Coagulation I

Question 1

What is reflex vasoconstriction?

Answer 1

occurs immediately after an injury to restrict blood flow to the injured area

Question 2

What initiates reflex vasoconstriction? Augmented?

Answer 2

• Initiated: reflex neurogenic mechanisms
• Augmented: transient local secretion of endothelin

Question 3

What are the 3 overall steps to primary hemostasis?

Answer 3

1. Adhesion
2. Activation
3. Platelet aggregation

Question 4

What happens during the adhesion stage of primary hemostasis?

Answer 4

exposure subendothelial collagen & vWF

vWF binds to both collagen & platelet receptor GPIb/IX/V complex

this activates the platelets & initiates a signaling cascade

Question 5

What are the two components to the activation stage of primary hemostasis?

Answer 5

1. Platelets undergo shape change (increase SA)
   
   1. smooth disks to spiky & conformational change surface GPIIb/IIIa → increases affinity for fibrinogen & PL on membrane
   2. PL serve to assemble coagulation factor complexes
2. Release of platelet granule contents
   
   1. recruit additional platelets & helps to activate multiple coagulation factors

Question 6

Platelet activation is triggered by what substances?

Answer 6

thrombin (through activation PAR)

ADP also recruits platelets

Question 7

Activated platelets produce what potent inducer of platelet aggregation?

Answer 7

thromboxane A2 (TxA2)

Question 8

Describe the process of platelet aggregation

Answer 8

When GpIIb/IIIa binds to fibrinogen, this forms bridges between adjacent platelets, leading to aggregation

Question 9

Is platelet aggregation reversible?

Answer 9

the initial round is reversible

when thrombin stabilizes the platelet plug, this leads to irreversible platelet contraction

Question 10

How do ADP & thromboxane A2 help platelet aggregation?

Answer 10

binding of platelet GpIIb/IIIa receptor to fibrinogen

Question 11

What process is shown in the provided image?

Answer 11

platelet activation

Question 12

How is secondary hemostasis initiated?

Answer 12

same time platelets are being activated, local activation of coagulation cascade is initiated by exposure of tissue factor (TF)

Question 13

How does TF initiate coagulation cascade? This is what pathway?

Answer 13

extrinsic pathway

• TF binds to circulating VII → VIIa
• VIIa activates IX → IXa & X → Xa

Question 14

What molecules initiates the intrinsic pathway? When?

Answer 14

• circulating factor XII autoactivates when exposed to collagen/activated platelets

Question 15

What is the result of the intrinsic & extrinsic pathways?

Answer 15

activation of series of proteolytic enzymes → generation thrombin & soluble fibrinogen → insoluble fibrinogen → fibrin polymerizes & cements platelets into hemostatic plug → plug is crosslinked by factor XIII

Question 16

What is the most important coagulation factor?

Answer 16

thrombin

many enzymatic controls of hemostasis & link clotting to inflammation and repair

Question 17

What are thrombin’s 4 most important functions?

Answer 17

1. conversion fibrinogen → cross-linked fibrin = insoluble clot
   
   1. activates XI, V, & VII → amplify coagulation cascade
   2. activate XIII → cross-links fibrin
2. activation platelets (via activation PARS)
3. Pro-inflammatory effects
4. Anticoagulant effect
   
   1. in normal endothelium changes from pro-coagulant to anticoagulant

Question 18

Why is it important that thrombin acts as an anticoagulant in normal endothelium?

Answer 18

prevents clotting form spreading beyond the site of injury

Question 19

What are the 4 major counter-regulatory mechanisms that limit the hemostatic process to the site of injury?

Answer 19

1. Dilution of factors by blood flowing past the injury (& washed by liver)
2. Requirement for negatively charged phospholipids for activation of many factors
3. activation fibrinolytic system - via t-PA (most active when bound to fibrin)
4. free palsmin in blood is rapidly inhibited by alpha2-antiplasmin inhibitor to limit fibrinolysis

Question 20

What is the function of t-PA?

Answer 20

t-PA converts inactive plasminogen to active plasmin

plasmin breaks down fibrin & fibrinogen

Question 21

What are the 3 groups of anticoagulant properties of normal intact vascular endothelium?

Answer 21

1. Platelet inhibitory effects
2. Anticoagulant effects
3. Fibrinolytic effects

Question 22

What platelet inhibitory effects are exhibited by normal intact vascular endothelium?

Answer 22

• shields platelets from vWF & collagen
• prostacyclin (PGI₂), nitric oxide (NO), adenosine diphosphatase (degrades ADP) inhibit platelet adhesion & aggregation
• endothelial cells bind & change activity of thrombin from procoagulant to anticoagulant

Question 23

What anticoagulant effects are exhibited by normal intact vascular endothelium?

Answer 23

• thrombomodulin & protein C receptor bind thrombin & protein C in a complex - thrombin can no longer activate coagulation factors & platelets
  
  • thrombin cleaves & activates protein C
• Heparin-like molecules bind & activate antithrombin
• Tissue factor pathway inhibitor (TFPI) most potent inhibitor of factor VIIa-tissue factor complex

Question 24

What is antithrombin? It is enhanced by what molecules?

Answer 24

protein that inhibits factors IIa, Xa, VIIa, IXa, Xia, kallikren, and XIIa

enhanced by heparin or heparin-like molecules → give antithrombin its anticoagulant properties

Question 25

What fibrinolytic effects effects are exhibited by normal intact vascular endothelium?

Answer 25

synthesize t-PA

key component fibrinolytic system

Question 26

What is the main initiator of the clotting cascade in the body?

Answer 26

Tissue factor - amplified by feedback loops involving thrombin

Question 27

Clotting in vitro is initiated by what substances?

Answer 27

adding phospholipids, calcium & either negatively-charged substance (intrinsic pathway) or source of tissue factor (extrinsic pathway)

Question 28

Hemostasis testing should occur at what ratio of what substances?

Answer 28

citrulated plasma (blue top)

9:1 ratio blood:antcoagulant

Question 29

How is a PT acquired?

Answer 29

tissue thromboplastin & calcium added to citrulated plasma

time to form a clot in tube recorded in seconds

Question 30

PT asses what factors?

Answer 30

integrity of extrinsic & common pathway

Question 31

PT is useful for what type of monitoring/screening?

Answer 31

monitoring warfarin-type anticoagulants

screening for vitamin K deficiency

Question 32

A prolonged PT can be due to deficiencies in what factors?

Answer 32

• fibrinogen (<100mg/dl)
• prothrombin (II)
• VII
• X
• V

Question 33

Warfarin causes a decrease in what factors?

Answer 33

• II
• VII
• IX
• X

Question 34

What is the most useful test to monitor Warfarin therapy?

Answer 34

PT

Question 35

Other than factor deficiencies, what are the other reasons for a prolonged PT?

Answer 35

FDP (fibrin degradation products)

D-dimer (plasmin breakdown product)

act as circulating anti-thrombins

Question 36

Can you use PT to monitor heparin?

Answer 36

yes, but less sensitive than APTT or TT

Question 37

PT is not affected by deficiencies in what factors?

Answer 37

• XII
• XI
• IX
• VIII
• HMWK
• prekallikrein

Question 38

What is the INR?

Answer 38

calculated value using the measured PT result, the ISI (international sensitivity index) of the reagent & the MRI (mean reference interval)

developed to better standardize monitoring of warfarin therapy - consistency from one lab to another

Question 39

What is the purpose of the lines on the test tubes used to collect blood to screen for hemostasis?

Answer 39

max fill & min fill

overfill - too much blood per anticoagulant

under-fill - too much anticoagulant per blood

want ration 9:1 blood:anticoagulant

Question 40

What type of blood is used to screen for hemostasis?

Answer 40

platelet poor plasma

(has been spun down)

want to get normal platelets out of there so they do not confound the test

Question 41

Even if you fill the tube to the correct level for 9:1 blood:anticoagulant, what other variable can alter test results?

Answer 41

significant increases & decreases in Hct

Question 42

Why is calcium added to the sample when performing PT?

Answer 42

sodium citrate binds calcium in blood as its mechanism as an anticoagulant

adding a bunch of calcium overcomes this anticoagulant & allows the clotting process to begin

Question 43

How is an Activated Partial Thromboplastin Time (APTT) acquired?

Answer 43

an activator or “contact” factors is added with phospholipids (“partial thromboplastin”) to citrated plasma & incubated for specified time at 37 degrees C

calcium is added & the time to formation of clot is measured in seconds

Question 44

APTT assess what factors?

Answer 44

integrity of intrinsic & common pathway

Question 45

APTT is prolonged by deficiencies in what factors?

Answer 45

• XII
• XI
• IX
• X
• VIII
• V
• thrombin (II)
• fibrinogen (I)
• prekallikrein & high molecular weight prekallikrein

Question 46

What is the most common cause of prolonged APTT in hospitalized patients?

Answer 46

heparin (antithrombin)

Question 47

What is the new standard for assessing heparin therapy?

Answer 47

heparin assay

anti-Xa or Xa inhibition test

Question 48

APTT is prolonged by what type of inhibitors?

Answer 48

• lupus anticoagulant
• fibrin degradation products (FDP)
• specific factor inhibitors
• direct thrombin inhibitors

Question 49

How can improper storage lead to increased APTT time?

Answer 49

factor VIII is labile & will deteriorate if has been sitting at room temp >4 hr

Question 50

APTT is not affected by deficiencies in what factors?

Answer 50

VII

Question 51

Shortened APTT or PT may be due to what probable causes?

Answer 51

• traumatic blood draw & subsequent activation coagulation cascade prior to testing
• may indicated elevated risk of thrombosis due to elevated levels one or more factor

Question 52

How is a Thrombin Time (TT) acquired?

Answer 52

thrombin is added to plasma & the time to form a clot is measured in seconds

Question 53

TT asses what factors?

Answer 53

the time it takes thrombin to convert fibrinogen to fibrin

Question 54

What is the most sensitive test to use for detection of heparin?

Why is it not used to monitor therapy?

Answer 54

TT

too sensitive - if heparin is present, TT will often be >60s

Question 55

Other than heparin, TT may be prolonged by what situations?

Answer 55

• afibrinogenemia
• hypofibrinogenemia
• dysfibrinogenemia
• inhibitors
  
  • paraproteins (inhibit polymerization)
  • fibrin degradation products
• direct thrombin inhibitors
  
  • argatroban
  • lepirudin

Question 56

What is the clotting factor in the highest concentration in plasma?

Answer 56

fibrinogen

(largely absent in serum)

Question 57

What are the two types of fibrinogen assays?

Answer 57

functional or antigenic

Question 58

What are the possible causes of decreased fibrinogen levels?

Answer 58

• afibrinogenemia or hypofibrinogenemia
  
  • dysfibrinogenemia if functional assay is performed
• heparin

Question 59

What are the possible causes of increased fibrinogen levels?

Answer 59

inflammation or malignancy

Question 60

What is the minimal fibrinogen level for hemostasis?

Answer 60

75-100 mg/dL

Question 61

How are fibrin degradation products formed?

Answer 61

plasmin-mediated degradation of fibrin & fibrinogen

Question 62

Fibrin degradation products may be elevated in what situations?

Answer 62

• DIC, thrombosis, significant bleeding
• mucin-secreting adenocarcinomas
• cirrhosis
  
  • diseased clearance by liver

Question 63

What is a D-dimer? How is it formed?

Answer 63

subtype FDP

formed from plasmin-mediated degradation of mostly cross-linked fibrin

Question 64

D-Dimer may be elevated in what situations?

Answer 64

• DIC, thrombosis or significant bleeding
• mucin-secreting adenocarcinomas
• cirrhosis
  
  • decreased clearance FDP

Question 65

What is bleeding time used to assess?

Answer 65

screen for capillary integrity & platelet function

not great- poor predictor bleeding risk

USELESS as pre-op screen bleeding risk

Question 66

How is a bleeding time acquired?

Answer 66

shallow cut on arm of patient at rest

measure time until bleeding stops

Question 67

Bleeding time can be affected by what variables?

Answer 67

• age
• hydration
• temperature of room
• direction of cut
• location on arm
• etc

Question 68

When are mixing studies used?

Answer 68

evaluation prolonged PT, APTT or both

differentiate factor deficiency from inhibitor as cause of prolongation

Question 69

How is a mixing study performed?

Answer 69

mix patient plasma 1:1 with normal pooled plasma to replace clotting factors to at least 50% normal

this is sufficient for normal hemostasis

Question 70

D-dimer is not specific, but a normal D-dimer effectively rules out what issue?

Answer 70

thrombosis

(PE/DVT)

Question 71

If the PT normalizes after the mixing study, what is likely the problem with the patient?

Answer 71

factor deficiency

I, II, V, VII, X

Question 72

If the PT corrects after the mixing study, but elongates again after incubation, what is likely the issue with your patient?

Answer 72

Factor V inhibitor

Question 73

If the APPT normalizes after the mixing study, what is likely the problem with the patient?

Answer 73

factor deficiency

VIII, IX, XI, XII

Question 74

If the APPT corrects after the mixing study, but elongates again after incubation, what is likely the issue with your patient?

Answer 74

Factor VIII inhibitor

Question 75

If the PT remains elongated after the mixing study, what is likely your patient’s issue?

Answer 75

inhibitor

(e.g. specific factor inhibitor)

Question 76

If the APPT remains elongated after the mixing study, what is likely your patient’s issue?

Answer 76

inhibitor - lupus anticoagulant