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Measuring Serum Antibody with an Agglutination Assay

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    (English captions by Andrea Matumoto, University of Michigan.) An agglutination assay is a simple way to
    detect and to measure antibodies in a clinical
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    specimen directed against a specific antigen
    of interest.
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    In this animation the principles and potential
    pitfalls of the assay will be demonstrated.
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    The main reagent used in the assay is a solution
    of insoluble tiny beads usually composed of
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    latex.
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    Alternatively to measure antibodies against
    a microbial pathogen the killed bacterial or
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    yeast cells can be used as the agglutinating
    particle.
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    However in this example latex beads are used
    and they have been prepared so that the antigen
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    of interest coats their surfaces and they
    are concentrated enough to produce a visible
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    milky suspension.
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    To measure antibodies against the antigen
    the particles are added to the wells of a
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    ninety-six well microtiter plate and then
    sera taken from different patients are added
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    to the wells in the first column.
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    Two fold dilutions of the sera are prepared
    in the rows and then a known negative and
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    positive control serum are added in the last
    two columns.
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    When the plate is allowed to incubate at room
    temperature the wells containing the negative
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    control serum remain unchanged.
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    The wells containing the positive control
    serum have developed a visible button at the
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    bottom of the wells and the solution in those
    wells has changed from milky to clear.
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    So what accounts for the appearance of the
    positive wells and what accounts for the lack
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    of change in the negative wells?
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    To understand what's going on, lets take
    a microscopic look at the negative and positive
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    wells to see what is happening in each case.
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    When there is no antibody in the well with
    the beads they remain in suspension giving
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    the well a milky appearance.
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    However, when specific antibody is present
    it binds to and crosslinks the beads.
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    This causes the beads to clump and to form
    large aggregates that sink to the bottom of
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    the round bottom wells.
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    They make the suspension clear as they sink
    instead of milky and the aggregates settle
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    into a pellet or a button which forms at the
    bottom of the well.
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    So you will see the button at the bottom of
    any well that has enough specific antibodies
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    in it to precipitate the beads.
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    But when the antibody is diluted out, the
    button no longer appears.
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    The patient's antibody titer is the last
    dilution of serum that produces a button.
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    But how to we explain the absence of a button
    in the most concentrated wells of the serum
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    with the highest titer showed by the orange
    arrow?
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    Imagine a well that has many more antibody
    molecules in it than beads.
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    In this situation the beads will be completely
    coated with antibody and there will be no
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    possibility of crosslinking and precipitation.
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    This phenomenon, which is referred to as a
    prozone sometimes occurs in cases of syphilis.
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    The standard screening test for syphilis is
    an agglutination assay in which undiluted
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    serum is added to beads coated with the antigen
    cardiolipin.
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    In secondary syphilis the antibody titers
    are sometimes so high that the test exhibits
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    a prozone and is falsely negative.
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    So how do you think you could overcome this
    potential problem and make the correct laboratory
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    diagnosis?
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    Did you think of diluting the serum and then
    retesting it?
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    By diluting the antibody in this situation
    the amounts of antibody and antigen are closer
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    to being equivalent with one another.
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    Then the conditions for crosslinking can exist.
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    Now when crosslinking occurs a precipitate
    forms and the button develops at the bottom
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    of a tube indicating a positive test.
Title:
Measuring Serum Antibody with an Agglutination Assay
Description:

This short animation demonstrates measuring serum antibody with an agglutination assay. This resource was developed by Cary Engleberg of the University of Michigan. It is part of a larger learning module about laboratory methods for clinical microbiology. The full learning module, editable animation, and video transcript are available at http://open.umich.edu/education/med/oernetwork/med/microbiology/clinical-microbio-lab/2009. Copyright 2009-2010, Cary Engleberg. This is licensed under a Creative Commons Attribution Noncommercial 3.0 License http://creativecommons.org/licenses/by-nc/3.0/.
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Video Language:
English
Duration:
04:08

English subtitles

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