Hematology Week 1: Primary Hemostasis

Question 1

Categories of Primary hemostatic Disorders

3 listed

Answer 1

• Disorder of platelets
• Disorders of von Willebrand Factor
• Disorders of connective tissue

Question 2

Primary hemostasis Clinical Presentations

4 listed

Answer 2

Mucocutaneous hemorrhage

• Epistaxis (nosebleeds)
• Menorrhagia or obstetric hemorrhage
• easy bruising, petechiae, purpura
• prolonged bleeding after shaving or body art

Question 3

Signs and symptoms of both primary and secondary hemostatic disorders

5 listed

Answer 3

• Iron Deficiency Anemia (occult blood loss)
• Bleeding after circumcision or umbilical stump bleeding
• Dental procedure bleeding
• History of transfusion
• Prolonged bleeding after injuries or surgery

Question 4

Platelet adhesion and shape change

Answer 4

platelets have folds but they bind vWF GPVI activation makes it spread out and cause platelet phospholipid spreading

Question 5

Alpha granules # per platelet

Answer 5

40-80 per platelet

Question 6

Alpha granules contain

4 listed

Answer 6

• vWf
• Factors V, VIII, and XIII
• Fibrinogen
• Platelet factor 4 (PF4)

Question 8

Dense Granules # per platelet

Answer 8

4-8 per platelet

Question 9

Dense granules contents

3 listed

Answer 9

• stores 60-70% of platelet calcium
• Contains ADP
• Serotonin

Question 10

Platelet Aggregation Process

3 listed

Answer 10

• Glycoprotein 2b-3a primarily binds fibrinogen
• early platelet activation opens GP 2b/3a to bind fibrinogen
• GP 2b/3a fibrinogen further activates platelets

Question 11

Platelet Activation: ADP Release and receptors

Answer 11

Dense granules contain ADP and platelets have ADP receptors so it self-stimulates and further activates receptors

Question 12

Platelet ADP receptor

Answer 12

P2Y Receptor

Question 13

Platelet Activation: Arachidonic Acid and Thromboxane Signaling

Answer 13

Arachidonic acid is converted into thromboxane A2 (TXA2) by cyclooxygenase 1 (COX-1)

TXA2 can self-stimulate and further activate other platelets

Question 14

Laboratory tests of platelet function

4 listed

Answer 14

• Bleeding time - time for cessation of bleeding from a standardized wound, not predictive of bleeding in non-symptomatic patients (not really used these days)
• PFA-100 - takes patients whole blood flowing under high shear stress with agonist lined cartridges (collagen-epinephrine or collagen-ADP), platelets aggregate and occlude the aperture (closure time)
• Platelet Aggregation - agonist addition to platelet-rich plasma to trigger platelet aggregation, light transmission increases as platelet aggregation increases
• CBC - for platelet count

Question 15

Bleeding Time Test

Answer 15

cut patient and time how long it bleeds

time for cessation of bleeding from a standardized wound, not predictive of bleeding in non-symptomatic patients (not really used these days)

Question 16

PFA-100 Test

Answer 16

takes patients whole blood flowing under high shear stress with agonist lined cartridges (collagen-epinephrine or collagen-ADP), platelets aggregate and occlude the aperture (closure time)

Question 17

Platelet Aggregation test

Answer 17

agonist addition to platelet-rich plasma to trigger platelet aggregation, light transmission increases as platelet aggregation increases

Question 18

Glanzmann thrombasthenia is what kind of disorder?

Answer 18

Platelet aggregation disorder

Question 19

Glanzmann thrombasthenia Clinical Features

Answer 19

Mucocutaneous Hemorrhage

Severe bleeding with trauma/surgery

Question 20

Glanzmann thrombasthenia Genetics

Answer 20

Congenital

Autosomal Recessive

Question 21

Glanzmann thrombasthenia Pathophysiology

Answer 21

Loss of GP2b/3a receptor = loss of platelet ability to aggregate to fibrinogen

Question 22

Glanzmann thrombasthenia Lab Testing

Answer 22

Loss of platelet aggregation to almost all agonists

platelet counts are normal

Question 23

Glanzmann thrombasthenia Overview

Answer 23

Question 24

What receptor is missing in Glanzmann Thrombasthenia

Answer 24

GP 2b/3a

Question 25

Most common Storage Pool Disorders with platelets

Answer 25

Most common is dense granule

Question 27

Storage pool disorders Etiology

Answer 27

Often autosomal dominant

Question 28

Clinical Presentations of Storage Pool Disorders

Answer 28

Variable degree of bleeding symptoms

Question 29

Storage Pool Disorders pathophysiology

Answer 29

Deficiency in dense granules or granule content

Question 30

Lab testing of storage pool disorders

Answer 30

• Decreased platelet aggregation to ADP agonist
• Normal platelet counts

Question 31

EM of Platelet Dense Granules

Answer 31

chocolate chip vs sugar cookie

Question 32

Bernard-Soulier Syndrome Clinical Features

3 listed

Answer 32

• Mucocutaneous Hemorrhage
• Severe bleeding with trauma/surgery
• Thrombocytopenia

Question 33

Bernard-Soulier Syndrome Etiology

Answer 33

Congenital

Autosomal Recessive

Question 34

Bernard-Soulier Syndrome Pathophysiology

Answer 34

Defective or absent GP1b Complex

Question 35

Bernard-Soulier Syndrome Lab Testing

Answer 35

• Low platelet count (<150,000/mm³)
• Normal platelet aggregation to almost all agonists

Question 36

Bernard-Soulier Syndrome Overview

Answer 36

Question 37

Bernard-Soulier Syndrome is a disorder of?

Answer 37

Platelet adhesion and thrombocytopenia

Question 38

What is missing in Bernard-Soulier Syndrome

Answer 38

GP1b complex

Question 39

thrombocytopenia definition

Answer 39

platelet count of 150,000/mm³

Question 40

Thrombocytopenia Mechanisms

3 listed

Answer 40

• production failure
• destruction
• sequestration

Question 41

Acquired Production failure mechanism of thrombocytes

4 listed

Answer 41

• Aplastic anemia
• myelosuppressive therapy (i.e. chemotherapy for leukemia)
• Viral infection (HIV, EBV, CMV, Rubella, and more)
• ethanol abuse

Question 42

Congenital Production failure mechanism of thrombocytes

Answer 42

Bernard-Soulier Syndrome (congenital thrombocytopenia)

Question 43

Categories of Platelet destruction mechanisms of thrombocytopenia

2 listed

Answer 43

Immune Mediated

Non-immune mediated

Question 44

Immune Mediated Platelet destruction mechanisms of thrombocytopenia

3 listed

Answer 44

• Immune thrombocytopenic purpura (ITP)
• Infection (HIV, HepC, Helicobacter pylori)
• Autoimmune disorders (SLE)

Question 45

Non-Immune Mediated Platelet destruction mechanisms of thrombocytopenia

4 listed

Answer 45

• Disseminated intravascular coagulation (DIC)
• Drug-induced thrombocytopenia (i.e. quinine)
• Sepsis
• Thrombotic microangiopathies (i.e. TTP, Hemolytic uremic syndrome)

Question 46

Quinine was used for?

Answer 46

To prophylactically treat malaria

Question 47

ITP AKA

Answer 47

Immune Thrombocytopenic Purpura

Question 48

ITP Clinical presentations

Answer 48

• isolated thrombocytopenia with no apparent acquired or congenital cause for thrombocytopenia
• Diagnosis of exclusion

Question 49

ITP Platelet Counts

Answer 49

range from mild to severe thrombocytopenia

Question 50

ITP Pathophysiology

Answer 50

• Increased platelet destruction by antiplatelet antibodies
• suppressed platelet production
• can also target megakaryocytes preventing platelet production

Question 51

Acute ITP

Answer 51

• Rapid onset of bleeding symptoms
• Most common form of ITP; typically seen in children < 10 years old
• Spontaneous resolution in <3 months is typical
• Conservative treatment: watchful waiting vs pharmacologic treatment

Question 52

Chronic ITP

Answer 52

• Typically seen in adults
• can evolve from acute ITP in children
• insidious onset with persistent thrombocytopenia

Question 53

Acute vs Chronic ITP

Answer 53

Question 54

ITP Therapies

Answer 54

• Intravenous Immune Globulin (IVIg)
• Glucocorticoids
• Splenectomy

Question 55

Platelet Sequestration due to splenomegaly mechanism of thrombocytopenia

Answer 55

seen in 2 conditions

• lymphomas
• Cirrhosis (portal hypertension leading to splenomegaly)

Normal sized spleen holds 1/3 circulating platelets

Severe splenomegaly can result in platelet counts < 50,000/mcl

Question 56

vWF AKA

Answer 56

von Willebrand Factor

Question 57

vWF binds?

Answer 57

Question 58

vWF is synthesized by?

Answer 58

Endothelial cells and megakaryocytes

Question 59

What is vWF?

Answer 59

forms long multimers which binds platelet GP1b

is a carrier protein for factor 8

Question 60

vWF functions

Answer 60

platelet adhesion to vessel wall

Shear-induced platelet aggregation

Carrier for factor 8

Question 61

Which vWF multimers have the greatest affinity for GP1b

Answer 61

longer vWF multimers have greater GP1b binding affinity

Question 62

VWD AKA

Answer 62

Von Willebrand Disease

Question 63

VWD types

3 listed

Answer 63

type 1

Type 2

Type 3

Question 64

Type 1 VWD

Answer 64

lower vWF levels

Question 65

Type 2 VWD

Answer 65

functional vWF abnormality

Question 66

Type 3 VWD

Answer 66

vWF is virtually absent

Question 67

What is the most common congenital bleeding disorder?

Answer 67

VWD

1% of the population has VWD

Question 68

VWD principles of therapy

Answer 68

Dual-defect of hemostasis

Lab test of vWF activity do not always predict the bleeding

Question 69

VWD Therapy

Answer 69

Desmopressin (DDAVP)

Question 70

DDAVP AKA

Answer 70

Desmopressin

Question 71

DDVAVP used to treat?

Answer 71

VWD

Question 72

DDAVP is?

Answer 72

• a synthetic analog of vasopressin without the vasopressor activity
• most useful type 1 vWD
• I.V. and nasal spray
• Mechanism: triggers release of vWF from Weibel-Palade bodies in endothelial cells