Diagnostics.pdf

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DIAGNOSTICS
Katelyn Mroczek
[email protected]

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Learning outcomes
Understand the uses of diagnostic tests in microbiology
How the test works
Why it is useful

How to use dichotomous key

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CHARACTERISING
MICROORGANISMS

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Collecting specimens
Aseptic technique must be used
Must have enough sample to culture
Environmental conditions of possible pathogen should be considered
Usually performed with sterile swab
Blood sample
Diagnostic tests:
Specificity – Is the test specific for a certain pathogen?
If so decreases chance of false positives
Sensitivity – How small can the sample size be to be detected?
High sensitively decreases chance of false negatives

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 Culture media
Enrichment culture
Original sample inoculated onto media that supports growth
of many different organisms
Selective media
Uses chemicals and inhibitory compounds to select the
growth of one organisms while inhibit the growth of others
Differential media
Distinguishes between different organism usually based on
metabolism of chemicals and pH indicators
Example: Mannitol salt agar
Selective: Contains higher salt concentration (~7.5%)
selecting for Gram positive bacteria
Differential: Contains mannitol – distinguishes mannitol
fermentation

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https://medizzy.com/user/1604009
Example: Urinary tract
infection
Urine sample taken
Direct microscopy will give idea of
number of bacteria in sample
Cell counting machines
Known volume of sample plated onto
media for viable count (usually 10µl)
108 cells per litre of urine = infection
Can do gram strain directly from sample
E.g. Gram negative rods = Enteric bacteria

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Biochemical tests – Enteric bacteria
MacConkey agar – Differentiates lactose fermenters from non-lactose
fermenters
Selective – Bile salts selects for enteric bacteria
Differential – Lactose and pH indicator

Can then use further biochemical media to identify causative organism
TSIA – Triple sugar iron agar
Urea agar
Citrate
Indole production

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 Shigella

Can use dichotomous key H2S
Salmonella
Urease
Proteus
Interpretation of each
test indicates next ONPG
result to look at Lactose Yersinia
The collective result fermenter
of test will allow
identification of an Enterobacter
organism by giving a Indole
biochemical profile
Urease E.coli
Negative

Positive Klebsiella
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Rapid testing – EnterotubeTM II

Identification of gram negative rods
All media is inoculated simultaneously
After 24 hours can interpret the results
If an organism indicates a positive result
for the test the number is circled
Each section is added up to a single digit
number
Final number or ‘code’ will reveal the
identification of the organism
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 Microscopy – stains
Stain Organism
Gram stain Classifies gram negative and positive
bacteria
Acid-fast stain Mycobacterium, oocysts of some
parasites
Acirdine orange Bacteria and fungi
(Fluorescent)
Calcofluor white Mainly dermatophyte fungi
(Fluorescent)
Wet mount Fungi, parasites (helminths), motile
(unstained) organisms
Wright Parasites in blood, intracellular
stain/Giemsa inclusions,
stain
India ink stain Cryptococcus neoformans
Periodic acid- Fungi and Acanthamoeba
Schiff (PAS) 10
SEROLOGICAL TESTING

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 Serology
Look for antibodies in the patient serum
Can indicates infection with certain pathogen
Immune response produces antibodies against pathogen
antigens
Many different types of serological tests
Precipitation
Agglutination
Immunofluorescence
Immunoblot
Enzyme immunoassays
Rapid immunoassays
https://bio.libretexts.org/Bookshelves/Microbiology/Book%3A_Microbiology_(Boundless)/12%3A_Immunology_Applications/12.2%3A_Im
munoassays_for_Disease/12.2A%3A_Immunoassays_for_Disease

https://www.researchgate.net/publication/320265684_Allergen
Based_Diagnostic_Novel_and_Old_Methodologies_with_New_Approaches/download 12
 Useful for fungal
infections
Precipitation
Precipitation forms when soluble
antibodies and antigens meet to form
insoluble complex or precipitate
Crosslinking of antibodies and antigens
form when there are equal proportions
of each
Performed in semi-solid media either
agar or agarose gel
When antibodies and antigens meet form
a line of precipitation

http://www.biosciencenotes.com/precipitation-test/
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 Useful to detect
bacterial surface
Agglutination antigens

Usually antigens are coupled to latex beads
This solution can be mixed with patient serum (on a slide)
The antibodies in the sample bind to antigen
This is visualised as visible clumping on the slide
If no antibodies present for the specified antigen = uniform suspension no clumping
Can be performed in many ways
In test tubes
Microtiter plates
Glass slides/coated paper slides

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Staphytect test
Antibodies can also be coupled to latex beads
This can be useful in detecting bacterial surface
antigens
Staphytect test uses antibodies to Protein A and
clumping factor
These are found on the cell wall of S. aureus only
Specific for identification of S. aureus
A colony is mixed into the latex bead solution
Clumping = Positive result

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 Immunofluorescence
Using fluorescent antibodies to detect antigens in cells
This technique is readily used for diagnostic and research
purposes
Direct staining method
The antibody itself is tagged with fluorescent dye (fluorophore)
E.g. Fluorescein isothiocyanate (FITC)

Indirect staining method
Primary antibody to target the antigen (non fluorescent)
Secondary antibody to target primary antibody (fluorescent) https://www.biocompare.com/Antibody-Manufacturing/354958-CST-
Immunofluorescence-Validated-Antibodies/

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 Useful to identify
microorganism in
patient sample
Disease diagnosis
Viral pathogens

Madigan, Michael T., et al. Brock Biology of Microorganisms, Global Edition, Pearson Education Limited, 2017. ProQuest Ebook Central,
http://ebookcentral.proquest.com/lib/latrobe/detail.action?docID=5203167.

Visualised using a fluorescent microscope
Fluorophore excited with light at different wavelengths
E.g. Green fluorescent protein (GFP) can be excited by 488 nm laser
line
Can also be applied directly to host tissue
May be able to detect disease before culturing test results come back

https://www.researchgate.net/figure/Green-fluorescent-protein-GFP-tagged-microtubules-GFP-MAP4-in-Arabidopsis-hypocotyl_fig2_280918641 17
 Enzyme immunoassays
Involves an enzyme bound to constant end of
antibody
Variable end of antibody free to bind to antigen

Enzyme will react with certain substrates to
produce a colour reaction
Chromogen = colourless chemical compound that
can be converted by chemical reactions into a
coloured compound
Or link antibody to fluorophore

Direct EIA – Detects antigens (can have low
detection)
Indirect EIA – Detects antibodies
Sandwich EIA – Quantifies antigens (very fast
https://www.memorangapp.com/flashcards/28659/Antibody+Structure/ and accurate)
Antibodies must bind to different sites of
target antigen 18
 Highly sensitive to
Useful to detect antibodies
antibodies to to pathogens in
pathogens in body body fluids
Useful to detect fluids
antigens in a
samples
E.g. viral particles

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Allergen-Based Diagnostic: Novel and Old Methodologies with New Approaches http://dx.doi.org/10.5772/intechopen.69276
 Useful for rapid
Rapid tests – lateral diagnosis of
infectious diseases
flow immunoassay
Rapid identification of diseases
Uses capillary action to pull sample through a matrix
Moves through line of beads (usually latex (blue) or gold
particles (red)) bound with antibodies
Antigen binds with antibody-coated beads
This complex then flows over ‘test’ line with fixed antibodies
against antigen
Retains the beads that have antigen bound

Third line contains fixed antibodies to pick up remaining
antibody bound beads - not antigen

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 Positive result

Negative result

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MOLECULAR METHODS

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PCR
Primers to target
DNA
Cycles make
many copies of
DNA
PCR product run
using agarose gel
electrophoresis
to separate
bands

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 Useful to assess the
abundance of
Quantitative PCR (qPCR) pathogen in a
sample

Thermocycler includes fluorometer to detect fluorescence in real time
Fluorescent probe can be specific for target DNA or non-specific
Specific fluorescent probes
Fluorescent dye linked to DNA probe for specific target
Only fluoresces when double stranded DNA of correct sequence accumulates

Non-specific fluorescent probes
Fluoresce only when bound to dsDNA
Fluorescence increases as more DNA is amplified

Can quantify the amount of target DNA in a sample
Real time fluorescence so no need for gel electrophoresis
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 Useful for the

RT-qPCR detection of RNA
viruses

RNA initial template to create cDNA
RNA degraded
PCR to amplify cDNA
Can use qPCR

Madigan, Michael T., et al. Brock Biology of Microorganisms, Global Edition, Pearson Education
Limited, 2017. ProQuest Ebook Central,
http://ebookcentral.proquest.com/lib/latrobe/detail.action?docID=5203167. 25
Laboratory identification of pathogens

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