Home

antistofscreening

Antistofscreening, also known as antibody screening, is a laboratory process used to detect and characterize antibodies within a biological sample. It is applied in clinical diagnostics, transfusion medicine, organ transplantation, and research to determine immune status, prior exposures, or the presence of alloantibodies and autoantibodies. The approach centers on antigen–antibody interactions, using panels of antigens or cells to reveal reactivity.

Common methods for antibody screening include enzyme-linked immunosorbent assays (ELISA), indirect immunofluorescence assays, Western blot, rapid

Applications of antistofscreening span several domains. In transfusion medicine, screening detects alloantibodies in donor or recipient

Quality control, result interpretation, and clinical context are critical. Positive results typically require confirmatory or reflex

diagnostic
tests,
bead-based
multiplex
assays,
and
flow
cytometry.
The
choice
of
method
depends
on
the
clinical
question,
required
sensitivity,
throughput,
and
specimen
type.
Pre-analytical
handling,
including
proper
collection,
storage,
and
processing
of
samples,
is
essential
for
reliable
results.
Results
are
typically
reported
as
positive
or
negative,
with
additional
information
such
as
titer
or
specificity
when
available.
plasma
to
reduce
the
risk
of
transfusion
reactions.
In
organ
transplantation,
it
helps
assess
antibodies
that
may
target
donor
antigens,
informing
compatibility.
Infectious
disease
screening
uses
antibody
tests
to
indicate
prior
exposure
or
immune
status
for
pathogens
such
as
viruses.
Autoimmune
screening
searches
for
autoantibodies
that
can
aid
in
diagnosing
autoimmune
diseases,
sometimes
in
combination
with
other
clinical
tests.
Monitoring
vaccine
responses
and
assessing
immune
competence
are
other
common
uses.
testing
to
define
exact
specificity,
while
false
positives
and
negatives
can
occur
due
to
cross-reactivity
or
low
antibody
levels.
Ethical
considerations
include
patient
consent
and
data
confidentiality.