples of microorganisms that can often
be identified with a Gram stain, go to
http//www.uphs.upenn.edu/bugdrug/
antibiotic_manual/gram.htm and click on Typical
Gram stains. - To see electron micrographs of viruses, go to
http//www.ncbi.nlm.nih.gov/ICTVdb/Images/index.ht
m. - To find information on the diseases most often
tested at public health labs, visit the North
Carolina State Laboratory of Public Health
Microbiology Web site http//204.211.171.13/Micro
biology/default.asp. - To find infectious disease information from the
National Center for Infectious Diseases, go to
http//www.cdc.gov/ncidod/diseases/index.htm. - To use the American Society for Microbiology
Microbe Library, visit http//www.microbelibrary.o
rg.
30References
- Centers for Disease Control and Prevention.
Ongoing multistate outbreak of Escherichia coli
serotype O157H7 infections associated with
consumption of fresh spinach --- United States,
September 2006. MMWR Morb Mort Wkly Rep. 2006
55(Dispatch)1-2. Available at
http//www.cdc.gov/mmwr/preview/mmwrhtml/
mm55d926a1.htm. Accessed December 8, 2006. - Centers for Disease Control and Prevention.
Multistate outbreak of Escherichia coli O157H7
infections associated with eating ground beef ---
United States, June--July 2002. MMWR Morb Mort
Wkly Rep. 200251637639. Available at
http//www.cdc.gov/mmwr/ preview/mmwrhtml/mm5129a1
.htm. Accessed November 30, 2006. - Centers for Disease Control and Prevention.
Multistate outbreak of monkeypox-Illinois,
Indiana, and Wisconsin, 2003. MMWR Morb Mort Wkly
Rep. 200352537-540. Available at
http//www.cdc.gov/ mmwr/PDF/wk/mm5223.pdf.
Accessed November 30, 2006.
31References
- Martynowicz MA, Prakash, UBS. Pulmonary
blastomycosis An appraisal of diagnostic
techniques. Chest. 2002121768-773. - Mayer G. Bacteriology Chapter 7 Bacteriophage.
In University of South Carolina School of
Medicine. Microbiology and Immunology On-line
Internet. September 11, 2003. Available at
http//www.med.sc.edu85/mayer/phage.htm.
Accessed November 30, 2006. - Herwaldt, et al. Microbial Molecular Techniques.
In Epidemiologic Methods for the Study of
Infectious Diseases, JC Thomas, DJ Weber, eds.
Oxford University Press, 2001 163-191.