Coagulopathy in Trauma Seunghwan Kim, M.D. Dept. of Emergency Medicine College of Medicine, Yonsei University.

Slides:

Advertisements

Similar presentations

Coagulopathy and blood component transfusion in trauma

Advertisements

Chapter 12 Disorders of Hemostasis

Dengue- Blood and Blood Products Jameela Sathar Hospital Ampang.

Hemorrhagic diseases. Lesions of the blood vessels Lesions of the blood vessels Abnormal platelets Abnormal platelets Abnormalities in the coagulation.

Brad Beckham T4. Definitions  Major blood loss Hemoglobin concentration below 6-10 g/dl  Massive transfusion in adults >9 erythrocyte units within 24h.

Blood Components Dosage And Their Administration

Faculty of Allied Medical Science

Initiation substances activate s by proteolysis a cascade of circulating precursor proteins which leads to the generation of thrombin which in turn converts.

Massive Transfusion Mary Jo Drew, MD, MHSA Chief Medical Officer Pacific Northwest Blood Services Region.

Cristy M. Thomas FNP-BC University of Nevada School of Medicine University Medical Center, Las Vegas NV Nevada’s Only Level 1 Adult Trauma, Level 2 Pediatric.

MTP Octaplex rFVIIa Calgary. Massive Transfusion Protocol.

Bleeding time,clotting time, PT, and PTT

1 Disseminated Intravascular Coagulation Paramedic Program Chemeketa Community College.

Disseminated intravascular coagulation (DIC)

Dr msaiem Acquired Coagulation Disorders Dr Mohammed Saiem Al-dahr KAAU Faculty of Applied Medical Sciences.

1 Massive Blood Transfusion Massive transfusion, defined as the replacement by transfusion of more than 50 percent of a patient's blood volume in 12 to.

Asilmi HEMOSTASIS Ahmad Shihada Silmi Faculty of Sciences IUG Med. Tech. Dep. Room # B326.

Week 6: Secondary Hemostasis Plasmatic factors Plasmatic factors Intrinsic pathway Intrinsic pathway Extrinsic pathway Extrinsic pathway Specimen Specimen.

4th year medical students Blood Component Therapy Salwa I Hindawi MSc FRCPath CTM Director of Blood Transfusion Services KAUH. Jeddah.

Dr MOHAMMED H SAIEMALDAHR FACULTY of Applied Medical Sciences

MLAB 1227: C OAGULATION K ERI B ROPHY - M ARTINEZ Secondary Hemostasis Part Three.

Lecture NO- 12- Dr: Dalia Kamal Eldien.  Coagulation: Is the process by which blood changes from a liquid to a clot. Coagulation begins after an injury.

Senior clinician Request: a o 4 units RBC o 2 units FFP Consider: a o 1 adult therapeutic dose platelets o tranexamic acid in trauma patients Include:

Hemostasis and Blood Coagulation

WARFARIN AN OVERVIEW.

Care of the Anti-coagulated Trauma Patient Julie Mayglothling, MD, FACEP Emergencies in Medicine March 8 th, 2012.

Bleeding Disorders Dr. Farjah H.AlGahtani

Approach to Bleeding Disorders

Dr Ahmed abdulwahab. Hemorrhage is still one of the leading cause of maternal mortality all over the world DEFINITION Primary post partum hemorrhage.

Fluids and blood products in trauma

APPROACH TO BLEEDING DISORDERS. History of Bleeding Spontaneous vs. trauma/surgery-induced Ecchymoses without known trauma Medications or nutritional.

MLAB 1227: Coagulation Keri Brophy-Martinez Coagulation Disorders: Secondary Hemostasis Part Two.

Hemostasis. Hemostasis Definition Prevention of blood loss (stoppage of blood flow)

Coagulation Mechanisms

Disseminated Intravascular Coagulation. XIIa Coagulation cascade IIa Intrinsic system (surface contact ) XII XI XIa Tissue factor IX IXa VIIa VII VIIIVIIIa.

Role of Factor Concentrates in Perioperative Coagulopathies Dr Neville Gibbs Department of Anaesthesia Sir Charles Gairdner Hospital.

Coagulation / Coagulopathies. Hemostasis Hemostasis is the ability of the body’s systems to maintain the integrity of the blood and blood vessels. Hemostasis.

The Clotting Cascade and DIC Karim Rafaat, MD. Coagulation Coagulation is a host defense system that maintains the integrity of the high pressure closed.

Investigation of Haemostasis MS. c. program Lab-9.

Fibrinolysis and Hyperfibrinolysis TEG Analysis

HEMOSTASIS When blood vessels are cut or damaged, the loss of blood from the system must be stopped before shock and possible death occur. This is accomplished.

DIC. acute, subacute or chronic widespread intravascular fibrin formation in response to excessive blood protease activity that overcomes the natural.

Intrinsic pathway Extrinsic pathway Common pathway The extrinsic pathway was required the addition of an exogenous trigger (originally provided by tissue.

Patient Blood Management Guidelines: Module 6 Neonatal and Paediatrics Roles Senior clinician Coordinate team and allocate roles Determine volume and type.

Haemostasis. Indications for hemostasis test – Identify patients presenting with bleeding that have a correctable bleeding tendency – Identify patients.

1. Normal haemostasis Haemostasis is the process whereby haemorrhage following vascular injury is arrested. It depends on closely linked interaction.

Hemostasis Is a complex process which causes the bleeding process to stop. It refers to the process of keeping blood within a damaged blood vessel. Dependent.

Approach to the Bleeding Child. Evaluation  History Current Bleeding Medical Family  Physical exam  Selected laboratory investigations.

Plasma and plasma components in the management of disseminated intravascular coagulation Marcel Levi* Academic Medical Center, University of Amsterdam,

Chapter 23. Bleeding disorders associated with coagulopathy

Bleeding Tendency Dr. Mervat Khorshied Ass. Prof. of Clinical and Chemical Pathology.

Platelets. Fig Hemostasis the process by which the bleeding is stopped from broken vessels. steps involved: Vascular spasm. Platelets plug formation.

Obada Al-Eisa Saud Bashtawy Emad Mansour.  It is an acquired condition characterized by massive activation of the coagulation system.  It is always.

Approach To Bleeding Disorders In Neonates

Multiple choice questions

بسم الله الرحمن الرحیم COMPLICATIONS of Transfusion Therapy

Recent advances- Novoseven

Warfarin Toxicity Treatment & Management

General Principles of Hemostasis Kristine Krafts, M.D.

Constituents of the blood: Platelets and plasma

Hemodynamic disorders (1 of 3)

Coagulation Cascade of the Newborn

Steps in clotting mechanism

Hemophilia By: Renee Marie Alta.

Coagulation Disorders Importance in surgical practice

General Principles of Hemostasis Kristine Krafts, M.D.

Principles of Coagulation Screening II

Blood Components Dosage And Their Administration

Hemostasis and Coagulation

Presentation transcript:

Coagulopathy in Trauma Seunghwan Kim, M.D. Dept. of Emergency Medicine College of Medicine, Yonsei University

Objective Normal hemostasis Pathogenesis of coagulopathy in trauma patients Evaluation of coagulopathy Treatment

Coagulopathy Definition Failure of the blood to clot normally in response to tissue injury from trauma, surgery, or routine invasive procedures.

Normal Hemostasis

Coagulopathy

Risk factors for coagulopathy Acidosis (pH < 7.1) Hypothermia (core temp. < 34 ℃ ) Severe injury (ISS > 25) Shock (SBP < 70 mmHg) Cosgriff et al, J Trauma. 1997;42:

Pathogenesis of coagulopathy Hemodilution Hypothermia Consumption of clotting factors Metabolic derangments

The “Bloody Vicious Cycle” Vigorous fluid resuscitation Hemodilution Increased bleeding Recurrent Hypotension

Hemodilution Dilutional thrombocytopenia  m/c of the coagulation abnormalities  35-40% of platelets remain in circulation after replacement of one blood volume Dilution of procoagulant factors  Fibrinogen : most sensitive  Massive transfusion

Hypothermia Bleeding : risk factor of hypothermia Quantitative and qualitative platelet dysfunction Alteration of coagulation enzyme kinetics Disruption of fibrinolytic equilibrium

Platelets Thrombocytopenia  Platelet sequestration in the liver and spleen Reduction of thromboxane B2 Inhibition of platelet aggregation Reversible on rewarming

Coagulation factors Clotting studies  Temperature is an important role  PT is most sensitive Altered enzyme kinetics in the coagulation cascades Increased fibrinolysis

Clotting factor depletion Multiple injury Massive clotting factor activation Uncontrolled activation of the fibrinolytic system

Lung and brain injury Severe pulmonary contusion BBB breakdown after brain injury Release of tissue thromboplastin Intravascular activation of coagulation Vigorous fibrinolysis Profile of DIC develops

Liver injury Site of synthesis for all coagulation factors except factor VIII Severe liver injury  Production of coagulation factors decreased  Massive transfusion, hypothermia…

Metabolic derangements Acidosis d/t hemorrhage shock Decrease coagulation enzyme activity Correlation between coagulation abnormalities and the hypotension duration Hypoperfusion is associated consumptive coagulopathy

Massive Transfusion Replacement of the patient’s entire blood volume within a 24-h period Replacement of 50% of the total blood volume within 3h Transfusion of more than 20 RBC units Need for at least 4 RBC units within 4h with continued major bleeding Blood loss exceeding 150ml/min Need for platelet and plasma replacement

Massive Transfusion Hypothermia  Transfusion of large volumes of cold blood product  Impairs the function of platelets  Potential for hypocalcemia Dilutional thrombocytopenia

Massive Transfusion Acid-Base change  Stored RBCs and whole blood; acidic pH  Sodium citrate Converted to sodium bicarbonate  Net effect : alkalosis  Routine administration of bicarbonate with large transfusion; undesirable

Massive Transfusion Citrate  Decreased levels of ionized calcium  Hypocalcemia Hypotension, narrowed pulse pressure, elevated LVEDP, PAP and CVP, ECG abnormality Factor IV

Evaluation

History Medication  Warfarin, asprin, NSAIDs Known bleeding disorder Bleeding tendency  Bruising tendency  Excessive bleeding during medical procedure  Prolonged menorrhea  Repeated or severe epistaxis

Physical Exam Bruising Joint abnormalities Petechiae, purpura Ecchymosis, Telangiectasia Hepatosplenomegaly Malnutrition

Prothrombin time (PT) Adding thromboplastin, containig TF, phospholipid and calcium to citrate plasma Extrinsic pathway and common pathway Affected by vitamin K-dependent factors INR = log patient PT / log control PT

Partial Thromboplastin Time Adding partial thromboplastin, activating substance and calcium to citrate plasma Intrinsic pathway and common pathway Factor VII is not measured

Platelet Count Quantitative measure of circulating platelets Counts < 50,000/mm 3  Increase bleeding from cut surfaces Counts < 20,000/mm 3  spontaneous bleeding

Bleeding Time Only test that measures platelet function and primary hemostasis Relatively insensitive and nonspecific May not predict surgical bleeding

Thrombin Time Adding thrombin to citrate plasma Time for conversion of fibrinogen to fibrin TT Prolonged  Fibrinogen is deficient or abnormal  Presence of circulating anticoagulant  Excessive fibrinolysis

Fibrinogen As clotting increases the fibrinogen level decreases Low level; consumptive condition  DIC, sepsis, severe traumatic brain injury Acute phase reactant

Thrombelastography (TEG) Analyze various characteristics of clot formation; computer analysis and graphic form data Platelet function Coagulation enzyme activity Fibrinolysis Overall degree of coagulability

Fibrin Split Products (FSPs) Not diagnositic Evidence of a consumptive process such as DIC D-dimer; most closely associated with DIC

Treatment

Prevention Easier than treating it once it develops Keep the patient warm and perfused Transfusion therapy; pay close attention to blood composition  Minimize use of non-blood fluids  RBC, plasma, platelet

Packed RBC Packed RBC 1p  RBCs; 195mL  Suspendig fluid; 155mL (Plasma 35mL) Acidic Citrate Low temperature

Platelet 1U ; increase 10,000/uL 50mL anticoagulated plasma 20 to 24 ℃ storage Low acid and thermal burden

Fresh Frozen Plasma (FFP) 250mL, Plasma 80% 500mg fibrinogen 200U of all of the other coagulation factors

Cryoprecipitate Freezing and thawing FFP Concentrates fibrinogen, vWF, Factor VIII, XIII FFP is the better product

Plasma transfusion Low level of evidence Closed laboratory monitoring of hemostasis Rapid blood loss Single plasma doses; ml/kg Cryoprecipitate; 1-1.5packs/10 kg Consider time to thaw and transfer plasma

Clotting Factor Concentrate Factor VIII  Hemophilia A  Greenmono ® Factor IX  Hemophilia B  Facnyne ®

Recombinant Factor VIIa For hemophilia with inhibitor or factor VII deficiency In large doses requires only fibrinogen, thrombin and platelets to produce clotting “Off label” use in trauma  Reduction in bleeding in several studies NovoSeven ®  Very expensive

Rule of thumb in coagulopathy Prevention Recognize the major mechanism and treat it Recognize the general pace of normal patients Establish treatment goals Steady hand on the blood product spigot

References

Mauricio Lynn et al., Updates in the management of severe coagulopathy in trauma patients, Intensive Care Med, :S241-S247 Ray Armand et al., Treating coagulopathy in trauma patients, Transfusion Medicine Reviews, Vol 17, No3, 2003: pp Paul J. Wojciechowski et al., Coagulopathy in massive transfusion, Int Anesthesiol Clin Fall;43(4):1-20 Deborah M. Stein, Richard P. Dutton, Uses of recombinant factor VIIa in trauma, Curr Opin Cirt Care : Peter Hellstern, Hannelore Haubelt, Indication for plasma in massive transfusion, Thrombosis Research 107 (2002) S19-22 D. Stainsby et al., Management of massive blood loss: a template guideline, Br J Anaesth 2000; 85:487-91