Chapter 2

Question 1

How does the endothelium prevent propagation of a clot?

Answer 1

Thrombomodulin production results in activation of protein C and subsequent inhibition of factors Va and VIIIa, while local TFPI release reversibly inhibits factor Xa
Endogenous heparin and dermatan sulfate expression results in antithrombin III binding- thus inactivating thrombin and preventing propagation of clot

Question 2

What is an early mediator of primary hemostasis during endothelial injury?

Answer 2

Vasoconstriction, as a result of neuromyogenic reflexes within the vascular smooth muscle

Question 3

How is vascular contraction further augmented?

Answer 3

Paracrine signaling via ADP, thromboxane A2 and serotonin from nearby adherent platelets

Question 4

What provides an avenue for platelet and leukocyte adhesion

Answer 4

Exposure of subendothelial tissue factor and collagen

Question 5

What improves coagulation protein and platelet binding?

Answer 5

Increased endothelial cell production of vWF
Expression of cellular TF and platelet-activating factor (PAF)
Reduced thrombomodulin activity

Question 6

Origin of platelets and lifespan

Answer 6

Derived from bone marrow megakaryocytes

Lifespan of 9-12 days

Question 7

What percentage of the body’s platelet pool is stored in the spleen?

Answer 7

1/3

Question 8

How is platelet adhesion further strengthened?

Answer 8

Presence of vWF, which mediates the binding of collagen with glycoprotein Ib/IX

Question 9

When does platelet plug formation occur?
When does clot stabilization occur?
What is clot stabilization aided by?

Answer 9

Within 1-3 mins of injury
Within 10 mins of injury
Aided in part by negative feedback from endothelial cell PGI2 release

Question 10

What occurs after platelet plug formation?

Answer 10

Procoagulant protein complexes (i.e, prothrombinase, tenase) form on platelet phospholipid surfaces and augment the production of thrombin via the coagulation cascade

Question 11

What is responsible for the production of all coagulation factors with the exception of VIII and vWF?

Answer 11

Liver

VIII and vWF are produced by endothelial cells

Question 12

How are factors II, VII, IX and X formed

Answer 12

Through vit K-dependent reactions

They are of particular importance in pharmacologic anticoagulation

Question 13

Traditional coagulation pathway

Answer 13

Extrinsic (PT/INR) and intrinsic (aPTT) merge into a common pathway

Question 14

More recent discovery of the coagulation pathway

Answer 14

Described in cell-based phases:
Initiation
Amplification
Propagation

Question 15

Process of initiation

Answer 15

TF is released by the injured vascular endothelium
Binds to factor VII to form TF-VIIa complexes
Complex activates factors X and IX to form Xa and IXa
Factors Xa and Va form the Xa-Va complex (prothrombinase complex)
Prothrombinase complex converts small amts of factor II (prothrombin) to factor IIa (thrombin)

Question 16

Process of amplification

Answer 16

Thrombin produced from initiation activates additional factor V, VIII, XI, and platelets through a pos feedback loop

Question 17

Process of propagation

Answer 17

Factors IXa and VIIIa form the factor IXa-VIIIa complex (tenase complex)
Tenase complex converts additional factor X to Xa, which then forms more prothrombinase complexes
Large amts of thrombin are generated, leading to the formation of fibrin from fibrinogen
Fibrin weaves throughout the platelet plug to form a stable fibrin clot

Question 18

What are important natural anticoagulants?

Answer 18

ATIII
Protein C
Protein S

Question 19

What does ATIII do?

Answer 19

Directly inhibits factors IIa (thrombin), IXa, Xa, and XIa

Question 20

What is protein C?

Answer 20

A vit-K dependent natural anticoagulant, which is activated by thrombin-thrombomodulin complexes on the endothelial cell surface following the formation of a clot

Question 21

What is protein S?

Answer 21

A vit-K dependent cofactor in the formation of APC

Question 22

What are important regulatory and precursor proteins necessary for fibrin degradation?

Answer 22

Plasminogen
tPA
a2-antiplasmin

Question 23

What does tPA do?

Answer 23

Acts to convert plasminogen to plasmin, which in turn binds fibrin and degrades the polymer into soluble split products

Question 24

What does a2-antiplasmin do?

Answer 24

Serves as a negative regulator of plasmin and binds and inactivates circulating excess plasmin
Binds continuously secreted plasmin, allowing early clot formation during vascular injury without immediate degradation

Question 25

What is a nl platelet count?

Answer 25

150-450K/microL of blood

Question 26

What occurs with a platelet count <50,000?

Answer 26

Pts are subject to easy bruising and bleeding?

Question 27

When does spontaneous bleeding occur?

Answer 27

Does not typically occur unless platelet counts are <20K

Question 28

What is considered a nl bleeding time?

Answer 28

Between 2-10 mins

Question 29

What does bleeding time measure?

Answer 29

Qualitative platelet dysfunction

Question 30

What is an abnormal bleeding time?

What is it associated with?

Answer 30

Between 10-15 mins
Associated with low-mod risk for bleeding
>15 mins is serious risk for spontaneous bleeding and severe platelet dysfunction or thrombocytopenia

Question 31

What does prothrombin time (PT) measure?

Answer 31

The function of the extrinsic and common pathways of the ex vivo coagulation cascade
Measures the function of VII, V, X, II and I

Question 32

What is a nl INR?

Answer 32

1.0

Question 33

What prolongs INR? Why?

Answer 33

Warfarin

Due to depletion of vit K-dependent factors II, VII, IX, and X

Question 34

What does aPTT measure?

Answer 34

The ex vivo intrinsic coagulation cascade, compromising high molecular weight kininogen, prekallikrein, and factors XI, IX, VIII, V, X, II, and I

Question 35

What is activated clotting time?

Answer 35

ACT is a test similar to aPTT but used in clinical situations requiring high-dose heparin administration (cardiopulmonary bypass, endovascular interventions, ECMO)

Question 36

What is TEG?

Answer 36

Thromboelastography
Provides a quantitative measure of all aspects of hemostasis, including:
Platelet aggregation
Clot strengthening
Fibrin cross-linking
Fibrinolysis

Question 37

Advantages of TEG

Answer 37

Quantification of thrombodynamics
Ability to differentiate between platelet and plasma coagulative disorders
Rapidity of its results

Question 38

What is the MC congenital bleeding disorder?

Answer 38

vWD

Question 39

Lab findings of vWD

Answer 39

Prolonged bleeding time
Mildly prolonged aPTT
Abnl platelet binding as measured by a depressed ristocetin cofactor assay

Question 40

Type I vWD inheritance pattern

Answer 40

Autosomal dominant

Characterized by quantitative reduction in vWF levels with nl protein structure and function

Question 41

Type II vWD

Answer 41

Variable inheritance pattern

Characterized by abnl qualitative protein function

Question 42

Type III vWD

Answer 42

Autosomal recessive inheritance pattern

Associated with severe bleeding with absent vWF production

Question 43

First-line therapy for type I and II vWD

Answer 43

DDAVP

Question 44

Tx for type III vWD

Answer 44

Surgical prophylaxis or bleeding

Transfusion with cryoprecipitate or factor VIII: vWF concentrate

Question 45

What is Glanzmann’s thrombasthenia?

Answer 45

A rare congenital platelet disorder that is a result of defective or decreased synthesis of glycoprotein IIb/IIIa
Platelets are unable to bind fibrinogen and lack the ability to form platelet aggregates

Question 46

Why does platelet dysfunction occur in renal dz?

Answer 46

It’s a result of numerous changes to protein function and intraluminal fluid dynamics

Question 47

What bleeding problems are found in uremic pts?

Answer 47

Dysfunctional vWF
Decreased thromboxane A2
Altered platelet granules

Question 48

What does anemia cause in renal dz pts?

Answer 48

Decreased platelet adhesion and aggregation

Question 49

Tx of uremic pts

Answer 49

Depends on severity of sx/bleeding risk
Dialysis
Epo
DDAVP/cryoprecipitate

Question 50

What is extracorporeal circuitry?

What does it give rise to?

Answer 50

Cardiopulmonary bypass, ECMO

Abnl platelet activation in part d/t fibrinogen accumulation within the oxygenation membrane

Question 51

What does consumption and loss of platelets from the circulating pool result in?

Answer 51

Thrombocytopenia as well as qualitative dysfunction

Question 52

How are therapeutic anticoagulation levels maintained with extracorporeal circulation?

Answer 52

Systemic unfractionated heparin given IV and intermittently into the extracorporeal circuit

Question 53

Type I HIT

Answer 53

May occur in as many as 10% of pts receiving unfractionated heparin
Typically resolves spontaneously within 96 hrs of heparin cessation

Question 54

Type II HIT

Answer 54

Unusual immunologic complication affecting 1-3% of pts

Question 55

Pathology of HIT

Answer 55

Heparin binds with PF4, which is released from platelet alpha granules normally.
in HIT, IgG antibodies form against the heparin-PF4 complex within 5-10 days of exposure that in turn, strongly activates platelet adhesion and aggregation

Question 56

When should you raise clinical concern for HIT?

Answer 56

When platelet counts decrease by >50% from preheparin levels

Question 57

What does massive platelet activation and platelet plug formation predispose the pt to?

Answer 57

Venous thrombosis
Thromboembolism
Limb ischemia
Stroke
MI

Question 58

Labs for HIT

Answer 58

Serotonin release assay (SRA)
Heparin-induced platelet aggregation assay (HIPA)
ELISA

Question 59

What is one of the more common screening tests in clinical use for HIT?

Answer 59

ELISA

Question 60

Tx of HIT

Answer 60

Immediate cessation of all heparin therapies
Non-heparin-based anticoagulation strategies unless clinical CI
Avoidance of platelet transfusion is appropriate to help propagation of white clot

Question 61

Idiopathic thrombocytic purpura (ITP)

Answer 61

An acquired d/o rising from pathologic destruction of platelets d/t autoantibody formation

Question 62

When does ITP commonly occur?

Answer 62

Time of infection (often viral) OR

altered immune homeostasis (malignancy, lymphoproliferative d/os, concurrent autoimmune dz)

Question 63

Dx of ITP

Answer 63

Clinical and one of exclusion

Question 64

Tx of ITP

Answer 64

With platelet count of <30K, initially prevention of bleeding
Include glucocorticoids and IVIG
2nd line is splenectomy
If surgery is CIed, rituximab

Question 65

Pathology of hemophilia A/B

Answer 65

A is deficiency of factor VIII
B is deficiency of factor IX
Impaired formation of tenase (VIII-IXa) complex, impacting the amplification phase of coagulation and leading to decreased factor Xa and thrombin creation

Question 66

Sx of hemophilia A/B

Answer 66

Mucosal bleeding
Excessive bleeding during circumcision
Hemarthrosis
Intracranial hemorrhage

Question 67

Labs for hemophilia A/B

Answer 67

Elevated aPTT

Decreased factor VIII or IX levels

Question 68

Tx of hemophilia A

Answer 68

Recombinant factor VIII
Cryoprecipitate transfusion
Desmopressin

Question 69

Tx of hemophilia B

Answer 69

Recombinant factor IX

FFP or cryoprecipitate transfusion

Question 70

DIC

Answer 70

Results from unchecked activation of the normal coagulation response with loss of localization
Sepsis is the MCC of DIC

Question 71

Pathophys of DIC

Answer 71

Stems from systemic microvascular activation of platelets, diffuse activation of clotting factors, deposition of fibrin with microangiopathic thrombosis, and subsequent fibrinolytic pathway inactivation

Question 72

Dx of DIC

Answer 72

Clinical dx of exclusion

Schistocytes on peripheral blood smear

Question 73

Tx of DIC

Answer 73

Maintain an INR <1.5 and platelet count >50K

Question 74

Tx of bleeding secondary to hepatic failure

Answer 74

Correction of factor and platelet deficiencies with blood component management

Question 75

When is hypothermia commonly seen?

Answer 75

Altered coagulation as a result of:
Trauma
Massive resuscitation
Extended exposure to open body cavities during procedures
Iatrogenic hypothermia for cerebral or myocardial protection

Question 76

What is hypothermia associated with?

Answer 76

Impaired platelet function

Decreased collagen-induced platelet aggregation

Question 77

Tx of hypothermia

Answer 77

Treat underlying cause
Limit evaporative heat loss
Mild (>34 degrees Celsius)- passive rewarming techniques
Moderate (30-34 Celsius)- active rewarming
Severe (<30 Celsius)- External passive and active rewarming, internal rewarming

Question 78

Definition of massive transfusion

Answer 78

Replacement of a pts blood volume with packed RBCS (pRBCs) in a 24-hr period or acute transfusion of over half the pt’s blood volume per hr

Question 79

What is the massive transfusion protocol?

Answer 79

1:1:1 ratio of pRBC, FFP and platelet administration

Question 80

What is the MC hereditary procoagulant d/o?

Answer 80

Factor V Leiden

Question 81

Pathology of factor V Leiden

Answer 81

Mutation of the factor V protein prevents APC-mediated inactivation, thereby increasing risk for uncontrolled clot formation

Question 82

Dx of factor V Leiden

Answer 82

aPTT with and without APC

Question 83

Tx of factor V Leiden

Answer 83

No lifelong anticoagulation, only in thromboembolic events

Question 84

What does ATIII do?

Answer 84

Inactivates thrombin and factors Xa, IXa, and XIa

Question 85

What is the MC site of thrombosis in an ATIII deficiency?

Answer 85

Iliofemoral DVT

Question 86

Dx of ATIII deficiency

Answer 86

ATIII-heparin cofactor assay

Question 87

Tx of ATIII deficiency

Answer 87

FFP transfusion or ATIII concentrate

Question 88

Dx of protein C/S deficiency

Answer 88

Serum protein C and S levels below the nl limits

Question 89

What is the MC clinical manifestation of C/S deficiency?

Answer 89

Venous thromboembolism

Question 90

What is a known RF for pts with decreased protein C and S levels d/t a transient procoagulant state during initiation of the drug?

Answer 90

Warfarin-induced skin necrosis

Question 91

When should postponement of surgery occur?

Answer 91

Postpone beyond 6 wks for bare-metal stenting and 6 mos for drug-eluting stenting for noncardiac surgery pts
If not possible, continue dual antiplatelet therapy

Question 92

MOA of ASA

Answer 92

NSAID that irreversibly inhibit clyclooxygenase isoforms (COX-1 and COX-2)
Maintains its effects for the lifespan of the platelet

Question 93

MOA of ticlopidine, prasugrel and clopidogrel

Answer 93

Irreversibly inhibit activity of the ADP-P2Y receptor on the platelet membrane, which in turn impairs glycoprotein IIb/IIIa-mediated platelet cross-linking and aggregation

Question 94

When to use clopidogrel

Answer 94

ACS
Recent MI or CVA
Established PAD

Question 95

When to use prasugrel

Answer 95

ACS during PCI

It is found to inhibit platelet aggregation more rapidly and consistently compared to clopidogrel

Question 96

When to use cilostazol

Answer 96

Intermittent peripheral arterial claudication
Prevents vasoconstriction and smooth muscle proliferation
May require up to 1 yr before symptomatic relief is noticeable

Question 97

CIs of cilostazol

Answer 97

Dx of heart failure

Question 98

What are abciximab, eptifibatide, and tirofiban used for?

Answer 98

Adjuncts to heparin and ASA therapy

Question 99

What do heparin and LMWH do?

Answer 99

Increase ATIII activity

Primarily affects intrinsic and common pathways of in vitro coagulation

Question 100

How do you measure heparin and LMWH efficacy?

Answer 100

aPTT needs to be 1.5-2.5x the baseline aPTT value

Question 101

What is the onset of therapeutic warfarin anticoagulation

Answer 101

Takes at least 24-72 hrs

Principally affects extrinsic and common pathways of in vitro coagulation

Question 102

How to measure effect of warfarin

Answer 102

PT and INR

Question 103

MOA of direct thrombin inhibitors (DTI)

Examples of DTI

Answer 103

Inactivates circulating and clot-bound thrombin
Argatroban and bivalirudin
Dabigatran

Question 104

When to use argatroban

Answer 104

Those with contraindication to heparin

Question 105

Monitoring of argatroban

Answer 105

aPTT

Question 106

What is bivalirudin approved for?

Answer 106

Pts with ACS undergoing PCI

Question 107

What is dabigatran used for?

Answer 107

Tx/prevention of DVT, PE, non-valvular atrial fibrillation-associated stroke

Question 108

What are apixaban, roxaban, and edoxaban approved for?

Answer 108

VTE and nonvalvular a fib

Question 109

Measurement of apixaban, roxaban, and edoxaban

Answer 109

Anti-factor Xa activity

Question 110

What is r-tPA approved for?

Answer 110

Acute STEMI
Acute ischemic stroke
Acute massive PE

Question 111

Use of oxidized regenerated cellulose products

Answer 111

Frequently used as topical mesh placed on sites of bleeding to promote coagulation

Question 112

Use of gelatin matrix products

Answer 112

Can absorb blood up to 40x their weight and serve as the foundation of a hemostatic plug

Question 113

Use of topical thrombin and fibrin sealants

Answer 113

Commonly used bioactive topicals that augment hemostasis via directed factor II (topical thrombin) or fibrinogen (fibrin) application

Question 114

MOA of aminocaproic acid

Answer 114

Interferes with fibrinolysis by competitively blocking the fibrin-binding site on plasminogen, thereby preventing conversion to plasmin

Question 115

Use of aminocaporic acid

Answer 115

Prevention of fibrinolytic bleeding d/t:
Cardiac surgery
Congenital hematologic dz
Cirrhosis
Malignancy

Question 116

Use of tranexamic acid

Answer 116

Hemophiliac pts undergoing dental procedures

Tx of menorrhagia

Question 117

Uses of desmopressin

Answer 117

DI
Nocturia
Management of bleeding secondary to hemophilia A, type I and 2 vWD, and prevention of surgical bleeding in hemophiliac pts

Question 118

Dosing of desmopressin in perioperative vWD and hemophilia A pts

Answer 118

30 mins IV or 2 hrs IN prior to the procedure

Question 119

What does protamine sulfate do?

Answer 119

Reverses the effects of heparin

Question 120

What does phytonadione (vit K) do?

Answer 120

Antagonizes the effects of warfarin

Question 121

What does each unit of pRBCs contain?

Answer 121

200 mL of RBC concentrate and an additional 100 mL of preservation solution

Question 122

What do pRBCs do?

Answer 122

Raise the recipient hematocrit approximately 3-4%

Question 123

Derivation of FFP and FP-24

Answer 123

Donor whole blood that has been separated and frozen within 8 (FFP) and 24 (FP-24) hrs

Question 124

When are FFP and FP-24 indicated?

Answer 124

Tx of multiple coagulation factor deficiencies, massive transfusion protocols, and when specific factor concentrates are not available

Question 125

What are components of cryoprecipitate?

Answer 125

Fibrinogen
Factor VIII
Factor XIII
vWF

Question 126

Indications of cryoprecipitate

Answer 126

Massive transfusion protocols
Hypofibrinogenemia
Factor VIII deficiencies when factor concentrates are not available
Bleeding associated with vWD when factor concentrates or DDAVP are not available

Question 127

Platelet concentration dose and efficacy

Answer 127

Contain around 7 x 10 to the 6th platelets per 50 mL

Each unit should increase platelet levels by at least 5K

Question 128

Indications for platelet transfusions

Answer 128

Massive transfusion
Hereditary platelet dysfunction
Drug-induced platelet dysfunction
Cardiopulmonary bypass surgery-related platelet destruction
Platelet underproduction

Question 129

What should platelet counts be in preparation for surgical procedures?

Answer 129

> 50K

Question 130

What are isolated and recombinant factors currently available?

Answer 130

Fibrinogen concentrate
Recombinant thrombin
Recombinant factors VIII and IX
vWF concentrate
Antithrombin concentrate
Of particular note in surgical populations: prothrombin complex concentrates (PCCs) and recombinant factor VIIa