Microbiology and Immunology

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IGA•seeIMMUNOGLOBULINS AND IMMUNOGLOBULIN DEFI-

CIENCY SYNDROMES

IGA DEFICIENCY•seeIMMUNODEFICIENCY DISEASE

SYNDROMES

IGD• seeIMMUNOGLOBULINS AND IMMUNOGLOBULIN DEFI-

CIENCY SYNDROMES

IGE•seeIMMUNOGLOBULINS AND IMMUNOGLOBULIN DEFI-

CIENCY SYNDROMES

IGG •seeIMMUNOGLOBULINS AND IMMUNOGLOBULIN DEFI-

CIENCY SYNDROMES

IGG SUBCLASS AND SPECIFIC ANTIBODY

DEFICIENCIES•seeIMMUNODEFICIENCY DISEASE SYN-
DROMES

IGM•seeIMMUNOGLOBULINS AND IMMUNOGLOBULIN DEFI-

CIENCY SYNDROMES

IImmune complex testMMUNE COMPLEX TEST

The immune complex test is a test designed to evaluate the sta-
tus or proper functioning of the immune system. The criterion
used to evaluate the operation of the immune system is via the
presence of so-called immune complexes.
An immune complex is an association formed between
large numbers of antigens and the corresponding antibodies.
The latter are produced in a specific response to the presence
of the antigen, which has been perceived as being foreign by
the body’s immune system. The individual antigen-antibody

complexes can associate together to form the interlocking net-
work that represents an immune complex.
Normally, immune complexes are removed from the
bloodstream by specialized cells of the spleen called
macrophages and by other specialized cells located in the liver.
However, if this clearance does not occur, the immune com-
plexes will continue to circulate, and will become trapped in the
kidneys, lung, skin, joints, or blood vessels. The specific loca-
tion depends on the composition of the complex. Their presence
will cause inflammationand can lead to tissue damage.
Immune complexes can develop as a result of what is
termed a low-grade persistent infection. Examples include
Streptococcus viridansinfection of the blood, Staphylococcus
heart infections, and viral hepatitis. Second, immune com-
plexes can form in response to the continued exposure to an
antigen, such as the repeated inhalation of moldin a farming
or animal care facility. Finally, immune complexes are often a
hallmark of autoimmune diseases. The continual response of
the body’s immune system overloads the ability of the body to
remove the immune complexes that form. Examples of
autoimmune diseases for which an immune test is beneficial in
terms of diagnosis are systemic lupus erythematosus, rheuma-
toid arthritis, Lyme diseaseand human immunodeficiency
virusinfection.
Being able to test for the presence of abnormal levels of
immune complexes can alert the physician to an abnormal func-
tion of the immune system, such as an autoimmune disorder.
Immune complexes can be detected by the application
of special stains to tissue that has been obtained from a patient.
The stains contain antibodies that bind to the complexes and
this binding is highlighted by the presence of the staining
agent. This test is useful because it directly detects the pres-
ence of the immune complexes. However, for routine clinical
use, this method is cumbersome and invasive. This has stimu-
lated the development of blood tests that indirectly detect the
complexes in the blood serum.
There are several methods available. Often more than
one will be used to test the same sample. This is because the

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