Hematology - Bleeding Disorders

Question 1

List the differential for primary hemostatic disorders

Answer 1

- inability form platelet plug
Thrombocytopenia
- decreased production
      - folate or B12 deficiency
      - liver disease or alcohol
      - bone marrow failure: aplastic anemia, chemotherapy, drug induced, myelodysplasia
      - congenital: Alport, Fanconi
      - infection: HIV, HCV, EBV, mumps
- sequestration from splenomegaly
      - liver disease, malignancy, myelodysplasia
- Increased destruction
      - immune: ITP, SLE, HIT
      - non-immune: DIC, TTP, HUS, HELLP, pre-eclampsia
- Dilution
Platelet Dysfunction
- hereditary: GPIb or GPIIb/IIa deficiency
- acquired: aspirin, NSAID, alcohol, CKD
Von willebrane Disease
Vascular
- hereditary
      - connective tissue disorder
- acquired
      - henoch-schonlein purpura
      - Cushing's syndrome

Question 2

List the differential for secondary hemostatic disorders

Answer 2

- inability to form fibrin clot
Hereditary
- Factor 8 deficiency: Hemophilia A, vWD
- Factor 9 deficiency: Hemophilia B
- Factor 11 deficiency
Acquired
- liver disease
- DIC
- vitamin K deficiency

Question 3

Discuss the approach to bleeding disorders

Answer 3

Low Platelets on CBC
- consider thrombocytopenia causes
Normal PT/INR and aPTT with normal platelet count
- differential: platelet dysfunction, vWD, factor 13 deficiency, vascular integrity disorder
- platelet function analysis (PFA-100) and blood film to assess for platelet dysfunction
- factor 8 activity level, vWF antigen and ristocetin cofactor for vWD (all low)
Prolonged aPTT only
- hereditarory: Hemophilia A, Hemophilia B, vWD, factor 11 or 12 deficiency
- acquired: heparin, direct thrombin inhibitor (dabigatran)
- factor 8, 9, 11 assay
Prolonged PT/INR Only
- hereditary: factor 7 deficiency
- acquired: warfarin, vit K deficiency, liver disease
- factor 7 assay if does not improve with vit K
Prolonged PT/INR and Prolonged aPTT
- hereditary: prothrombin deficiency, fibrinogen deficiency
- acquired: severe liver disease, excessive anticoagulation with Warfarin or Heparin, direct Xa inhibitor (Apixaban, Rivaroxaban), DIC
- assess fibrinogen and D-Dimer for DIC (low fibrinogen and high D-Dimer suggest DIC)

Question 4

Discuss the stages of hemostasis

Answer 4

Primary Hemostatis
- vessel injury results in collagen and subendothelial matrix exposure and release of vasoconstrictors
- blood flow is impeded and platelets come into contact with damaged blood vessel wal
- adhesion: platelets adhere to subendothelium via von Willebrand factor
- Activation: platelets are more activated resulting in change of shape and release of ADP and thromboxane A2
- aggregation: recruit and aggregrate more platelets forming platelet plug
Secondary Hemostasis
- Extrinsic (initiation): initiation of coagulation in vivo
- Intrinsic (amplification): amplification once coagulation has started via positive feedback
- both pathways converge on common pathway which results in thrombin formation and fibrin formation
Fibrin Stabilization
- conversion from soluble to insoluble and stable clot
Fibrinolysis
- clot dissolution via action of fibrinolytic system

Question 5

Discuss the pathophysiology, presentation and management of immune thrombocytopenia

Answer 5

Pathophysiology
- primary: isolated platelet <100
- Secondary: due to another condition: HIV, HCV, SLE, CLL
- Drug-induced
- Have anti-platelet antibodies which bind to surface and lead to increased splenic clearance
Presentation
- minimal brusing
- mucocutaneous bleeding
Investigation
- thrombocytopenia
- increased number of megakarocytes on bone marrow aspirate
Management
- Emergency (bleed): steroids, antifibrinolytics (TXA), IVIg, platelet transfusion

Question 6

Discuss the pathophysiology, presentation and management of heparin-induced thrombocytopenia

Answer 6

Pathophysiology
- Immune mediated where antibody recognizes heparin and platelet factor 4 leading to platelet activation via Fc receptor and activation of coagulation system
Presentation
- 5-10d following heparin exposure
- platelet count fall >50%
- thrombosis
Management
- Stop heparin or LMWH
- Initiate via non-heparin agent (fonduparinaux)

Question 7

Discuss the pathophysiology, presentation and management of Thrombotic thrombocytopenic purpura

Answer 7

- adult
Pathophysiology
- deficiency in metalloproteinase that breaks down ultra-large vWF multimers: ADAMTS13
- congenital have absence of ADAMTS13
Presentation
- thrombocytopenia
- microcytic acquired hemolytic anemia
- neurological symptoms
Investigation
- decreased platelets
- Hemolysis: increased unconjugated bilirubin, increased LDH, decreased haptoglobin, negative Coombs
Management
- medical emergency
- plasma exchance and steroids

Question 8

Discuss the pathophysiology, presentation and management of hemolytic uremic syndrome

Answer 8

- children or elderly
Pathophysiology
- Shiga toxin from E coli
Presentation
- severe thrombocytopenia
- AKI
- Bloody diarrhea
- GI prodrome
- hemolytic anemia
Investigation
- Hemolysis: increased unconjugated bilirubin, increased LDH, decreased haptoglobin, negative Coombs
MAnagement
- supportive care with fluids

Question 9

Discuss the pathophysiology, presentation and management of von Willibrand Disease

Answer 9

Pathophysiology
- autosomal dominant
- needed for platelet adhesion and chaperone for Factor VIII
Presentation
- bleeding history: mucocutaneous bleeding (easy bruising, epistacis, heavy menstrual bleeding, post-dental extraction)
Management
- Desmopressin
- TXA

Question 10

Discuss the pathophysiology, presentation and management of Hemophilia A

Answer 10

Pathophysiology
- X-linked recessive
Presentation
- Prolonged bleeding
- Hemarthrosis or deep muscle (hematoma) bleeding
Management
- desmopressin
- Factor VIII concentrate
- TXA

Question 11

Discuss the pathophysiology, presentation and management of Hemophilia B

Answer 11

Pathophysiology
- X-linked recessive
Presentation
- Prolonged bleeding
- Hemarthrosis or deep muscle (hematoma) bleeding
Management
Management
- Factor IX concentrate
- TXA

Question 12

Discuss the liver and Vitamin K dependent factors

Answer 12

Liver:
- all factors except for Factor VIII
- decreased fibrinogen
- Diminished anticoagulants and fibrinolysis
Vitamin K
- 1972 Canada vs Sovient
- Factor X, IX, VII, II and protein C and S
- Affected by Warfarin - vitamin K antagonist
- treatment with vitamin K 10mg IV or prothrombin complex concentrate

Question 13

Discuss the pathophysiology, presentation and management of disseminated intravascular coagulation

Answer 13

- excessive, dysregulated release of plasmin and thronbin leading to intravascular coagulation and depletion of platelets, coagulation factors and fibrinogen
Pathophysiology (OMITS)
- Obstetric complication
- Malignanc
- Infection
- Trauma
- Shock
Investigation
- decreased platelets
- prolonged INR, aPTT
- decreased fibrinogen
- increased D-dimer
Management
- Support
- RBC tranfusion
- Fresh frozen plasma if INR >1.5 or aPTT >38
- 10 units of cryoprecipitate if fibrinogen <1g/L

Question 14

Discuss factor V leiden and protein C and S deficiency

Answer 14

Factor V Leiden
- activated protein C resistance
- results in resistance to activation of Factor Va
Protein C and S deficiency
- Factor C inactivates Factor Va and VIIIa using factor S as cofactor

Question 15

Discuss massive transfusion protocol

Answer 15

• Occurs when patient has lost entire blood volume within 24hrs
• Require 4units pRBC for each volume blood lost
  
  • Give 1 FFP for every 2u
• Require frequent monitoring of CBC, electrolytes (Ca included), INR and fibrinogen

Question 16

Discuss Complications following blood transfusion

Answer 16

Infection
- viral most common
Hemolysis
- Immediate reaction due to ABO incompatibility
- fever, chills, chest, or flank pain, hypoxemia, hypotension, ARF and FIC
- delayed reaction at 7-21d due to trace antibodies
Non-Hemolytic Febrile Reaction
- reaction to donor leukocyte antigens and antibodies
- fever, chills, N/V, headache, myalgia
Allergy
- react to proteins in blood
Immune System
- more commonly in immunocompromised individuals
Coagulopathy
- Dilution of coagulation factors and platelets when massive transfusion of pRBC
Transfusion Associated Circulatory Overload (TACO)
- congestive heart failure and acute pulmonary edema
Transfusion Related Acute Lung Injury
- result in Acute respiratory distress syndrome (hypoxemia, dyspnea, hypotension)
Hyperkalemia
- increase K concentration in blood
- peaked T waves, wide QRS, loss of p wave
Hypocalcemia
- citrate binds to calcium
- decreased myocardial contractility, hypotension, widened QRS and bleeding
Acid-Base Abnormalities
- metabolic acidosis: citric acid and lactic acid in stored blood
- metabolic alkalosis: hepatic metabolism of citric acid into bicarbonate

Question 17

Discuss type, screen and crossmatch for blood products

Answer 17

Type
- confirms ABO and Rh blood groups
Screen
- takes 5-10 minutes which screen for presence of antibodies
Crossmatch
- taks 45 minutes and mixes blood together to determine if reaction occurs

Question 18

Discuss the indications for blood products

Answer 18

• 1 unit is 280mL which should raise Hgb 10g/L
  Patient Consent
  Anemia: Acute or Chronic
• acute anemia require transfusion
  Trajectory of Active Uncontrolled Bleeding
  Presence of CAD or CVD
• limited compensatory mechanism so require Hgb >100
  Evidence of Ischemia or Coagulopathy
  Blood loss Exceed Estimated Acceptable Blood Loss
• Acceptable blood loss = EBV (75mL/kg male, 65mL/kg female *kg) * [Pre-op Hgb - Transfusion Trigger Hgb]/Pre-op Hgb]
• usually <70 require transfusion

Question 19

Discuss the indications for fresh frozen plasma, platelets, and cryoprecipitate

Answer 19

Fresh Frozen Plasma
- Factors 2/5/7/8/9/10/11 protein C/S, fibrinogen, anti-thrombin 3
- pre-op for those with coagulation disorders
- massive transfusion
- reversal of warfarin
Platelets
- Severe thrombocytopenia <10 in non-bleeding
- Mild 20-50 in bleeding
- Surgery with >500mL of bleeding and platelets <50
- patients with head injury or prior to neurosurgical procedure with platelets <100
- large volume pRBC (>6)
Cryoprecipitate
- factor 2/8/13, fibrinogen, von Willebrand Factor
- DIC
- Massive bleed with fibrinogen <1

Question 20

Discuss the calculation for deficit losses

Answer 20

Estimate Hypovolemia
- Mild 3% (dry axilla and mucous membrane
- Moderate 6% (oliguria, othostatic hypotension, cool peripheries)
- Severe 9% (profound oliguria, CNS dysfunction)
Estimate Total Body Water
- Male 60% body weight
- Female 50% body weight
- Elderly 45% body weight
Calculation
- kgEstimate Total Body WaterEstimate Hypovolemia
- Replace first half in first 8hrs and second half in next 16hrs