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defibrination

Defibrination is the process of removing fibrin or preventing the formation of fibrin in blood, resulting in a fluid that remains non-clotting or defibrinated. Historically, defibrinated blood was produced by mechanical methods that disrupt fibrin formation or by physically removing fibrin from freshly drawn blood. In modern laboratory practice, defibrination typically involves combining anticoagulation with subsequent removal of fibrin strands by centrifugation and decanting, filtration, or enzymatic digestion of fibrin.

Methods used to achieve defibrination vary. Mechanical defibrination may involve stirring or whipping the sample to

Applications and uses. Defibrinated blood is used in microbiology for the preparation of blood agar plates,

Limitations and safety. Defibrination alters the protein composition of blood and removes fibrinogen and other clotting

disrupt
fibrin
networks
and
separate
them
from
the
liquid.
Chemical
or
enzymatic
approaches
can
include
the
use
of
plasmin
or
other
fibrinolytic
agents
to
digest
fibrin,
or
applying
filtration
to
remove
fibrin
clots.
Some
workflows
rely
on
anticoagulants
to
prevent
clot
formation
during
handling,
followed
by
processing
to
produce
a
defibrinated
product.
where
a
fluid,
non-clotting
supplement
supports
even
growth
of
bacteria.
It
has
also
been
employed
in
historical
transfusion
experiments,
in
the
preparation
of
certain
sera
and
plasma
fractions
for
research,
and
in
some
cell
culture
procedures
where
clotting
would
interfere
with
analysis
or
processing.
factors,
making
it
distinct
from
serum
or
standard
plasma.
Handling
defibrinated
animal
or
human
blood
carries
biosafety
considerations
and
potential
variability
between
preparations,
which
can
affect
experimental
outcomes.
In
modern
clinical
settings,
defibrinated
blood
is
largely
of
historical
or
specialized
laboratory
use,
with
serum
or
anticoagulated
plasma
serving
contemporary
needs.