Lecture 21: Diagnosing Infectious Disease PDF

Summary

This lecture discusses the diagnosis of infectious diseases through various microbiological, immunological, and molecular biological techniques, including immunoassays, immunoprecipitation, agglutination, immunofluorescence, and enzyme-linked immunosorbent assays (ELISA).

Full Transcript

BIOL371: Microbiology

Lecture 21 – Diagnosing infectious
disease

1

Topics of today
1. Microbiology and the healthcare environment
2. Immunological and molecular tools for disease diagnosis

Materials covered:
 Chapter 29.1-29.3, 29.5-29.8
 Figures 29.2-29.4, 29.1-29.15, 29.17-29.21, 29.23-29.25
 Table 29.1, 29.2
2

Microbiology and the healthcare environment

1. The clinical microbiology laboratory
2. Healthcare-associated infections

3

The clinical microbiology laboratory
 Clinical microbiology: a subdiscipline of microbiology focussing on the diagnosis
of infectious diseases by identifying pathogenic microbes and advising medical
providers on treatment
 Standard laboratory practices for handling clinical samples have been established
to minimize the risk of accidental laboratory infections
 Laboratories are classified according to their containment potential, or biosafety
level (BSL), and are designated BSL-1, BSL-2, BSL-3, and BSL-4

4

Working in a Biosafety Level 4 laboratory environment
 BSL-4 is the highest level of biological
containment; only one facility in Canada
(National Microbiology Laboratory, Winnipeg)
 Maximum worker protection and pathogen
containment
 Whole-body sealed suit with an outside air
supply and ventilation system
 Air locks control all access to the laboratory
 All materials leaving the laboratory is
autoclaved or chemically decontaminated

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Microbiology laboratory safety standards
Rule
Restrict access

Implementation
Only laboratory workers and trained support personnel have access.

Practice good personal
hygiene

Eating, drinking, applying cosmetics, and manipulating contact lenses
are forbidden in the laboratory. Hand washing prevents spread of
pathogens.

Use personal protective
equipment (PPE)

Lab coats, gloves, eye protection, and respirators are recommended
or required depending on the pathogens being handled. Face masks
are part of PPE if respirators are not required.

Vaccinate

Personnel must be vaccinated against agents to which they may be
exposed.

Handle specimens safely

Assume all clinical specimens are infectious and handle
appropriately.
After use or exposure, decontaminate specimens, surfaces, and
materials by disinfecting, autoclaving, or incinerating. Wash
healthcare clothing (scrubs) frequently.

Decontaminate

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Healthcare-associated infections
 Nosocomial infection: healthcare-associated infection acquired at a healthcare
facility

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Risk factors for hospital-acquired infections
Risk factor for Hospital-acquired infections Rationale
Patients
Patients are already ill or immunocompromised
Newborn infants and the elderly

Not fully immune competent

Infectious disease patients

Pathogen reservoirs

Patient proximity

Increases cross-infection

Healthcare personnel

Can transfer pathogens between and among
patients; healthcare personnel may be
asymptomatic disease carriers
Breaching the skin barrier can introduce pathogens

Medical procedures (blood draws, etc.)
Surgery

Anti-inflammatory drug Treatment
Antibiotic treatment

Exposes internal organs, may introduce pathogens,
and causes stress, which lowers resistance to
infection
Lower resistance to infection
May select for resistant and opportunistic
pathogens
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Identification of microbial pathogens
 Samples may include blood, urine, feces, sputum, cerebrospinal fluid, or pus
 Identification of pathogens require a combination of microbiological immunological,
and molecular biological techniques

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Immunoassays
 Immunoassays: use antibodies specific for pathogens or their products for in vitro
tests designed to detect specific infectious agents
 If an individual is infected, antibodies to that pathogen should become elevated
 The antibody titre is a quantitative measure of antibody level and is defined as
the highest dilution (lowest concentration) of serum at which an antigenantibody reaction is observed

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Immunoprecipitation
 Precipitation: the interaction of a soluble antibody and soluble antigen to form an
insoluble complex
 The insoluble complex only occurs when antigen and antibody are in
equivalent concentrations

The extent of precipitation is a function
of antigen and antibody concentration.
Inset photo: Precipitation in agarose gel
(immunodiffusion). Well S contains
antibodies to cells of Proteus mirabilis.
Wells A, B, and C contain soluble extracts
of P. mirabilis.

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Agglutination
 Agglutination: the visible clumping of a particulate antigen when mixed with
antibodies specific for the particulate antigen
 Standardized agglutination tests are used to identify blood group antigens, and
many pathogens and pathogen products

Blood type

Percentage of U.S. population

Serum Anti A

Serum Anti B
No aggl

O

48

No aggl

A

32

Aggl

B

16

No aggl

AB

4

Aggl

utination

No aggl

utination

utination

utination

Aggl
Aggl

utination

utination

utination

utination

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Immunoflorescence
 Direct immunofluorescence: the antibody targeted against the surface antigen is
covalently linked to the fluorescent dye
 Indirect immunofluorescence: the presence of a nonfluorescent primary
antibody is detected by a fluorescent secondary antibody directed against the
nonfluorescent antibody

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Applications of immunoflorescence
 If the pathogen contains surface antigens reactive with the antibody, the
pathogen cells fluoresce
 Fluorescent antibodies can be applied directly to infected host tissues, allowing
for rapid diagnosis
 Fluorescent antibodies can be used in the diagnosis of noninfectious diseases;
e.g., malignant cells
Cells of Clostridium septicum
were stained with antibody
conjugated with fluorescein
isothiocyanate (yellow-green).
Cells of C. chauvoei were stained
with antibody conjugated with
rhodamine B (red-orange)

Detection of cells
infected with EpsteinBarr virus using indirect
immunofluorescence.
The green-stained cells
are infected with virus.

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Enzyme-linked immunosorbent assay
 Enzyme immunoassay (EIA) or enzyme-linked immunosorbent assay (ELISA):
 Enzymes covalently bound to antibody molecules to amplify the signals
 Very sensitive immunological assay
 Widely used in clinical diagnosis and research applications

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Major versions of enzyme immunoassays

A, direct. From a solid phase support, black antibodies are connected to
antigens from a patient sample, which are in turn connected to black
antibodies. Enzymes are conjugated to the black antibodies, and there is
color development due to enzyme activity.

B, indirect. Antigens are on a solid phase support. Antibodies from a
patient sample are connected to the antigens, and black antibodies are
connected to the patient sample antibodies. There are enzymes
conjugated to the black antibodies, and color development due to
enzyme activity.
C, sandwich. Antigens are on a solid phase support, connected to
antibodies from a patient sample, which are further connected to
another antigen. Enzymes are conjugated to the antigens and there is
color development due to enzyme activity.
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Rapid tests
 Rapid tests: similar to enzyme immunoassays
 Results in minutes instead of hours
 Generally not as specific or sensitive
 Reagents are absorbed to support
materials
 Body fluid is applied to the support matrix
 Matrix contain soluble antibody (or
antigen depending on the method) A patient specimen containing a mixture of antigens is applied to
conjugated to a coloured molecule the sample well of a support matrix. Capillary action pulls the liquid
sample through the matrix, and specific antigen (if present) binds
(chromophore)
soluble, chromophore-labeled antibodies. The labeled antigen–
antibody complexes diffuse through the matrix and bind a line of
 Matrix also contains a line of fixed
fixed antibodies. A colored line becomes visible as the
antibody which the antigen-antibody concentration of labeled complex builds, indicating a positive test
for the antigen. Unbound labeled antibodies bind a second line of
complexes bind to, detect colour
fixed antibody as a control
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change

Monoclonal antibodies
 An antigen has many epitopes and stimulate the
production of many antibodies (polyclonal antibodies),
some of which may cross-react with other antigens
 Monoclonal antibody: by isolating single clones of B cells
that are fused with cancer cells to make immortalized cell
lines that produce a single type of antibody
 The hybridoma generated can be cultured, passes
through animal as a tumour, stored frozen for later use
 Monoclonal antibodies are increasingly being used in
clinical diagnostics for immunological typing of
bacterial pathogens and as therapeutics

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Nucleic acid hybridization
 Hybridization methods identify specific pathogens in patient samples by using
unique nucleic acid probes to detect pathogen DNA

Membrane filter assay. The
reporter can be a radioisotope,
a fluorescent dye, or an enzyme

Dipstick assay. The capture probe
contains a poly(A) tail that
hybridizes to a poly(T)
oligonucleotide affixed to the
dipstick. Binding of the target
DNA–reporter complex is usually
detected as a visible color change.

Quantitative and reverse transcription PCR
 Presence of amplified gene segment confirms presence of pathogen
 Reverse transcriptase PCR (RT-PCR)
uses pathogen-specific RNA to make c D N A
 Quantitative real-time PCR (qPCR)
uses fluorescently labeled PCR products and gene-specific primers for amplification
results in hours