Disseminated
Intravascular Coagulation (DIC)
The DIC
process can be divided into three
stages:
• Hypercoagulable
(Stage I)
• Secondary fibrinolytic
(Stage II)
• Hypocoagulable (Stage
III)
Hypercoagulable
(Stage I) DIC is commonly initiated through
release of tissue
factor (TF) and FVIIa activation of
the extrinsic pathway, resulting in a deposition of thrombin in the microcirculation system. TF is
normally contained within the cellular
membrane and encrypted. However,
traumatic tissue injury, required major resuscitation, or major
surgery, exposes TF to the bloodstream. TF expression can also occur when monocytes are activated
by sepsis, endotoxin, the presence of cancerous cells, or in pregnancy
when amniotic fluid penetrates the maternal blood stream.
In summary, the
release of TF, together with
FVIIa, initiates
the extrinsic coagulation cascade and, if it is not
anticoagulated accordingly, with
heparin low molecular weight heparin (LMWH),
or activated protein C (APC) can result in microthrombosis
of the capillaries of major organs, leading to Acute Respiratory Distress Syndrome (ARDS), multiple
organ failure (MOF), miscarriage, clotted
graft, pulmonary embolism
(PE), acute myocardial infarct (AMI), stroke,
and deep vein thrombosis (DVT). Fortunately, the high
concentration of thrombin activates
the endothelium to release tissue plasminogen
activator
(TPA), which
activates plasminogen into
plasmin -- the
enzyme that breaks down the clot before microthrombotic the capillaries of major organs. This process leads to stage
II DIC, secondary fibrinolysis.
Secondary fibrinolytic (Stage II) The secondary fibrinolytic stage (secondary to a prothrombotic state) is initiated
by
the release of TPA by
the endothelium system, which activates
plasminogen to plasmin. Plasmin
breaks down the clot, releasing
fibrinogen degradation product (FDP).
The release of TPA is
an attempt to counterbalance the
prothrombotic state into normal hemostasis and
to prevent deposition of thrombi
into the microcirculatory system. At the same
time FDP, acts as an anticoagulant
to inhibit platelet
aggregation and prevent
normal cross-linking of fibrin,
which is necessary to render clots insoluble. FDP anticoagulation is
enhanced by plasmin's biodegrading of coagulation factors V, VIII, IX, and XI.
Therefore, secondary fibrinolysis
is
an attempt to
normalize or
control the prothrombotic
state by anticoagulating both the enzymatic and platelet aggregation processes to break down the formed clot. Unfortunately, the source of TF release is not corrected, nor is the external source of anticoagulation
regimen in the form of heparin, LMWH, APC
and/or
platelet inhibition by aspirin, Plavix, GPIIb/IIIa inhibitors altered, and so the hemostasis system enters into a consumptive state, where
coagulation proteins and platelets
are consumed leading into the third stage
of DCI, Hypocoagulable phase.
Hypocoagulable
phase (Stage III) The
hypocoagulable phase leads to hemorrhage,
but can be treated by FFP, cryo, and platelets to stop the bleeding. Unfortunately, these
allogenic
blood products, in addition to exposing the patient to donor blood products and the risk of blood-borne diseases, also initiates
strong
inflammatory
reactions and can reinstate the
prothrombotic state of DIC stage I in a
much aggravated patient hemostasis state.
Another risk
of DIC in secondary fibrinolysis is that a laboratory test panel will
be run,
and tests will be normal
for PT, PTT, fibrinogen level, platelets, but not for D-DIMER. The
common wisdom is to give
Amicar or Aprotinin
to normalize D-DIMER, but
the doing that blocks the pathway to breaking down the
clot formation.
By
identifying DIC in stage I with the
Sonoclot Analyzer, then treating according to the
anticoagulation regimen for both
enzymatic and platelet activations, and remedying the source of TF
release and balancing the
patient's hemostasis, and can stop the
initial
DIC in
its earliest stage.
Disseminated Intravascular Coagulation (DIC) Sonoclot Thromboelastography Thromboelastograph ROTEM TEMA TEG
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