Laboratory diagnosis of infectious diseases

Question 1

Detection of pathogenic agents:

Answer 1

• Microscopic visualisation of pathogens in clinical material
• Detection of the growth of microorganisms in the laboratory

Question 2

Identification is based on phenotypic characteristics such as:

Answer 2

• fermentation profiles of bacteria
• cytopathic effects in tissue culture for viral agents
• microscopic morphology for fungi or parasites

Question 3

What is the first tool in diagnosing microbial disease?

Answer 3

Microbial cultures

Question 4

What is the sample that is obtained from the patient tested for?

Answer 4

The sample is obtained from the infected individual and tested for the presence of INFECTIOUS AGENT OR MICROBE that is capable of growing in specific media.
- It is critical to isolate the infectious agent in a pure culture containing only the infectious bacteria

Question 5

What is the most common method to isolate individual cells and produce a pure culture?

Answer 5

The most common method to isolate individual cells and produce a pure culture IS TO PREPARE A STREAK PLATE

Question 6

How is the streak plate method done?

Answer 6

• The streak plate method is a way to physically separate the microbial population, and it is done by spreading the inoculate back and forth with an inoculating loop over the solid agar plate.
• Upon incubation, colonies will arise and single cells will have been isolated from the biomass

Question 7

Limitation of the conventional methods:

Answer 7

• lenghty, time consuming
• associated with risk
• culturing of certain organisms like viruses, fungi, or parasites may not be possible
• culture may be negative due to prior antimicrobial therapy
• requires sophisticated labs (impossible in all laboratories e.g. Mycobacteria)

Question 8

The laboratory diagnosis of infection - others:

Answer 8

• Serological identification/immunological identification of Ags or Abs
• Nucleic acid based/Molecular biology techniques

Question 9

The laboratory diagnosis of infection - others - ADVANTAGES:

(- Serological identification/immunological identification of Ags or Abs
- Nucleic acid based/Molecular biology techniques)

Answer 9

• provide early diagnosis
• important for uncultivable organisms in the laboratory
• useful in differential diagnosis of certain disease
• useful to measure the antibody level

Question 10

Biological signal:

Answer 10

signal generated by detection of a material that can be reproducibly differentiated from substances present in the sample

Question 11

Key issue:

Answer 11

are distinguishing it from background noise and translating it into meaningful information

Question 12

Useful materials for detection of biologic signals applicable to clinical microbiology include:

Answer 12

• structural components of bacteria, fungi, and viruses
• specific antigen
• metabolic end products
• unique DNA or RNA base sequences
• enzymes
• toxins or other proteins
• surface polysaccharides

Question 13

What is a detector?

Answer 13

A detector is used to sense a signal and discriminate between that signal and background noise

Question 14

see screenshot

Answer 14

on iPAD

Question 15

Direct detection:

Answer 15

Direct detection refers to detection of pathogens without the use of culture

Question 16

Direct detection examples:

Answer 16

• microscopy and staining
• macroscopy antigen detection
• detection of pathogenic agents by serologic methods

Question 17

Wet mount:

Answer 17

the simplest method of microscopic evaluation

Question 18

What is the simplest method of microscopic evaluation?

Answer 18

wet mount

Question 19

Example 1 of Wet Mount:

Answer 19

CSF examination for the presence of Cryptocosccus neoformans- with India ink

Question 20

Example 2 of Wet Mount:

Answer 20

Wet Mount with dark-field illumination - used to detect spirochetes in genital lesions or Borrelia and Leptospira in blood

Question 21

Stains that are used to see bacteria:

Answer 21

• gram´s stain
• acid-fast stain
• fluorochrome stain
• immunofluorescent stain

Question 22

Gram´s stain:

Answer 22

differentiates between organisms with thick peptidoglycan cell walls (gram-positive), and outer membranes that can be dissolved with alcohol or acetone (gram-negative)

Question 23

Morphology and Gram´s stain characteristics often can be used to categorise stained organisms into groups such as…….

Answer 23

• streptococci
• staphylococci
• clostridia

Question 24

Acid-fast stain:

Answer 24

The acid-fast stain identifies acid-fast bacteria (eg. Mycobacteria) by their retention of carbol fuschin dye after acid/organic solvent disruption

Question 25

Where can we apply acid-fast stain?

Answer 25

The acid-fast stain is applied to sputum, other fluids, and tissue samples when Mycobacterium species are suspected.

Question 26

What is the alternative method for detection of acid-fast bacteria?

Answer 26

auramine-rhodamine fluorescent dye stain

Question 27

Fluorochrome stains example:

Answer 27

Acridine orange

Question 28

Fluorochrome stains:

Answer 28

Fluorochrome stains are used to identify white blood cells, yeast, and bacteria in body fluids.
- Capsular, flagellar or spore stains are used for identification or demonstration of characteristic structures

Question 29

Immunofluorescent stains division:

Answer 29

• direct

- indirect

Question 30

Direct Immunofluorescent stain:

Answer 30

The direct immunofluorescent antibody technique uses antibody coupled to fluorescent compound (eg. Fluorescein) and directed at a specific antigen target to visualise organisms

Question 31

Indirect Immunofluorescent stain:

Answer 31

• The indirect immunofluorescent antibody technique, an unlabeled (target) antibody binds a specific antigen.
• The specimen is then stained with a fluorochrome labeled antibody directed at the target antibody.
• Because each unlabeled target antibody attached to the appropriate antigen has multiple sites for attachment of the second antibody, the visual signal is amplified.

Question 32

Macroscopic antigen detection examples:

Answer 32

• Latex agglutination assays

- EIAs

Question 33

Latex agglutination assays and EIAs:

Answer 33

• Latex agglutination assays and EIAs are rapid and inexpensive methods for identifying organisms, extra cellular toxins, and viral agents by means of protein and polysaccharide antigens.
• Antibodies coupled to a reporter (such as latex particles or an enzyme) are used for detection of antibody-antigen binding reactions.

Question 34

Microscopy and staining examples:

Answer 34

• Fluorochrome stains (eg. Acridine orange)

- Immunofluorescent stains

Question 35

Give example of fluorescent compound:

Answer 35

• Fluorescein

Question 36

What organisms have an outer membranes that can be dissolved with alcohol or acetone?

Answer 36

gram-negative

Question 37

What organisms have thick peptidoglycan cell walls ?

Answer 37

gram-positive

Question 38

Gove example of acid-fast bacteria?

Answer 38

Mycobacteria

Question 39

Serologic method definition:

Answer 39

Measurement of serum antibody provides an indirect marker for past or current infection with a specific pathogens agent.

Question 40

What can we use serological methods for?

Answer 40

Serologic methods can be used to determine whether an individual has protective antibody levels or is infected by a specific pathogen

Question 41

Conventional serological methods:

Answer 41

• Precipitation
• Agglutination
• Haemagglutination
• Haemagglutination inhibition
• Complement fixation test
• Fluorescent antibody test

Question 42

What are Precipitation reactions?

Answer 42

Precipitation reactions are serological assays for the detection of immunoglobulin levels from the serum of a patient with infection.

Question 43

What are Precipitation reactions are based on?

Answer 43

Precipitation reactions are based on the interaction of antibodies and antigens.

Question 44

What are Precipitation reactions are based on - in more detail?

Answer 44

• They are based on two soluble reactants that come together to make one insoluble product, the precipitate.
• These reactions depend on the formation of lattices (cross-links) when antigen and antibody exist in optimal proportions.
• Excess of either component reduces lattice formation and subsequent precipitation.

Question 45

Where are Precipitation assays are performed in?

Answer 45

Precipitation assays are performed in semi-solid media such as agar or agarose where antibodies and antigens can diffuse toward one another and form a visible line of precipitation.

Question 46

There are several precipitation methods applied in the diagnostic laboratory. These include:

Answer 46

• single
• double
• electroimmunodiffusion.

Question 47

What are the most widely used gold standard precipitation methods?

Answer 47

The most widely used gold standard precipitation methods are Ouchterlony test and Mancini test.

Question 48

What are are Ouchterlony test and Mancini test?

Answer 48

The most widely used gold standard precipitation methods are Ouchterlony test and Mancini test.

Question 49

(?) ………Sensitive can detect as little as 1 ug of protein

Answer 49

Eg. VDRL test for syphilis

Question 50

What are Agglutination reactions used for?

Answer 50

Agglutination reactions are used to assess the presence of antibodies in a specimen by mixing it with particulate antigens.

Question 51

What does the Agglutination reactions produce?

Answer 51

Agglutination reactions produce visible aggregates of antibody - antigen complexes when antibodies or antigens are conjugated to a carrier.

Question 52

Describe the carrier used in Agglutination methods:

Answer 52

Carriers used in agglutination methods could be artificial (e.g., latex ) or biological (e.g., erythrocytes ).

Question 53

Give example of artificial carrier used in agglutination method:

Answer 53

latex

Question 54

Give example of biological carrier used in agglutination method:

Answer 54

erythrocytes

Question 55

What happens ion the agglutination test?

Answer 55

Conjugated particles are reacted with patient serum presumably containing antibodies.

Question 56

What is the endpoint of the agglutination test and what do we observe?

Answer 56

The endpoint of the test is the observation of clumps resulting from that antigen- antibody complex formation.

Question 57

What is the quality of the result of the agglutination test determined by?

Answer 57

The quality of the result is determined by the time of incubation with the antibody source, amount and avidity of the antigen conjugated to the carrier, and conditions of the test environment (e.g, pH and protein concentration).

Question 58

Various methods of agglutination are used in diagnostic immunology and these include:

Answer 58

• latex agglutination
• flocculation tests
• direct bacterial agglutination
• hemagglutination.

Question 59

How is it in Latex agglutination?

Answer 59

• In latex agglutination, many antibody molecules are bound to latex beads (particles), which increases the number of antigen-binding sites.
• If an antigen is present in a test specimen, it will bind to the antibody and form visible, cross-linked aggregates.
• Latex agglutination can also be performed with the antigen conjugated to the beads for testing the presence of antibodies in a serum specimen.

Question 60

How is it in Flocculation tests?

Answer 60

Flocculation tests are designed for antibody detection and are based on the interaction of soluble antigens with antibodies, producing a precipitate of fine particles that can be seen with the naked eye.

Question 61

How is the Direct bacterial agglutination?

Answer 61

• Direct bacterial agglutination uses whole pathogens as a source of antigen.
• It measures the antibody level produced by a host infected with that pathogen.
• The binding of antibodies to surface antigens on the bacteria results in visible clumps.

Question 62

How is the Hemagglutination?

Answer 62

Hemagglutination uses erythrocytes as the biological carriers of bacterial antigens, and purified polysaccharides or proteins for determining the presence of corresponding antibodies in a specimen.

Question 63

What is Complement fixation?

Answer 63

Complement fixation is a method that demonstrates antibody presence in patient serum

Question 64

What are the key points in complement fixation?

Answer 64

• Complement fixation method is more demanding than other systems used to detect antibodies and has been replaced by more sensitive techniques.
• Complement fixation requires several elements mixed together in optimum concentrations.
• The indicator system for the complement fixation assay is sheep red blood cells bound to anti-sheep immunoglobulin G.

Question 65

How many complement fixation test consists of?

Answer 65

The complement fixation test consists of two components

Question 66

Did not do slide…but from there I did…until further notice.

Answer 66

23

Question 67

What are Fluorescent antibodies?

Answer 67

Fluorescent antibodies are antibodies that have been tagged with a fluorescent compound to facilitate their detection in the laboratory.

Question 68

Key Points about Fluorescent antibody test:

Answer 68

• Fluorescent labeling of antibodies is used in place of radioisotopes and enzymes to enhance the sensitivity and specificity of immunological tests.
• Fluorescent antibodies can be used to stain proteins from patient serum or tissue sections fixed on a slide or live cells in suspension.
• Fluorescent antibodies can be detected with a fluorescent microscope or a flow cell sorter.

Question 69

What is Enzyme-linked immunosorbent assay (ELISA)?

Answer 69

Enzyme-linked immunosorbent assay (ELISA) is a solid-phase enzyme immunoassay used to detect the presence of a substance in solution.

Question 70

ELISA =

Answer 70

Enzyme-linked immunosorbent assay

Question 71

Is ELISA a quantity or quality technique?

Answer 71

ELISA is a quantitative technique that measures serum concentration of antigens, antibodies, and allergens.

Question 72

What does the standard ELISA test use?

Answer 72

Standard ELISA uses antibody-antigen-antibody trapping principle with the second antibody coupled to an enzyme.
- If the complex is formed, the enzyme converts a clear solution into a colored one that can be measured with a spectrophotometer.

Question 73

What is ELISA performed in?

Answer 73

ELISA is performed in a muti-well microtiter plate.

• In addition to the test solution, standard solutions are added with known antigen concentration.
• These solutions will be used to infer the concentration of the antigen being tested.

Question 74

What is Immunoblot?

Answer 74

Immunoblot is a technique for analyzing proteins via antigen-antibody specific reactions.

Question 75

Give example of Immunoblot:

Answer 75

Western blot analysis

Question 76

What happens in Immunoblot techniques?

Answer 76

In immunoblot techniques such as Western blot analysis, proteins are separated by electrophoresis and transferred onto nitrocellulose sheets, then are identified by their reaction with labeled antibodies.

Question 77

How does the Electrophoresis work?

IMMUNOBLOT TECHNIQUES

Answer 77

Electrophoresis uses an electric current to separate proteins based on their size.
- Big proteins migrate slower and are represented by the highest bands on the blot, while small proteins migrate faster and are indicated by the lowest bands on the blot.

Question 78

Why are Immunoblot assays performed?

Answer 78

Immunoblot assays are usually performed to confirm results obtained by other techniques such as ELISA.

Question 79

What is the most common Identification method?

Answer 79

classic biochemical phenotyping

Question 80

Identification methods include:

Answer 80

classic biochemical phenotyping (most common),
as well as more sophisticated methods such as mass spectrometry, gas chromatography,
and nucleic acid tests.

Question 81

Biochemical phenotyping:

Answer 81

Biochemical phenotyping biochemical tests are also used to help in microbial disease diagnosis.

• They will specifically test for metabolic and enzymatic products that an infectious agent may use.
• Biochemical tests will also test for fermentation products, acids, alcohol or gases that may be products of metabolic pathways.

Question 82

…..

Answer 82

• Many common organisms can be identified on the first day of growth.
• Other organisms particularly gam- negative bacteria, require more extensive testing, either manual or automated.