1. Evaluation of the bleeding patient
V. Kinsella M.D.
January,

2. MILD bleeding Platelets secretion disorders vW deficiency
Platelets dense granules
deficiency
4. Unknown

3. Hemostasis and thrombosis
Dependent on 3 factors:
Vascular endothelium
Platelets
Coagulation system

4. 1.Clinical aspects of bleeding2

5. 1.Clinical aspects of bleeding
Evaluation of patients with bleeding is a multi-step process:
Complete history
Detailed physical exam
Laboratory evaluation

6. history
Is there a personal or family history of bleeding after surgical procedures, dental procedures, childbirth, or trauma?
When the bleeding episode started?
Has the patient received medications that can cause or make worse a bleeding problem?

7. history Many drugs can contribute to bleeding;
semisynthetic penicillins cephalosporins
calcium channel blocker dipyridamole
thiazides alcohol
quinine, quinidine chlorpromazine, sulfonamides INH, rifampin methyldopa phenytoin, barbiturates, warfarin, heparin, thrombolytic agents NSAIDs, ASA allopurinol
TMP/SMX

8. physical exam 1. Assess volume status (correct shock if present)
2. Look for hepatosplenomegaly
3. Do a rectal exam for evidence of GI bleeding
4. Examine oropharynx for evidence of petechiae

9. Clinical aspects of bleeding2

10. physical exam
Look for physical signs and symptoms of diseases related to capillary fragility:
Cushing’s syndrome, Marfan syndrome or exogenous steroids
"senile purpura”
Petechiae secondary to coughing, sneezing, Valsalva maneuver, blood pressure measurement
vasculitis ("palpable purpura")
Telangiectasias (Osler-Weber-Rendu syndrome) (HHT)

11. (typical of platelet disorders)
petechiae
(typical of platelet disorders)
Do not blanch with pressure (angiomas) Not palpable (vasculitis)

12. vasculitis (palpable rash)

13. 2. Hematologic disorders causing bleeding
Platelet disorders
Coagulation factor disorders 2

14. Clinical differentiation Platelets x Coagulation Defects

15. Platelets Defects
Generally have immediate onset of bleeding after trauma
Bleeding is predominantly in skin, mucous membranes, nose, GI tract, and urinary tract
Bleeding may be observed as petechiae (<3 mm) or ecchymoses (>3 mm

16. Clinical aspects of bleeding2

17. Coagulation Defects
"Deep" bleeding (in the joint spaces, muscles, and retroperitoneal spaces) is common. Observed on exam as hematomas and hemarthroses.

18. (typical of coagulation factor disorders)
Hematoma
(typical of coagulation factor disorders)

19. Hemarthrosis (acute)

20. Laboratory Evaluation of Bleeding
CBC and smear Platelet count Thrombocytopenia
RBC and platelet morphology TTP, DIC, etc.
Coagulation PT extrinsic/common pathways
PTT Intrinsic/common pathways
Coag. factor assays Specific factor deficiencies
50:50 mix Inhibitors (e.g., antibodies)
Fibrinogen assay Decreased fibrinogen
Thrombin time Qualitative/quantitative fibrinogen defects
D-dimer Fibrinolysis (DIC)

21. Laboratory Evaluation of Bleeding
Platelet function von Willebrand factor vWD
Bleeding time In vivo test (non-specific)
Platelet function analyzer (PFA) Qualitative platelet disorders

22. Laboratory Evaluation of the Coagulation Pathways
Partial thromboplastin time
(PTT)
Prothrombin time
(PT)
Surface activating agent
(Ellagic acid, kaolin)
Phospholipid
Calcium
Thromboplastin
Tissue factor
Phospholipid
Calcium
Intrinsic pathway
Extrinsic pathway
Common pathway
Thrombin time
Thrombin
Fibrin clot

23. Coagulation cascade Intrinsic system (surface contact)
Extrinsic system (tissue damage)
XII
XIIa
Tissue factor XI
XIa IX
IXa
VIIa
VII
VIII
VIIIa
KEY POINT: The efficacy/safety ratio for currently available therapies is less than satisfactory due to their ill-defined, multitargeted activity. New antithrombotic strategies are needed that offer an improved efficacy/safety profile compared with existing antithrombotic agents.1,2
Currently available antithrombotic agents include the heparins (UFH and Enoxaparin), vitamin K antagonists (warfarin), and direct thrombin inhibitors (hirudins).3–6
The most widely used agents, heparins and vitamin K antagonists, have a range of actions on various components of the coagulation cascade. This contributes to the unpredictable clinical responses associated with these agents.3–5
Other limitations of currently available antithrombotics include3–7
High incidence of serious adverse effects, particularly bleeding complications
Routine monitoring of coagulation markers may be needed and represents a substantial
burden in terms of time and costs
Narrow therapeutic margin
Limited effectiveness in preventing VTE
Factor Xa inhibitors are a novel class of antithrombotic agents designed to selectively target only 1 core step in the coagulation cascade, leading to potent and targeted effectiveness.8
Vitamin K dependant factors X Xa V Va II
IIa
IIa
(Thrombin)
Fibrinogen
Fibrin
For training purposes only—Not for distribution

24. Initial Evaluation of a Bleeding Patient
Normal PT
Normal PTT
Consider evaluating for:
Platelet disorder
Mild factor deficiency
Factor XIII
Monoclonal gammopathy
Abnormal fibrinolysis
a2 anti-plasmin deficiency
Vascular disorders
Dysfibrinogenemia

25. Initial Evaluation of a Bleeding Patient
Elevated PT
Normal PTT
50:50 mix is abnormal
Repeat
with
50:50
mix
Test for inhibitor activity:
1.Specific: Factor VII (rare)
2.Non-specific: Anti-phospholipid
50:50 mix is normal
Test for factor deficiency:
1.Multiple factor deficiencies (common)
(Liver disease, vitamin K deficiency, warfarin, DIC)
2. Deficiency of factor VII (rare)

26. Initial Evaluation of a Bleeding Patient
Normal PT
Abnormal PTT
50:50 mix is abnormal
Repeat
with
50:50
mix
Test for inhibitor activity:
Specific factors: VIII, IX, XI
Non-specific (anti-phospholipid)
50:50 mix is normal
Test for factor deficiency:
Isolated deficiency in intrinsic pathway (factors VIII, IX, XI)
Multiple factor deficiencies (rare)

27. Initial Evaluation of a Bleeding Patient
Abnormal PT
Abnormal PTT
50:50 mix is abnormal
Repeat
with
50:50
mix
Test for inhibitor activity:
Specific : Factors V, X, prothrombin, fibrinogen (rare)
Non-specific: anti-phospholipid (common)
50:50 mix is normal
Test for factor deficiency:
Isolated deficiency in common pathway: Factors V, X,
Prothrombin, Fibrinogen
Multiple factor deficiencies (common)
(Liver disease, vitamin K deficiency, warfarin, DIC)

28. Bleeding time
5-10% of patients hospitalized patients have a prolonged bleeding time
Most of the prolonged bleeding times are due to aspirin or drug ingestion
Prolonged bleeding time does not predict excess surgical blood loss
Not recommended for routine testing in preoperative patients

29. Thrombin Time Measures rate of fibrinogen conversion to fibrin
Procedure:
Add thrombin with patient plasma
Measure time to clot
Variables:
Source and quantity of thrombin

30. Causes of prolonged Thrombin Time
Heparin
Hypofibrinogenemia
Dysfibrinogenemia
Paraprotein
Thrombin inhibitors (Hirudin)
Thrombin antibodies

31. PLATELETS

32. Approach to the thrombocytopenic patient
History
Is the patient bleeding?
2. Are there symptoms of a secondary illness? (neoplasm, infection, autoimmune disease)
3. Is there a history of medications, alcohol use, or recent transfusion?

33. Approach to the thrombocytopenic patient
History
4. Are there risk factors for viral infection?
5.Is there a family history of thrombocytopenia?
6. Do the sites of bleeding suggest a platelet defect?

34. Approach to the thrombocytopenic patient
Assess the number and function of platelets
CBC with peripheral smear
Bleeding time
Platelet aggregation study
PFA

35. Classification of platelet disorders
Quantitative disorders
Abnormal distribution
Dilution effect
Decreased production
Increased destruction

36. Classification of platelet disorders
Qualitative disorders
Inherited disorders (rare)
Acquired disorders
Immune
Medications
Chronic renal failure
Cardiopulmonary bypass
Liver disease

37. Inherited platelet disorders
Rare congenital abnormalities on synthesis or release of secretory granules

38. Inherited platelet disorders
Gray platelets syndrome:
No alpha granules

39. Inherited platelet disorders
May-Hegglin:
Thrombocytopenia
Large platelets
Neutrophils – Dohle bodies

40. Inherited platelet disorders
Glazmann’s thrombasthenia:
Congenital deficiency or abnormality of GP IIb-IIIa
Bernard-Solier syndrome:
Congenital deficiency or abnormality of GP Ib

41. Acquired platelet disorders
Decreased production:
Ineffective thrombopoiesis - MDS
Increased destruction:
Immune
Non-immune
Poor aggregation

42. Increased platelets destruction
1. Immune-mediated
Idiopathic - ITP
Drug-induced
Collagen vascular disease
Lymphoproliferative disease
Sarcoidosis
2.Non-immune mediated
DIC
Microangiopathic hemolytic anemia

43. ITP is a diagnosis of exclusion !

44. Initial Treatment of ITP
Platelet count Symptoms Treatment
>50,000 None
20-50,000 Not bleeding None
Bleeding Glucocorticoids
IVIG
<20,000 Not bleeding Glucocorticoids
Bleeding Glucocorticoids
Hospitalization
Rituximab

45. COAGULATION FACTOR DEFECTS

46. Inherited Coagulation factor bleeding disorders
vonWillebrand’s disease
Hemophilia (A and B)

47. vonWillebrand disease
Most common hereditary
coagulation disorder
Autossomal dominant
Incidence 1:1000
Erik A. vonWillenbrand M.D.
( )

48. vonWillebrand factor Synthesis in endothelium and megakaryocytes
Forms large multimers
Carrier of factor VIII
Anchors platelets to subendothelium
Bridge between platelets

49. vonWillebrand disease
Abnormal synthesis of von Willebrand factor (vWF) causes decreased platelet adhesion and decreased serum levels of factor VIII

50. vonWillebrand disease
Classification
Type 1 Partial quantitative deficiency (“decreased”)
Type 2 Qualitative deficiency
(“abnormal”)
Type 3 Total quantitative deficiency
(“absent”)

51. vonWillebrand disease
Laboratory evaluation:
vonWillebrand type
Assay
vWF antigen ß Normal ßß
vWF activity ß ß ßß
Multimer analysis Normal Normal Absent

52. Treatment of von Willebrand Disease
DDAVP (deamino-8-arginine vasopressin)
 plasma VWF levels by stimulating secretion from endothelium
Duration of response is variable
Not generally used in type 2 disease
Dosage 0.3 µg/kg q 12 hr IV

53. Treatment of von Willebrand Disease
Cryoprecipitate
Source of fibrinogen, factor VIII and VWF
Only plasma fraction that consistently contains VWF multimers
Factor VIII concentrate (Intermediate purity)
Virally inactivated product
Humate-P or Koate-HS

54. Hemophilia
Clinical manifestations (hemophilia A & B are indistinguishable)
Prolonged bleeding after surgery or dental extractions
Hemarthrosis (most common)
Soft tissue hematomas
Other sites of bleeding
Urinary tract
CNS, neck (may be life-threatening)

56. Dosing guidelines for hemophilia A
Mild bleeding:
Hemarthrosis, oropharyngeal or dental, epistaxis, hematuria
Target: 30% dosing q8-12h; 1-2 days (15U/kg)
Major bleeding
CNS trauma, hemorrhage, lumbar puncture
Surgery
Retroperitoneal hemorrhage
GI bleeding
Target: % q8-12h; 7-14 days (50U/kg)
Adjunctive therapy
-aminocaproic acid (Amicar) or DDAVP (for mild disease only)

57. Treatment of hemophilia B
Agent
High purity factor IX
Recombinant human factor IX
Dose
Initial dose: 100U/kg
Subsequent: 50U/kg every 24 hours

58. Acquired bleeding disorders:
Vitamin K deficiency
Liver disease
Warfarin overdose
DIC
Inhibitors to CF

59. Vitamin K deficiency

60. Vitamin K deficiency Source of vitamin K : Green vegetables
Synthesized by intestinal flora
Required for synthesis
Factors II, VII, IX ,X
Protein C and S
Causes of deficiency :
Malnutrition
Billiary obstruction
Malabsorption
Antibiotic therapy

61. Vitamin K deficiency Treatment: Vitamin K replacement
Fresh frozen plasma

62. DIC

63. Disseminated Intravascular Coagulation
Activation of both coagulation and fibrinolysis
Triggered by
Sepsis
Trauma
Head injury
Fat embolism
Malignancy
Obstetrical complications
Amniotic fluid embolism
Abruptio placentae
Vascular disorders
Reaction to toxin (e.g. snake venom, drugs)
Immunologic disorders
Severe allergic reaction
Transplant rejection

64. Disseminated Intravascular Coagulation (DIC) Mechanism
Systemic activation
of coagulation
Depletion of platelets
and coagulation factors
Intravascular
deposition of fibrin
Activation of fibrinolysis
Thrombosis of small
and midsize vessels
tissue hypoxia and organ failure
Bleeding

65. Release of thromboplastic material into
Pathogenesis of DIC
Release of thromboplastic material into
circulation
Consumption of
coagulation factors;
presence of FDPs
 aPTT
 PT
 TT
 Fibrinogen
Presence of plasmin
 D-dimer
Intravascular clot
 Platelets
Schistocytes
Coagulation
Fibrinolysis
Fibrinogen
Thrombin
Plasmin
Fibrin
Monomers
Fibrin(ogen)
Degradation
Products
Fibrin
Clot
(intravascular)
Plasmin

67. Disseminated Intravascular Coagulation Treatment approaches
Treatment of underlying disorder
Anticoagulation with heparin
Platelet transfusion
Fresh frozen plasma
Coagulation inhibitor concentrate (ATIII)

68. Hemostasis in liver disease2

69. Liver Disease and Hemostasis
Decreased synthesis of II, VII, IX, X, XI, and fibrinogen
Dietary Vitamin K deficiency (Inadequate intake or malabsortion)
Dysfibrinogenemia
Enhanced fibrinolysis (Decreased alpha-2-antiplasmin)
DIC
Thrombocytopenia due to hypersplenism

70. Management of Hemostatic Defects in Liver Disease
Treatment for prolonged PT/PTT
Vitamin K 10 mg SQ x 3 days - usually ineffective
Fresh-frozen plasma infusion:
25-30% of plasma volume ( ml)
(immediate but temporary effect)
Treatment for low fibrinogen
Cryoprecipitate (1 unit/10kg body

71. Warfarin Toxicity

72. Warfarin overdose Managing high INR values
Clinical situation Guidelines
INR therapeutic-5 Lower or omit next dose;
Resume therapy when INR is therapeutic
INR 5-9; no bleeding Lower or omit next one or two dose;
Omit dose and give vitamin K ( 1-2 mg po)
Rapid reversal: vitamin K 2-4 mg po (repeat)
INR >9; no bleeding Omit dose; vitamin K 10 mg po; repeat as necessary
Resume therapy at lower dose when INR therapeutic
Chest 2004:126; 213 S (supplement)

73. Warfarin overdose Managing high INR values in bleeding patients
Clinical situation Guidelines
Serious bleeding at
Any elevation INR Omit warfarin
Vitamin K 10 mg slow IV infusion
Omit warfarin
Repeat vitamin K injections every 12 hrs
FFP, PCC or Factor VIIa (depending on urgency)
Any life-threatening Vitamin K 10 mg slow IV infusion
PCC ( or recombinant human factor VIIa)
Chest 2004:126; 213 S (supplement)

74. Approach to Post-operative bleeding
Is the bleeding local or due to a hemostatic failure?
Local: Single site of bleeding usually rapid with minimal coagulation test abnormalities
Hemostatic failure: Multiple site or unusual pattern with abnormal coagulation tests

75. Approach to Post-operative bleeding
Evaluate for causes of peri-operative hemostatic failure
Preexisting abnormality
Special cases (e.g. Cardiopulmonmary bypass)
Diagnosis of hemostatic failure
Review pre-operative testing
Obtain updated testing

76. Approach to bleeding disorders Summary
Identify and correct any specific defect of hemostasis
Laboratory testing is always needed to establish the cause of bleeding
Screening tests (PT,PTT, platelet count) will often allow placement into one of the broad categories
Specialized testing is usually necessary to establish a specific diagnosis
Use non-transfusional drugs whenever possible
RBC transfusions for surgical procedures or large blood loss

77. THANK YOU!

79. Recombinant human factor VIIa (rhVIIa; Novoseven)
Mechanism
Direct activation of common pathway
Use
Factor VIII inhibitors
Bleeding with other clotting disorders
Warfarin overdose with bleeding
CNS bleeding with or without warfarin
Dose
90 µg/kg IV q 2 hr
“Adjust as clinically indicated”
Cost (70 kg person) - $1 per µg
~$5,000/dose or $60,000/day

80. Drugs and blood products used for bleeding2

81. Treatment Approaches to the Bleeding Patient
Red blood cells
Platelet transfusions
Fresh frozen plasma
Cryoprecipitate
Amicar
DDAVP
Recombinant Human factor VIIa

82. RBC transfusion therapy Indications
Improve oxygen carrying capacity of blood
Bleeding
Chronic anemia that is symptomatic
Peri-operative management

83. Red blood cell transfusions Special preparation
CMV-negative CMV-negative patients Prevent CMV
transmission
Irradiated RBCs Immune deficient recipient Prevent GVHD
or direct donor
Leukopoor Previous non-hemolytic Prevents reaction
transfusion reaction
CMV negative patients Prevents transmission
Washed RBC PNH patients Prevents hemolysis
IgA deficient recipient Prevents anaphylaxis

84. Transfusion-transmitted disease
Infectious agent Risk
HIV 1/500,000
Hepatitis C 1/600,000
Hepatitis B 1/500,000
Hepatitis A <1/1,000,000
HTLV I/II 1/640,000
CMV 50% donors are sero-positive
Bacteria 1/250 in platelet transfusions
Creutzfeld-Jakob disease Unknown
Others Unknown

85. Platelet transfusions
Source
Platelet concentrate (Random donor)
Pheresis platelets (Single donor)
Target level
Bone marrow suppressed patient (>10-20,000/µl)
Bleeding/surgical patient (>50,000/µl)

86. Fresh frozen plasma Content - plasma (decreased factor V and VIII)
Indications
Multiple coagulation deficiencies (liver disease, trauma)
DIC
Warfarin reversal
Coagulation deficiency (factor XI or VII)
Dose (225 ml/unit)
10-15 ml/kg
Note
Viral screened product
ABO compatible

87. Cryoprecipitate Prepared from FFP Content Indications
Factor VIII, von Willebrand factor, fibrinogen
Indications
Fibrinogen deficiency
Uremia
von Willebrand disease
Dose (1 unit = 1 bag)
1-2 units/10 kg body weight

88. Hemostatic drugs Aminocaproic acid (Amicar)
Mechanism
Prevent activation plaminogen -> plasmin
Dose
50mg/kg po or IV q 4 hr
Uses
Primary menorrhagia
Oral bleeding
Bleeding in patients with thrombocytopenia
Blood loss during cardiac surgery
Side effects
GI toxicity
Thrombi formation

89. Hemostatic drugs Aminocaproic acid (Amicar)
Mechanism
Prevent activation plaminogen -> plasmin
Dose
50mg/kg po or IV q 4 hr
Uses
Primary menorrhagia
Oral bleeding
Bleeding in patients with thrombocytopenia
Blood loss during cardiac surgery
Side effects
GI toxicity
Thrombi formation

90. Hemostatic drugs Desmopressin (DDAVP)
Mechanism
Increased release of VWF from endothelium
Dose
0.3µg/kg IV q12 hrs
150mg intranasal q12hrs
Uses
Most patients with von Willebrand disease
Mild hemophilia A
Side effects
Facial flushing and headache
Water retention and hyponatremia

91. Overview Clinical aspects of bleeding
Hematologic disorders causing bleeding
Coagulation factor disorders
Platelet disorders
Approach to laboratory abnormalities
Diagnosis and management of thrombocytopenia
Approach to acquired bleeding disorders
Hemostasis in liver disease
Surgical patients
Warfarin toxicity
Drugs and blood products used for bleeding

92. Clinical Features of Bleeding Disorders
Platelet Coagulation disorders factor disorders
Site of bleeding Skin Deep in soft tissues
Mucous membranes (joints, muscles)
(epistaxis, gum,
vaginal, GI tract)
Petechiae Yes No
Ecchymoses (“bruises”) Small, superficial Large, deep
Hemarthrosis / muscle bleeding Extremely rare Common
Bleeding after cuts & scratches Yes No
Bleeding after surgery or trauma Immediate, Delayed (1-2 days),
usually mild often severe

93. Pre-analytic errors Problems with blue-top tube
Partial fill tubes
Vacuum leak and citrate evaporation
Problems with phlebotomy
Heparin contamination
Wrong label
Slow fill
Underfill
Vigorous shaking
Biological effects
Hct ≥55 or ≤15
Lipemia, hyperbilirubinemia, hemolysis
Laboratory errors
Delay in testing
Prolonged incubation at 37°C
Freeze/thaw deterioration

94. Coagulation factor deficiencies
Sex-linked recessive
 Factors VIII and IX deficiencies cause bleeding
Prolonged PTT; PT normal
Autosomal recessive (rare)
Factors II, V, VII, X, XI
Fibrinogen deficiencies cause bleeding
Prolonged PT and/or PTT
 Factor XIII deficiency is associated with bleeding and
impaired wound healing
PT/ PTT normal; clot solubility abnormal
 Factor XII, prekallikrein, HMWK deficiencies do not cause bleeding

95. Classification of platelet disorders
Associated with bleeding
Immune-mediated (Idiopathic) thrombocytopenic purpura
Most others

96. Classification of platelet disorders
Associated with thrombosis
Thrombotic thrombocytopenic purpura
Heparin-induced thrombocytopenia
Trousseau’s syndrome
DIC

97. Hemophilia A and B Hemophilia A Hemophilia B
Coagulation factor deficiency Factor VIII Factor IX
Inheritance X-linked X-linked
recessive recessive
Incidence 1/10,000 males 1/60,000 males
Severity Related to factor level
<1% - Severe - spontaneous bleeding
1-5% - Moderate - bleeding with mild injury
5-25% - Mild - bleeding with surgery or trauma
Complications Soft tissue bleeding

98. Treatment of hemophilia A
Intermediate purity plasma products
Virucidally treated
May contain von Willebrand factor
High purity (monoclonal) plasma products
No functional von Willebrand factor
Recombinant factor VIII
Virus free/No apparent risk

99. Complications of therapy
Formation of inhibitors (antibodies)
10-15% of severe hemophilia A patients
1-2% of severe hemophilia B patients
Viral infections
Hepatitis B Human parvovirus
Hepatitis C Hepatitis A
HIV Other

100. Features of Acute and Chronic ITP
Features Acute Chronic
Peak age Children (2-6 yrs) Adults (20-40 yrs)
Female:male 1:1 3:1
Antecedent infection Common Rare
Onset of symptoms Abrupt indolent
Platelet count at presentation <20,000 <50,000
Duration weeks Long-term
Spontaneous remission Common Uncommon