Trauma-Induced Coagulopathy (TIC)

Definition:

Trauma-induced coagulopathy (TIC) is a complex disorder of hemostasis that occurs in trauma patients due to severe injury, shock, tissue hypoperfusion, and massive transfusion. It leads to uncontrolled bleeding and increased mortality.

Types of Trauma-Induced Coagulopathy:

1. Acute Traumatic Coagulopathy (ATC):
• Develops within minutes of injury due to shock and hypoperfusion.
• Endothelial injury causes excess activation of protein C, leading to fibrinolysis and anticoagulation.
• Strongly associated with poor outcomes.

2. Resuscitation-Induced Coagulopathy (RIC):

• Occurs secondary to excessive fluid resuscitation, causing dilutional coagulopathy.
• Massive transfusion of PRBCs without clotting factors can lead to deficiency of coagulation factors.

3. Consumptive Coagulopathy (DIC-like Syndrome):

• Disseminated intravascular coagulation (DIC) features in severe trauma, sepsis, or multi-organ failure.
• Uncontrolled clotting leads to platelet and coagulation factor depletion, causing widespread bleeding.

Pathophysiology of TIC:

1. Tissue Hypoperfusion & Shock:
• Leads to endothelial activation → release of protein C → degradation of factors Va & VIIIa → impaired clot formation.
• Also causes hyperfibrinolysis (excessive clot breakdown).

2. Endothelial Dysfunction & Glycocalyx Disruption:

• Trauma damages the endothelial glycocalyx, exposing subendothelial tissue, which activates platelets and coagulation factors.
• However, excessive fibrinolysis and platelet dysfunction impair clot formation.

3. Hyperfibrinolysis:

• Overactivation of plasminogen to plasmin leads to excessive clot breakdown.
• Seen in massive bleeding trauma patients.

4. Hypothermia, Acidosis, & Hemodilution (“Lethal Triad”)

• Hypothermia (<34°C): Impairs enzyme activity of coagulation cascade.
• Acidosis (pH <7.2): Inhibits thrombin generation and platelet function.
• Hemodilution: Large-volume crystalloid infusion leads to dilution of clotting factors.

Diagnosis of TIC:

Laboratory Findings:

• Prolonged PT & aPTT (↓ clotting factors).
• Low fibrinogen (<1.5 g/L).
• Increased D-dimer (suggests hyperfibrinolysis).
• Low platelet count (<50 × 10⁹/L).
• Low ionized calcium (<1.0 mmol/L) (citrate toxicity from transfusion).
• Thromboelastography (TEG) / ROTEM: Identifies coagulation defects in real-time (e.g., hyperfibrinolysis, factor deficiency).

Management of Trauma-Induced Coagulopathy:

1. Damage Control Resuscitation (DCR):

• Permissive Hypotension (SBP 80–90 mmHg) to limit ongoing bleeding until hemorrhage control is achieved.
• Avoid excessive crystalloid use (>1.5L) to prevent dilutional coagulopathy.

2. Balanced Blood Component Therapy (1:1:1 Strategy)

• Packed Red Blood Cells (PRBC): Fresh Frozen Plasma (FFP): Platelets in a 1:1:1 ratio.
• Fibrinogen replacement: Cryoprecipitate or fibrinogen concentrate if fibrinogen <1.5 g/L.

3. Antifibrinolytics (Tranexamic Acid – TXA):

• TXA 1g IV over 10 minutes, followed by 1g infusion over 8 hours.
• Effective if given within 3 hours of injury (reduces mortality by 20%).
• Avoid TXA if DIC or hypercoagulability is suspected.

4. Correction of Metabolic Disturbances:

• Maintain normothermia (>35°C) → Warm fluids, forced-air warmers.
• Correct acidosis (pH >7.2) → Reduce excessive saline, use buffered solutions.
• Maintain ionized calcium (>1.0 mmol/L) → Give Calcium chloride 10mL IV per 4 units of PRBCs.

5. Hemostatic Adjuncts:

• Prothrombin Complex Concentrate (PCC) for rapid factor replacement.
• Recombinant Factor VIIa (rFVIIa) only in refractory cases due to thrombosis risk.