Elisa ppt nitub-02
rozentareque
2,741 views
54 slides
Aug 10, 2018
Slide 1 of 54
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
About This Presentation
Elisa
Slide Content
ELISA: General guideline and
troubleshooting
Dr Rosy Sultana MBBS,MPhil
Professor (cc) & Head
Dept of Immunology
Bangladesh University of
Health Sciences (BUHS)
troubleshooting
Dr Rosy Sultana MBBS,MPhil
Professor (cc) & Head
Dept of Immunology
Bangladesh University of
Health Sciences (BUHS)
ELISA
Enzyme
Linked
ImmunoSorbent
Assay
Enzyme
Linked
ImmunoSorbent
Assay
What is ELISA?
Is a popular format of a “wet-lab” type analytical
assay that uses a solid –phase enzyme immunoassay to
detect the presence of an antigen or an antibody in a
liquid sample
Immunological technique: uses antibodies
Qualitative and Quantitative
Very sensitive (0.0001 – 0.001 µg/ml)
Commonly used in medicine and scientific research
Is a popular format of a “wet-lab” type analytical
assay that uses a solid –phase enzyme immunoassay to
detect the presence of an antigen or an antibody in a
liquid sample
Immunological technique: uses antibodies
Qualitative and Quantitative
Very sensitive (0.0001 – 0.001 µg/ml)
Commonly used in medicine and scientific research
History of ELISA
Radioimmunoassay by R Yalow and S Berson in 1960
Antibody linking to enzyme by S Avrameas and GB Pierce
Imunosorbent assay by Wide and Porath in 1966
P Perlmann and E Engvall from Sweden and, A Schuurs
and B van Weemen from Netherlands independently
synthesized their knowledge into methods to perform
ELISA in 1971
Radioimmunoassay by R Yalow and S Berson in 1960
Antibody linking to enzyme by S Avrameas and GB Pierce
Imunosorbent assay by Wide and Porath in 1966
P Perlmann and E Engvall from Sweden and, A Schuurs
and B van Weemen from Netherlands independently
synthesized their knowledge into methods to perform
ELISA in 1971
Basis of ELISA
ELISA is based on specific binding between Antibodies and Antigens
ELISA is based on specific binding between Antibodies and Antigens
ELISA
Antibody
Structure
Light
chain
Heavy
chain
Disulfide
bonds
Antibody
Structure
Light
chain
Heavy
chain
Disulfide
bonds
Basic steps of ELISA
Antigen (solid-phase) is absorbed on to plastic surface
(sorbent).
Antigen is recognised by specific antibody (immuno).
This antibody is recognised by second antibody
(immuno) which has enzyme attached (enzyme-linked).
Substrate reacts with enzyme to produce product,
usually coloured.
Coloured product = measure (assay) of
antigen present
Antigen (solid-phase) is absorbed on to plastic surface
(sorbent).
Antigen is recognised by specific antibody (immuno).
This antibody is recognised by second antibody
(immuno) which has enzyme attached (enzyme-linked).
Substrate reacts with enzyme to produce product,
usually coloured.
Coloured product = measure (assay) of
antigen present
Substrate
Primary
antibody
Enzyme
Secondary
antibody
Coated antigens in Microtiter well
Coloured
product
Primary
antibody
Enzyme
Secondary
antibody
Coated antigens in Microtiter well
Coloured
product
10
General Types of ELISA
Qualitative ELISA
Postive or Negative results
Quantitative ELISA
Optical density or fluorescent units of the sample is
interpolated into a standard curve, which is
typically a serial dilution of the target.
General Types of ELISA
Qualitative ELISA
Postive or Negative results
Quantitative ELISA
Optical density or fluorescent units of the sample is
interpolated into a standard curve, which is
typically a serial dilution of the target.
General principles of ELISA
A Polystyrene microtiter plate is coated with a
constant amount of Ab/Ag
Patient’s serum is then added which may/may not
contain the Ag/Ab of interest
Ag/Ab if present in patient’s serum binds to the
immobilized Ab/Ag in the plate during incubation
The plate is then incubated with an enzyme –labeled
antibody (conjugate)
A Polystyrene microtiter plate is coated with a
constant amount of Ab/Ag
Patient’s serum is then added which may/may not
contain the Ag/Ab of interest
Ag/Ab if present in patient’s serum binds to the
immobilized Ab/Ag in the plate during incubation
The plate is then incubated with an enzyme –labeled
antibody (conjugate)
General principles of ELISA (Cont’d)
The conjugates react with the Ag-Ab complex on the
plate
Between each step the plate is typically washed with a
mild detergent solution (wash buffer) to remove
unbound proteins or antibodies that are not specific.
After final wash step the plate is developed by adding
an enzymatic substrate to generate a visible signal, a
colored reaction product that is measured by a
Spectrophotometric plate reader.
The conjugates react with the Ag-Ab complex on the
plate
Between each step the plate is typically washed with a
mild detergent solution (wash buffer) to remove
unbound proteins or antibodies that are not specific.
After final wash step the plate is developed by adding
an enzymatic substrate to generate a visible signal, a
colored reaction product that is measured by a
Spectrophotometric plate reader.
General guidelines- diagrammatic overview
Antibodies in ELISA
Generally, monoclonal antibodies are used because
they are more specific for a certain epitope than
polyclonal antibodies.
They are originally produced by inducing a humoral
immune response in an animal (eg. Rat or mouse) by
injecting an antigen many times, then cells are
extracted and antibodies are purified.
They can also be extracted from humans who have
been immunized to a certain antigen
Generally, monoclonal antibodies are used because
they are more specific for a certain epitope than
polyclonal antibodies.
They are originally produced by inducing a humoral
immune response in an animal (eg. Rat or mouse) by
injecting an antigen many times, then cells are
extracted and antibodies are purified.
They can also be extracted from humans who have
been immunized to a certain antigen
Enzyme Function
Enzymes are proteins that speed up the rate of a
chemical reaction without being used up and usually
react only to particular substrates.
The rate of this reaction is proportional to the
amount of enzyme present.
In the case of non-competitive ELISA, the more
binding of the enzyme conjugate to the antigen, the
stronger will be the color development.
Enzymes are proteins that speed up the rate of a
chemical reaction without being used up and usually
react only to particular substrates.
The rate of this reaction is proportional to the
amount of enzyme present.
In the case of non-competitive ELISA, the more
binding of the enzyme conjugate to the antigen, the
stronger will be the color development.
Mechanism of enzyme action
Peroxidase from horseradish
Alkaline phosphatase from E coli
b-galactosidase from E coli
React with a colourless substrate to produce a
coloured product.
Must work fast at room temperature so the colour
develops quickly.
Have minimal interference from factors in sample.
Peroxidase from horseradish
Alkaline phosphatase from E coli
b-galactosidase from E coli
React with a colourless substrate to produce a
coloured product.
Must work fast at room temperature so the colour
develops quickly.
Have minimal interference from factors in sample.
Enzymes used in ELISA
Horse-radish peroxidase (HRP)
Alkaline phosphatase
b-galactosidase
Streptavidin
Horse-radish peroxidase (HRP)
Alkaline phosphatase
b-galactosidase
Streptavidin
Substrate Function
A substrate is a compound or substance that
undergoes change.
Substrates bind to active sites on the surface of
enzymes and are converted or changed.
In ELISA the specific substrate used changes color.
A substrate is a compound or substance that
undergoes change.
Substrates bind to active sites on the surface of
enzymes and are converted or changed.
In ELISA the specific substrate used changes color.
Substrates used in ELISA
Hydrogen peroxide
3,3´, 5,5´ Tetra methyl benzidine (TMB)
p-nitrophenyl phosphate (pNPP)
Bromochloro-Indolyl phosphate (BCIP)
Hydrogen peroxide
3,3´, 5,5´ Tetra methyl benzidine (TMB)
p-nitrophenyl phosphate (pNPP)
Bromochloro-Indolyl phosphate (BCIP)
An ELISA Laboratory needs following
items:
•Microplate reader
•Printer
•Microplate incubator
•Plate wash system
•Record Sheet
•Dilution Tubes
•Micropipettes and pipette tips
items:
•Microplate reader
•Printer
•Microplate incubator
•Plate wash system
•Record Sheet
•Dilution Tubes
•Micropipettes and pipette tips
Microplate Incubator
Microwell Plate Washer
Microplate (ELISA) Reader
Materials Needed
Contents of a ELISA Kit
1. ELISA plate
2. Positive control
3. Negative control
4. Dilution Buffer
5. Wash Buffer (PBS, Tween 20)
5. Conjugate (Enzyme linked secondary antibody)
6. TMB Substrate
7. Stop solution
Contents of a ELISA Kit
1. ELISA plate
2. Positive control
3. Negative control
4. Dilution Buffer
5. Wash Buffer (PBS, Tween 20)
5. Conjugate (Enzyme linked secondary antibody)
6. TMB Substrate
7. Stop solution
Types of ELISA
Indirect ELISA
Antigen bound to plate
Detects antibodies
Sandwich ELISA
Antibody bound to plate
Detects antigens
Competitive ELISA
Antibody /antigen bound to plate
Detects antibodies or antigen
(Depends on type of conjugate used)
Indirect ELISA
Antigen bound to plate
Detects antibodies
Sandwich ELISA
Antibody bound to plate
Detects antigens
Competitive ELISA
Antibody /antigen bound to plate
Detects antibodies or antigen
(Depends on type of conjugate used)
Sample added to Microtiter
well (Ag coated)
↓
Wash
↓
Conjugate (enzyme labeled
anti-isotype Ab) added
↓
Wash
↓
Addition of substrate
↓
Color development
↓
Stop solution added
↓
OD measured
i
1st step
2nd step
3rd step
Incubation
Indirect ELISA
Incubation
Incubation
well (Ag coated)
↓
Wash
↓
Conjugate (enzyme labeled
anti-isotype Ab) added
↓
Wash
↓
Addition of substrate
↓
Color development
↓
Stop solution added
↓
OD measured
i
1st step
2nd step
3rd step
Incubation
Indirect ELISA
Incubation
Incubation
Indirect ELISA
Sandwich ELISA
Sample added to Microtiter well
(monoclonal Ab coated)
↓
Wash
↓
Conjugate (enzyme labeled
polycloncal Ab) added
↓
Wash
↓
Addition of substrate
↓
Color development
↓
Stop solution added
↓
OD measured
1st step
2nd step
3rd step
Incubation
Incubation
Incubation
Sample added to Microtiter well
(monoclonal Ab coated)
↓
Wash
↓
Conjugate (enzyme labeled
polycloncal Ab) added
↓
Wash
↓
Addition of substrate
↓
Color development
↓
Stop solution added
↓
OD measured
1st step
2nd step
3rd step
Incubation
Incubation
Incubation
29
Sandwich ELISA
The antibodies fixed to a
solid surface, such as the
inner surface of a test tube;
A preparation of the same
antibodies coupled to an
enzyme.
This is one enzyme that
produces a colored product
from a colorless substrate.
Sandwich ELISA
The antibodies fixed to a
solid surface, such as the
inner surface of a test tube;
A preparation of the same
antibodies coupled to an
enzyme.
This is one enzyme that
produces a colored product
from a colorless substrate.
Serum and recombinant Ag added
to microwell plate
(monoclonal Ab coated)
¯
Wash
¯
Conjugate added
(enzyme labeled human Ab to Ag)
¯
Wash
¯
A substrate added
¯
Stop solution added
¯
OD measured
Competitive ELISA
Incubation
Incubation
Incubation
No color indicates positive result, color indicates negative result
1st step
2nd step
3rd step
to microwell plate
(monoclonal Ab coated)
¯
Wash
¯
Conjugate added
(enzyme labeled human Ab to Ag)
¯
Wash
¯
A substrate added
¯
Stop solution added
¯
OD measured
Competitive ELISA
Incubation
Incubation
Incubation
No color indicates positive result, color indicates negative result
1st step
2nd step
3rd step
Microplate reader
Machine which measures color
density in plate well.
A specific wave-length of light is
chosen (depending upon the color
you expect to capture).
Light is cast from the bottom of
the well through the sample.
No color change- wells absorb
very little light;
Wells with color change absorb
more light; this is the optical
density or OD.
Machine which measures color
density in plate well.
A specific wave-length of light is
chosen (depending upon the color
you expect to capture).
Light is cast from the bottom of
the well through the sample.
No color change- wells absorb
very little light;
Wells with color change absorb
more light; this is the optical
density or OD.
Reading plates
Select proper wave-length on machine.
Carefully wipe bottom of plate to remove
excess moisture. Plates that are wet may
diffuse your light source, giving inaccurate
readings.
Mix the plate. This will distribute color
evenly. Some machines have a ‘mix’ setting.
Select proper wave-length on machine.
Carefully wipe bottom of plate to remove
excess moisture. Plates that are wet may
diffuse your light source, giving inaccurate
readings.
Mix the plate. This will distribute color
evenly. Some machines have a ‘mix’ setting.
ELISA results
Results should be recorded by reading the optical
densities of the plates in a plate reader at the correct
wavelength:
IDEXX: 450nm
Each manufacturer supplies computer software specific
for their test which calculates which samples are
negative and the titers of positive samples.
Results should be recorded by reading the optical
densities of the plates in a plate reader at the correct
wavelength:
IDEXX: 450nm
Each manufacturer supplies computer software specific
for their test which calculates which samples are
negative and the titers of positive samples.
ELISA Kit
Results
Results
Calculation
The result of a typical test is calculated by comparing
the spectrophotometric reading of unknown serum to
that of reference serum.
Average the 2 negative control wells
Average the 2 positive control wells
Average 2 wells for each sample
The intensity of the color is directly proportional to
the amount of Ag/Ab present in patient’s sample in
Indirect and Sandwich ELISA but inversely
proportional in case of Competitive ELISA.
The result of a typical test is calculated by comparing
the spectrophotometric reading of unknown serum to
that of reference serum.
Average the 2 negative control wells
Average the 2 positive control wells
Average 2 wells for each sample
The intensity of the color is directly proportional to
the amount of Ag/Ab present in patient’s sample in
Indirect and Sandwich ELISA but inversely
proportional in case of Competitive ELISA.
Calculation of results
Results
The status of a sample are evaluated by the
sample to positive ratio (S/P ratio):
Sample mean - negative control mean
positive control mean - negative control mean
(mean of optical absorbance)
With the IDEXX kit S/P ratios of greater than
0.5 are considered positive
The status of a sample are evaluated by the
sample to positive ratio (S/P ratio):
Sample mean - negative control mean
positive control mean - negative control mean
(mean of optical absorbance)
With the IDEXX kit S/P ratios of greater than
0.5 are considered positive
Calculation of Results
Example:
Sample mean= 0.820
Negative control mean=0.053
Positive control mean=0.563
0.820 - 0.053 = 0.767
0.563 - 0.053 = 0.510
= 1.5 or Positive
S/P ratios of greater than 0.5 are considered positive
(Positive values will be different for each kit)
Example:
Sample mean= 0.820
Negative control mean=0.053
Positive control mean=0.563
0.820 - 0.053 = 0.767
0.563 - 0.053 = 0.510
= 1.5 or Positive
S/P ratios of greater than 0.5 are considered positive
(Positive values will be different for each kit)
The ELISA assay yield three different types of data output
Qualitative: ELISA can be used to achieve a YES or NO
answer indicating whether a particular antigen is present in a
sample, as compared to a blank well containing no antigen or
an unrelated control antigen.
Quantitative: ELISA data also can be interpreted in
comparison to a standard curve in order to precisely calculate
the concentrations of antigen in various samples.
Semi-quantitative: ELISA can be used to compare the
relative levels of antigen in assay samples, since the intensity of
signal will vary directly with antigen concentration.
Qualitative: ELISA can be used to achieve a YES or NO
answer indicating whether a particular antigen is present in a
sample, as compared to a blank well containing no antigen or
an unrelated control antigen.
Quantitative: ELISA data also can be interpreted in
comparison to a standard curve in order to precisely calculate
the concentrations of antigen in various samples.
Semi-quantitative: ELISA can be used to compare the
relative levels of antigen in assay samples, since the intensity of
signal will vary directly with antigen concentration.
Run validation criteria for controls
Negative control absorbance- > 0.010 or <0.050
The difference between the positive and negative
control mean absorbance must be ≥ 0.50
Example: if negative control - 0.030, the positive
control must be 0.530 or greater.
Negative control absorbance- > 0.010 or <0.050
The difference between the positive and negative
control mean absorbance must be ≥ 0.50
Example: if negative control - 0.030, the positive
control must be 0.530 or greater.
Advantages of ELISA
Reasonably sensitive –possible to detect less than a
nanogram of protein.
No radiation hazards.
Reagents are cheap with long shelf life.
Handles large number of samples at a time.
Simple technique –color change.
Adaptable to automation and high speed.
Qualitative and quantitative
Detection kits available commercially
Reasonably sensitive –possible to detect less than a
nanogram of protein.
No radiation hazards.
Reagents are cheap with long shelf life.
Handles large number of samples at a time.
Simple technique –color change.
Adaptable to automation and high speed.
Qualitative and quantitative
Detection kits available commercially
Why ELISA is considered as a reliable
and precise technique in immunoassay?
Good opportunity to use controls/ standards in the
assay all times
Provides highly consistent and reproducible test
result - random variability is absent
An acceptable cut off range determines negative
and positive results
Reliability of the assay always depends on its run
validation criteria
and precise technique in immunoassay?
Good opportunity to use controls/ standards in the
assay all times
Provides highly consistent and reproducible test
result - random variability is absent
An acceptable cut off range determines negative
and positive results
Reliability of the assay always depends on its run
validation criteria
Disadvantages of ELISA
Time consuming test
Generally requires incubation
-can not take out into the field
Can only test for a specific antibody or antigen
Highly skilled technician is required for quality test
False positive- if wash is improper and inadequate
Time consuming test
Generally requires incubation
-can not take out into the field
Can only test for a specific antibody or antigen
Highly skilled technician is required for quality test
False positive- if wash is improper and inadequate
Application of ELISA
Protocol
Types of
ELISA
Application
I
Tracking
outbreaks of
disease
HIV, SARS, Dengue, Bird-flu,
anthrax, Ebola & Zika
II
Detecting
antigens
HBV, HDV, Pregnancy, drugs
(including abusive drugs)
III
Detecting
antibodies in
serum
HAV, HBV, HCV, HDV, HEV,
HIV, H. pylori, TB, Dengue
Protocol
Types of
ELISA
Application
I
Tracking
outbreaks of
disease
HIV, SARS, Dengue, Bird-flu,
anthrax, Ebola & Zika
II
Detecting
antigens
HBV, HDV, Pregnancy, drugs
(including abusive drugs)
III
Detecting
antibodies in
serum
HAV, HBV, HCV, HDV, HEV,
HIV, H. pylori, TB, Dengue
· Detection of allergens in food, eg. milk, peanuts,
walnuts, almonds, eggs.
· Detection of illegal drugs in Sports Medicine.
Application of ELISA (Cont’d)
walnuts, almonds, eggs.
· Detection of illegal drugs in Sports Medicine.
Application of ELISA (Cont’d)
If negative controls are giving positive results
Contamination of the substrate solution, enzyme labeled
antibody or control themselves
Inadequate rinsing of plates
Inadequate blocking of plates
Contamination of the substrate solution, enzyme labeled
antibody or control themselves
Inadequate rinsing of plates
Inadequate blocking of plates
If no color develops for the positive controls or
for the samples
Check all reagents for expiry dates and storage condition
Microwell plates may not be coated properly
Reagents applied in wrong order or an assay step was
omitted
Wrong conjugate was used- conjugate was prepared
incorrectly or has deteriorated
Incorrect or no detection antibody was added
Substrate solution was not added
for the samples
Check all reagents for expiry dates and storage condition
Microwell plates may not be coated properly
Reagents applied in wrong order or an assay step was
omitted
Wrong conjugate was used- conjugate was prepared
incorrectly or has deteriorated
Incorrect or no detection antibody was added
Substrate solution was not added
If very little color develops for positive controls
and the test samples
Laboratory temperature was too low or reagents/plates
were too cold
Check the dilution of the enzyme labeled antibody and
concentration of the substrate
Wash buffer not adequately drained after every wash step
or too many wash cycles
Incubation periods were too short
Wrong conjugate was used- conjugate was prepared
incorrectly or has deteriorated
and the test samples
Laboratory temperature was too low or reagents/plates
were too cold
Check the dilution of the enzyme labeled antibody and
concentration of the substrate
Wash buffer not adequately drained after every wash step
or too many wash cycles
Incubation periods were too short
Wrong conjugate was used- conjugate was prepared
incorrectly or has deteriorated
ELISA Troubleshooting- poor Reproducibility
Causes:
Excessive time was taken to add samples, controls, or
reagents to the assay plate
Multichannel pipette was not functioning properly
There was inconsistent washing or washer system
malfunctioning
There was poor distribution of antibody in the sample
Causes:
Excessive time was taken to add samples, controls, or
reagents to the assay plate
Multichannel pipette was not functioning properly
There was inconsistent washing or washer system
malfunctioning
There was poor distribution of antibody in the sample
If color develops for the test samples but not for
the positive controls
Check the source of positive controls, their expiry
date and storage condition
the positive controls
Check the source of positive controls, their expiry
date and storage condition
If the color can be seen, but the absorbance is
not high as expected
Check the wave length of filter.
not high as expected
Check the wave length of filter.
Thank you
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 2,741
- Slides 54
- Favorites 13
- Age 2677 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
35 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
38 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
34 views
14
Fertility awareness methods for women in the society
Isaiah47
31 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
30 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
31 views