Coag/Transfusion

Question 1

What are three alpha 2b beta 3 (GIIb/IIIIa) receptor antagonists?

Answer 1

Abciximab eptifibatide tirofiban

Question 2

Thrombomodulin MOA? Where does it come from?

Answer 2

Binds thrombin > ACTIVATES PROTEIN C > inactivates Va and VIIIa (with cofactor protein S) & promotes fibrinolysis (inactivates PAI-1 & inhibits TAFI)Thrombomodulin from endothelium

Question 3

What is the platelet receptor for collagen?

Answer 3

GPVI

Question 4

Antiinflammatory effects of aPC

Answer 4

Inhibits apoptosis
Decrease NF-kB
Decrease inducible TF
Decrease adhesion molecules

Question 5

What suppresses fibrinolysis?

Answer 5

PAI-1TAFI

Question 6

PAI-1 upregulated by

Answer 6

TNF-a and CRP

Question 7

Heparin MOA

Answer 7

Facilitates AT-mediated inactivation of thrombin and factor Xa (also 7, 9, 11, 12)Facilitates release of TFPI from endothelial cells
PS binds to heparin-binding domain of endothelial cell matrix protein, thrombospondin
Inhibits complement and hemolysis induced thrombin generation

Question 8

What accumulates in stored blood?

Answer 8

IL-1, IL-6, IL-8, bactericidal permeability increasing protein, phospholipase A2, TNF-a

Question 9

TFPI MOA

Answer 9

inhibits EXTRINSIC pathwayTFPI from endothelium

Question 10

How long can FWB be stored?

Answer 10

8h

Question 11

How long can PC and PRP be stored?

Answer 11

5 d at 22C with gentle agitation

Question 12

What are platelet storage lesions?

Answer 12

Change in shape from discoid to spherical, generation of lactate from glycolysis with decrease in pH, release of platelet granules, decrease in fxn, reduction in posttransfusion recovery and survival

Question 13

Why should you not chill platelets?

Answer 13

chilling causes vWF receptors (GP1balpha-IX complex) on platelet surface. The integrin receptor alphaMbeta2 (C3R) of hepatic macrophages recognizes the receptor and eats the platelet

Question 14

Half life of factor II (in dogs)?

Answer 14

41 h

Question 15

Half life of factor VII (in dogs)?

Answer 15

6.2 h

Question 16

What is the platelet receptor for VWF?

Answer 16

GP 1b-IX-V

Question 17

How can giving pRBCs help with hemostasis?

Answer 17

1. dispersion of platelets to periphery 2. increase plt contact with endothelium 3. release ADP 4. scavenge NO (which inhibits plts) 5. increase production of TXA2 by platelets at bleeding site

Question 18

The platelet receptor alpha 2b beta 3 (GIIb/IIIIa) binds?

Answer 18

FIBRINOGENalso vWf

Question 19

HES-induced hypocoagulability is due to?

Answer 19

1. Reduced availability of alpha 2b beta 3 (GIIb/IIIIa) platelet receptors.
2. Decreased vWF (and VIII)
3. Altered FXIIIa fibrin crosslinking
4. HES molecules coat surface of platelet limiting binding of ligands

Question 20

LMWH MOA?

Answer 20

augments inhibitory effect of antithrombin on FXa.

Question 21

What is the test of choice to monitor LMWH?

Answer 21

Anti-Xa activity

Question 22

What is the test of choice to monitor warfarin?

Answer 22

Prothrombin time (PT) / INR

Question 23

What is INR?

Answer 23

PT results vary from different manufacturers (different tissue factor properties), so INR developed to standardize results.

Question 24

What is the test of choice to monitor unfractionated heparin?

Answer 24

activated partial thromboplastin time (aPTT) or anti-Xa activity

Question 25

How many subunits must UFH have in order to bind AT and thrombin?

Answer 25

18

Question 26

A patient with an increased risk of bleeding from LMWH overdose would have a low, normal, or high anti-Xa level?

Answer 26

high anti-Xa level

Question 27

List 3 secondary agonists released by activated platelets to recruit additional platelets, amplifying the initial response

Answer 27

Thromboxane A2, ADP, and serotonin

Question 28

Describe 2 mechanisms for platelet adhesion

Answer 28

Sub endothelial collagen via Platelet glycoprotein VI, or collagen bound vWF via glycoprotein 1b receptor

Question 29

The final common pathway for all platelet agonists is the activation of?

Answer 29

Platelet integrin alphaIIbbeta3 receptor (aka glycoprotein IIbIIIa receptor); this induces a conformational change and exposes binding domains for fibrinogen

Question 30

What factors does the PT test?

Answer 30

II, VII, X, V, and fibrinogen

Question 31

What is tested with an aPTT?

Answer 31

Factors II, V, VIII, IX, X, XI, XII, prekallikrein, HMWK, or fibrinogen

Question 32

What are FDP’s?

Answer 32

Fibrinogen degradation products, generated when fibrinogen, soluable fibrin, or cross-linked fibrin is lysed by plasmin.

Question 33

List 10 causes of elevated FDPs

Answer 33

Neoplasia, sepsis, SIRS, DIC, hepatic dysfunction, heart failure, thromboembolism, IMHA, heat stroke, trauma, and GDV

Question 34

What is a D-dimer?

Answer 34

Neo-epitope produced when soluable fibrin is crosslinked by fXIIIa. The epitope is exposed by plasmin-induced cleavage of cross-linked fibrin

Question 35

How do D-dimers differ from FDPs?

Answer 35

D-dimers are specific for active coagulation and fibrinolysis; indicate the activation of thrombin and plasmin (not just plasmin like FDPs)

Question 36

List 6 acquired causes of hypofibrinogenemia

Answer 36

Hemodilution, massive transfusion, hepatic dysfunction, DIC, sepsis, and after thrombolytic therapy

Question 37

What is the thrombin time a measure of?

Answer 37

Tests functional fibrinogen via a measure of the time taken for a standardized thrombin solution to convert fibrinogen to fibrin

Question 38

List 3 causes of a prolonged thrombin time

Answer 38

Hypofibrinogenemia, dysfibrinogenemia, or presence of factors (heparin, FSPs) that inhibit fibrin polymerization

Question 39

What is R and what does it represent?

Answer 39

Reaction time; represents enzymatic portion of coagulation (secondary homeostasis)

Question 40

What is K? What does it represent?

Answer 40

Clotting time; represents clot kinetics, largely determined by clotting factors, fibrinogen, and platelets

Question 41

What is the angle? What does it represent?

Answer 41

The angle represents the rapidity of fibrin accumulation and cross-linking and depends largely on fibrinogen, as well as platelets and factors.

Question 42

What is MA and what does it represent?

Answer 42

Maximum amplitude; it represents the ultimate strength of the fibrin clot, dependent primarily on platelet aggregation (number and function) and to a lesser extent, fibrinogen

Question 43

What is G and what does it represent?

Answer 43

Clot shear elastic modulus; represents overall coagulant status

Question 44

What is the formula to calculate G?

Answer 44

G= 5000XMA/(100-MA)

Question 45

What is LY60 and what does it represent?

Answer 45

Extent of clot lysis at 60 minutes after MA determined by the percentage decrease in amplitude at that time after MA. Measures fibrinolysis

Question 46

List 8 causes of thrombocytopenia from decreased platelet production

Answer 46

Drug induced, IM megakaryocytic hypoplasia, viral (FeLV/FIV), chronic rickettsial disease, estrogen secreting neoplasia, myelodysplasia, megakaryocytic leukemia, cyclic thrombocytopenia, radiation, idiopathic bone marrow aplasia, post vaccination

Question 47

List 7 causes of consumption/sequestration thrombocytopenia

Answer 47

DIC, microangiopathies, splenic torsion/hypersplenism, sepsis, hepatic disease, severe acute hemorrhage, severe hypothermia, HUS

Question 48

List 9 causes of acquired thrombopathia

Answer 48

Drugs, uremia, anemia, hepatic disease, hypothermia, colloid hemodilution, myeloproliferative disorders and paraproteinemias, erhlichiosis, snake venom, DIC

Question 49

List 10 drugs associated with thrombocytopathia

Answer 49

NSAIDs (aspirin and non aspirin), carbenicillin, cephalothin, moxalactam, sulfonamides, CCB, methylxanthines, B blockers, barbiturates, heparin, HES

Question 50

List 3 causes of acquired vascular disorders and 1 cause of inherited

Answer 50

Acquired- vasculitis, cushings, arteriosclerosis Inherited - Ehlers-Danlos syndrome

Question 51

List 8 inherited causes of thrombopathia

Answer 51

vWD, signal transduction disorders, Glanzmann’s thrombasthenia, Chediak-Higashi syndrome, selective ADP deficiency, cyclic hematopoiesis, procoagulant expression disorders, macrothrombocytopenia

Question 52

What is vWD, what breeds are affected?

Answer 52

Deficiency in vWF (type 1), decreased function of large proteins (type 2), or a complete absence of vWF (type 3). Affects many dog breeds (dobies!) rare in cats

Question 53

What breeds have signal transduction disorders been reported in?

Answer 53

Bassett hound, Eskimo spitz

Question 54

What is Glanzmann’s thrombasthenia and what breeds does it affect?

Answer 54

Otter hound, Great Pyrenees

Question 55

What is Chediak-Higashi syndrome? Whom does it affect?

Answer 55

Grey Persian cats

Question 56

Whom is affected by selective ADP deficiency?

Answer 56

American Cocker Spaniel

Question 57

In what breed is cyclic hematopoiesis inherited?

Answer 57

Grey collie

Question 58

In what breed is Scott syndrome reported, what is another name for this?

Answer 58

GSD, procoagulant expression disorder

Question 59

In what breed is macrothrombocytopenia reported?

Answer 59

CKCS

Question 60

List 8 causes of acquired secondary hemostasis disorders

Answer 60

Vit K deficiency, hepatic failure, DIC, pharmacologic anticoagulants, hemodilution, severe hypothermia, acidemia, shock, massive trauma

Question 61

Hypofibrinogenemia and dysfibrinogenemia are caused by a deficiency in what factor and this is inherited in what breeds?

Answer 61

FI deficiency; Bernese, Borzoi, Lhasa Apso, Vizla, Saint Bernard among others

Question 62

Factor II deficiency causes what and is inherited in what breeds?

Answer 62

Hypoprothrombinemia, boxer, otter hound, English cocker spaniel

Question 63

Factor VII deficiency causes what and in what breeds?

Answer 63

Hypoproconvertinemia; beagle, malamute, boxer, bulldog, miniature schnauzer, mixed breeds

Question 64

What is hemophilia A and what animals does it affect?

Answer 64

FVIII deficiency; GSD, mixed breed dogs, other breeds, cats; X linked, mostly males affected

Question 65

What is hemophilia B and whom does it affect?

Answer 65

FIX deficiency; numerous dog breeds, cats

Question 66

What is Stuart-Power trait and whom does it affect?

Answer 66

FX deficiency; American cocker spaniel, JRT, mixed breed dogs

Question 67

FXI deficiency causes what and in what breeds?

Answer 67

Plasma thromboplastin antecedent deficiency; English springer Spanial, Kerry blue terrier, Great Pyrenees

Question 68

What animals have an inherited Vit K dependent factor deficiency been reported in?

Answer 68

Devon Rex cats

Question 69

What is Hageman factor deficiency, whom does it affect, and is it a pathological condition?

Answer 69

FXII deficiency, min poodle, standard poodle, GSP, Shar Pei, cats; no

Question 70

What is Chediak-Higashi syndrome?

Answer 70

An intrinsic platelet storage pool deficiency. Patients with this have prolonged bleeding times with normal platelet concentrations. Also have altered lysosomal granule formation and abnormal degranulation in neutrophils and platelets so aggregation response to collagen is absent.

Question 71

What is Glanzmann’s thrombasthenia?

Answer 71

Inherited intrinsic platelet functional defect which leads to a deficiency in alphaIIbbeta3 integrin and causes lack of fibrinogen binding. Corrected with experimental bone marrow transplantation and gene therapy

Question 72

In what breed had a P2Y12 deficiency been reported and what does this cause?

Answer 72

Greater Swiss Mountain Dog; prevents activation via ADP induced outside in signaling for fibrinogen binding on the platelet surface at the alphaIIbBeta3 integrin

Question 73

What is the mutation that alters protein signal transduction in inside out-outside in integrin signaling events in Landseers, Bassetts, and Spitz dogs?

Answer 73

Defect in the calcium-diacylglycerol guanine nucleotide exchange factor 1 gene (CalDAG-GEF1)

Question 74

What is Canine Scott syndrome?

Answer 74

A defect so the phosphatidylserine is unable to be externalized for creation of a procoagulant surface. There is also decreased micro particle release. Diagnosis requires flow cytometry to show a difference in platelet function.

Question 75

How is Canine Scott Syndrome treated?

Answer 75

Peri operative dimethylsulfoxide cryopreserved PRP transfusion plus a post operative antifibrinolytic

Question 76

Thrombin has been shown to activate which members of the PAR family?

Answer 76

1,3,4

Question 77

What does PAR mean?

Answer 77

Protease-activated receptors

Question 78

According to The role of tissue factor in health and disease (JVECC 2009), what are the 4 coagulation proteases that activate PARs? PARs then mediate cell activation via what?

Answer 78

FVIIa, FXa, thrombin, TFG-proteins

Question 79

TF activates what PAR receptor?

Answer 79

PAR 2

Question 80

FXa activates what PAR receptor?

Answer 80

1, and 2

Question 81

What are the 3 main endogenous anticoagulants?

Answer 81

TFPI, AT, and aPC

Question 82

How does inflammation affect protein C production?

Answer 82

Down regulates PC pathway through inhibition of thrombomodulin and endothelial cell protein C receptor (EPCR) transcription so reduced ability to generate aPC. Neut elastases cleave TM from endothelial cells greatly reducing thrombomodulins activity. PC also dec in severe inflamm due to increased consumption and compromised ability to synthesize PC d/t hepatic dysfunction.

Question 83

List the anti-inflammatory effects of TFPI

Answer 83

Decreased leukocyte activation and dampening expression of TNF alpha

Question 84

Describe AT’s anti-inflammatory effects

Answer 84

AT binds to endogenous endothelial cell GAGs (heparin sulfate and dermatan sulfate) which causes increased prostacyclin formation, decreased NF KB activation and decreased leukocyte activation and adhesion to endothelial cells.

Question 85

Thrombophilia is…

Answer 85

Hypercoagulability as a result of inherited or acquired causes

Question 86

What are some causes of thrombophilia in humans?

Answer 86

Factor V Leiden mutation or protein C deficiency

Question 87

What is Virchow’s triad?

Answer 87

Hypercoagulability, blood stasis/altered blood flow, endothelial dysfunction

Question 88

What makes up the glycocalyx?

Answer 88

GAG’s, proteoglycans, and glycoproteins

Question 89

Vascular endothelial cells can be activated by what?

Answer 89

TNF-alpha, bradykinin, histamine, thrombin, and vascular endothelial growth factor (VEGF)

Question 90

What anticoagulants rely on the glycocalyx?

Answer 90

Thrombomodulin, protein C, tissue factor pathway inhibitor,heparin cofactor II

Question 91

How does the glycocalyx function as a mechanoreceptor?

Answer 91

Sensing altered blood flow and releasing nitric oxide during conditions of increased sheer stress to maintain appropriate organ perfusion.

Question 92

List 3 important effects nitric oxide has in relation to the glycocalyx

Answer 92

Inflammatory response, leukocyte adhesion to the endothelium, and inhibition of platelet aggregation

Question 93

List 5 substances contained in Weibel-Palade bodies

Answer 93

Ultra large multimers of vWF, P-selectin, IL-8, tPA, fVIII

Question 94

How are UL-vWF usually dealt with in health?

Answer 94

Quickly cleaved by ADAMTS13, a metalloproteinase and disintegrin-like with thrombospondin type 1 repeats

Question 95

What is the function of UL vWF?

Answer 95

Bind platelet GP 1balpha receptors and initiate platelet tethering and activation; are more active for platelet adhesion and activation than smaller vWF multimers

Question 96

How does tissue factor promote inflammation?

Answer 96

Through the activation of nuclear factor kB, leading to production of TNF-alpha

Question 97

What happens to platelets upon activation?

Answer 97

Shuffle negatively charged phospholipids (phosphatidylserine and phosphatidylethanolamine) to the surface. These provide catalytic surface needed for tenase and prothrombinase complexes for the propagation phase of clot formation

Question 98

With activation platelets greatly increase the number of copies of what on their surface?

Answer 98

Active fibrinogen receptor - glycoprotein IIbIIIa, aka integrin alphaIIb beta3

Question 99

What are the contents of alpha and dense granules secreted when platelets are activated

Answer 99

Calcium, factor Va, serotonin, fibrinogen, P-selectin, and ADP. Feline alpha granules also release vWF

Question 100

How does AT act?

Answer 100

To inhibit thrombin and fXa, lesser inhibitory effects on fIXa and the fVIIa-TF complex

Question 101

How can AT activity be increased?

Answer 101

Heparins, or, in their absence, by binding to Thrombomodulin in the presence of thrombin

Question 102

List the 3 mechanisms that can decrease AT in systemic inflammation

Answer 102

Consumption (due to thrombin generation), decreased production, degradation by neutrophil elastase

Question 103

Where is TFPI found?

Answer 103

Endothelial cells, platelets, mononuclear cells, vascular smooth muscle, cardiac myocytes, fibroblasts and megakaryocytes

Question 104

What is the function of the protein C system?

Answer 104

Important inhibitor of fVa and fVIIIa

Question 105

How is protein C activated?

Answer 105

When trace amounts of thrombin bind TM located on the endothelium, predominantly in microcirculation; accelerated in presence of EPCR and cofactor protein S

Question 106

What 3 electrolyte abnormalities might be expected with massive transfusion?

Answer 106

Hypocalcemia, hypomagnesemia, and hyperkalemia

Question 107

What hemostatic defects might be associated with massive transfusion?

Answer 107

Thrombocytopenia, secondary dilutional coagulopathy, and hypofibrinogenemia

Question 108

Other than electrolyte and hemostatic abnormalities, list 4 other abnormalities associated with massive transfusion

Answer 108

Metabolic acidosis, TRALI, hypothermia, immunosuppression, other transfusion reactions, transmission of infectious diseases

Question 109

Describe how massive transfusion causes hypocalcemia and hypomagnesemia

Answer 109

Citrate (anticoag added to blood products) binds rapidly to Ca and Mg with equal affinity resulting in decreases in iCa and iMg. ICa reported to resolve quickly once perfusion is restored as citrate is rapidly metabolized by the liver

Question 110

When is treatment with calcium glauconate indicated in regards to massive transfusion?

Answer 110

When hypocalcemia is severe or when hypotension, muscle tremors, arrhythmias, or prolonged QT interval are present

Question 111

What causes hyperkalemia associated with massive transfusion?

Answer 111

K levels rise over time d/t inactivation of Na-K-ATPase pumps by cold storage temperatures (less likely in dogs due to lower intracellular K stores). More likely K leakage from damaged tissues, extra cellular K shift secondary to acidosis, and reduced K excretion from oliguria

Question 112

What is the cause of thrombocytopenia associated with massive transfusion?

Answer 112

Blood loss and dilution (blood products devoid of platelets after 2 days due to cold storage temperatures causing cell oxidation and death

Question 113

Why is thrombocytopenia from dilution generally less severe than what would be predicted by the degree of dilution?

Answer 113

Platelets are released from stores in the lungs and spleen

Question 114

Other than dilution, list 2 other causes of thrombocytopenia related to MT

Answer 114

Consumption of platelets and clotting factors (secondary to shock, sepsis, SIRS, blunt trauma); platelet dysfunction resulting from acidosis or hypothermia

Question 115

Hemostasis is generally maintained as long as clotting factors are at least _____% of normal and PT and aPTT are not prolonged above ______.

Answer 115

30%; 1.5 times normal

Question 116

Loss and replacement of 1 blood volume removes ______% of circulating factors in plasma

Answer 116

Slightly less than 70%

Question 117

Acute coagulopathy of trauma is believed to result from what?

Answer 117

Altered coagulation enzyme activity, hyperfibrinolysis, and release of activated protein C secondary to tissue hypoperfusion, tissue injury, and acidosis.

Question 118

Ratios of FFP/platelet to RBC ratios of what have been associated with decreased mortality in human patients?

Answer 118

Increased (at least 2:1, up to 1:1)

Question 119

Describe 2 ways hypothermia can lead to coagulopathy in MT

Answer 119

Inactivates the enzymes that initiate the intrinsic and extrinsic coag cascades and to enhance fibrinolysis. Severe hypothermia can result in decreased platelet activity.

Question 120

What is the ‘bloody viscous cycle’ being recognized increasingly in human medicine as a leading cause of death after blunt trauma?

Answer 120

Progressive hypothermia, persistent acidosis, and inability to establish hemostasis

Question 121

What are the 3 definitions of massive transfusion?

Answer 121

1. Transfusion of > 1 blood volume of blood or blood products within a 24 hour period2. Transfusion of 1/2 estimated blood volume in 3-4 hours3. Administration of 1.5 ml/kg/min of blood products over a period of 20 minutes

Question 122

List the factor numbers and their descriptive names

Answer 122

I-fibrinogenII-prothrombinIII-tissue factorV- labile factorVII- proconvertinVIII- antihaemophilic factorIX- Christmas factorX- Stuart prower factorXI- plasma thromboplastin antecedentXII- hageman factorXIII fibrin-stabilizing factor, prekallikrein (fletcher factor), HMWK (fitzgerald factor)

Question 123

What is the plasma half life of factor II?

Answer 123

65 hrs

Question 124

what is the half life of factor VII?

Answer 124

5 hrs

Question 125

what is the half life of factor IX?

Answer 125

25 hrs

Question 126

what is the half life of factor X?

Answer 126

40 hrs

Question 127

what is the half life of factor I?

Answer 127

90 hrs

Question 128

what is the half life of factor V?

Answer 128

15 hrs

Question 129

what is the half life of factor VIII?

Answer 129

10 hrs

Question 130

what is the half life of factor XI?

Answer 130

45 hrs

Question 131

what is the half life of factor XIII?

Answer 131

200 hrs

Question 132

which coagulation factors require vitamin K for synthesis and Ca2+ for activation?

Answer 132

II, VII, IX, X

Question 133

What is the role of endothelin?

Answer 133

It promotes vasoconstriction and decreases local blood flow

Question 134

What substances other than tissue plasmin activator, act as plasminogen activators?

Answer 134

urokinasebradykininkallikreinsoluble fibrin (non cross linked)

Question 135

When are D-Dimers produced?

Answer 135

Plasmin cleaves cross-linked fibrin into x-oligomers that are then broken down into D-dimers. They are only produced with active coagulation and subsequent fibrinolysis

Question 136

What are the three main mechanisms that limit thrombus formation?

Answer 136

Antithrombin
Protein C
Fibrinolytic system

Question 137

What anticoagulant substances are synthesized by the intact endothelium?

Answer 137

ThrombomodulinProtein SHeparan sulfateTissue factor pathway inhibitor

Question 138

Where is tissue factor pathway inhibitor synthesized?

Answer 138

LiverEndothelial cells

Question 139

Name 5 causes of endothelial disruption that may result in thrombus formation

Answer 139

SepsisSystemic inflammatory diseaseHeartwormNeoplasiaTraumaShockIV catheterizationReperfusion injury

Question 140

Name 5 conditions that may lead to abnormal blood flow and subsequent thrombus formation

Answer 140

Vascular obstructionCardiomyopathyEndocarditisCHFShockHypovolemiaProlonged recumbencyHyperviscosityHypoviscosityAnatomic abnormality

Question 141

Name 5 conditions that may lead to increased coagulability and subsequent thrombus formation

Answer 141

PLNCushingsIMHAPancreatitisPLESepsisNeoplasiaDICHeart disease

Question 142

Why are animals with PLE less prone to clot formation than animals with PLN?

Answer 142

PLE also causes loss of AT however they cause a concurrent loss of larger proteins maintains more of a balance between procoagulant and anticoagulant factors

Question 143

Other than obstructing flow in a vessel, what other local effects do thromboemboli have?

Answer 143

They release vasoactive substances (thromboxane A2 and serotonin) that induce vasoconstriction and compromise collateral blood flow development around the obstructed vessel

Question 144

Sonoclot ACT correlates with what on TEG

Answer 144

R time, K time, angle

Question 145

CR on sonoclot correlates with what on TEG

Answer 145

all parameters

Question 146

What does the Sonoclot do?

Answer 146

Measures changes in blood viscosity by detecting a change in mechanical impendance of a tubular, disposable, plastic probe oscillating vertically in a cuvette containing whole blood or plasma

Question 147

How is platelet function determined on Sonoclot?

Answer 147

Not directly, calculated value based on both teh time it takes for the signature to peak, as well as degree of clot retraction

Question 148

What 3 variables determined on Sonoclot

Answer 148

ACT, clot rate (CR), and platelet function (indirectly)

Question 149

What does CR measure on Sonoclot?

Answer 149

rate of fibrin formation

Question 150

Sonoclot correlated to several TEG parameters, platelet count, and fibrinogen, but not to other commonly used coagulation tests. T/F

Answer 150

T

Question 151

MOA thrombomodulin

Answer 151

binds thrombin changing its substrate specificity and becomes an anticoagulant by activating protein C, with its cofactor, protein S, inactivates Va and VIIIathrombomodulin from endothelium

Question 152

MOA TFPI

Answer 152

inhibits extrinsic pathwayTFPI from endothelium

Question 153

What is the initiation stage of coagulation?

Answer 153

TF-VIIa makes a small amount of thrombin

Question 154

What is the prothrombinase complex?

Answer 154

Va-Xa

Question 155

What is the tenase complex?

Answer 155

VIIIa-IXaFxn: activates X to Xa which then binds with Va on platelet surface forming the prothrombinase complex to create thrombin burst

Question 156

Antithrombin inhibits what factors?

Answer 156

2, 7, 9, 10, 11, 12

Question 157

What dramatically increases AT activity?

Answer 157

heparan sulfate from endothelial cells (or heparin exogenously)

Question 158

Effects of plasmin.

Answer 158

cleaves fibrin creating FDPsinactivates 5, 8, 9, 11, cleaves complement C3, enhances conversion of 12 to 12a and conversion of prekallikrein to kallikrein

Question 159

What are inhibitors of plasmin generation

Answer 159

a2-antiplasmin, a-2 macroglobulin

Question 160

Heparin MOA

Answer 160

Facilitates AT-mediated inactivation of thrombin and factor Xa (also 7, 9, 11, 12)Facilitates release of TFPI from endothelial cellsPS binds to heparin-binding domain of endothelial cell matrix protein, thrombospondinInhibits complement and hemolysis induced thrombin generation

Question 161

How do you monitor heparin therapy?

Answer 161

anti-factor Xa (gold standard) or APTT (want 1.5-2.5 x normal)

Question 162

What can affect APTT measurement with heparin therapy?

Answer 162

reagent used, high fibrinogen levels, antiphospholipid antibodies, increased circulating VIII, steroids, more low molecular weight multimers (can still have anti-factor Xa activity, but reduced ability to complex with thrombin, so APTT may appear subtherapeutic when it really is)

Question 163

How do you monitor LMWH (enoxaparin, dalteparin)?

Answer 163

anti Xa only - b/c they are LMW do not complex to thrombin

Question 164

What is the vWF platelet receptor?

Answer 164

Gb1b-IX-V

Question 165

What’s the difference between platelet rich plasma and platelet concetrate?

Answer 165

PRP is made by a soft spin at 1000 x 4 min of FWB (200 mls). If you spin again (hard spin, 2000 x 10 min), get platelet concentrate (40-70 mls)

Question 166

How many platelets are in PRP and PC?

Answer 166

> 100 x 10^9/L

Question 167

Non immunologic complications of blood transfusion

Answer 167

pyrogen-mediated fever (most common), transmission of infectious agents, vomiting, mechanical hemolysis, CHF, hypothermia, citrate toxicity, pulmonary complications

Question 168

Immunologic reactions to blood

Answer 168

acute and delayed hemolytic transfusion reactions manifesting as urticaria, anaphylaxis, graft vs host dz

Question 169

Virchows triad

Answer 169

blood stasis, hypercoagulable state, endothelial damage

Question 170

What coag factors increased in cushings?

Answer 170

5, 10, fibrinogen

Question 171

What IL stimulates TF?

Answer 171

6 - predominantly

Question 172

Where does heparan sulfate come from?

Answer 172

endothelial cells

Question 173

When AT bound to heparan sulfate on endothelium, stimulates what factors regarding inflammation?

Answer 173

prostacyclin I2 and NF-kB

Question 174

Negatively charged proteins on platelet surfaces when activated.

Answer 174

phosphatidylserine and phosphatidylethanolamine

Question 175

What lives in Weibel Palade bodies

Answer 175

vWF, VIII, p-selectin, IL-8, TPA

Question 176

What activates endothelial cells?

Answer 176

TNFa, bradykinin, thrombin, histamine, VEGF

Question 177

What is the prothrombinase complex?

Answer 177

Va and Xa and prothrombin (II)

Question 178

Feline platelet alpha granules have what that is special…

Answer 178

vWF (not in dog alpha granules)

Question 179

What supports decrease in fibrinolysis?

Answer 179

decreased tPA, increased a2 antiplasmin, PAI-1, TAFI

Question 180

What is MPC on Advia 120?

Answer 180

mean platelet component - granularity of platelets, activated platelets will have released their granules, so decreased MPC may indicate hypercoagulable state

Question 181

G =

Answer 181

5000 x MA / (100-MA); higher = more hypercoagulable

Question 182

Anticoagulant effects of aPC

Answer 182

inactivates Va and VIIIaenhances fibrinolysis

Question 183

Antiinflammatory effects of aPC

Answer 183

Inhibits apoptosis, decreases NF-kB, decreases inducible TF, decreases adhesion molecules

Question 184

How does inflammation alter the protein C pathway?

Answer 184

Inhibits thrombomodulin and endothelial cell protein C receptor transcription resulting in a decreased ability to generated APC

Question 185

PAI-1 upregulated by

Answer 185

TNF-a and CRP

Question 186

What is usually elevated with chronic end stage liver dz?

Answer 186

fVIII and vWF

Question 187

What does thrombomodulin do?

Answer 187

activates protein C

Question 188

Where is thrombomodulin at?

Answer 188

endothelial cells - its a transmembrane protein

Question 189

What converts plasminogen to plasmin?

Answer 189

fibrin

Question 190

What are antifibrinolytic drivers?

Answer 190

PAI-1, TAFI

Question 191

Underlying conditions that explain the bleeding tendency in patients with decompensated chronic liver disease.

Answer 191

1. Portal hypertension causing hemodynamic alterations2. Endothelial dysfxn3. Development of endogenous heparin-like substances from bacterial infection4. Renal failure

Question 192

What are the PAR receptors?

Answer 192

PAR1 binds TFVIIa, Xa, thrombin
PAR2 binds TF-VIIa, Xa, trypsin
PAR 3 and 4 bind thrombin

Question 193

Bentley, JVECC, 2013 on coagulation with septic peritonitis, findings?

Answer 193

Preop PC >60% and AT >41.5% sensitive predictors of survival.TEG survivors were more hypercoagulable

Question 194

TRALI

Answer 194

Occurs within 2-6 h of blood product, no pre-existing ALI, and no temporal relationship to alternative risk factors for ALIDue to anti-leukocyte antibodies, resolves rapidly, low mortality

Question 195

Delayed TRALI

Answer 195

Occurs w/i 6-72 h after transfusion, occurs in 25% of critically ill transfused patients, mortality up to 40%Trauma, burns, sepsis increased riskRisk increased with transfusion of plasma-rich products, frozen plasma, and platelets, than transfusion with pRBC

Question 196

Massive tranfusion risk of…

Answer 196

ARDS/ALI

Question 197

TRALI theories:

Answer 197

1. Donor antibodies to antigens on recipient leukocytes, or less likely the other way around (in humans at least)2. mediated by an interaction b/t biologically active mediators in banked blood products and the lung (classic 2 hit theory - lung endothelium of recipient primed with neutrophils from critical dz, then transfuse blood with inflammatory mediators causing endothelial damage, capillary leak, and TRALI)

Question 198

What accumulates in stored blood?

Answer 198

IL-1, IL-6, IL-8, bactericidal permeability increasing protein, phospholipase A2, TNF-a

Question 199

Leukoreduction helps to prevent..

Answer 199

delayed TRALI

Question 200

Plateletpheresis yield

Answer 200

3-4.5 x 10^11 vs. <1 x 10^11 for whole blood derived platelets

Question 201

DMSO cryopreserved platelets yield

Answer 201

50%, half life 2 days

Question 202

What is plateletpheresis?

Answer 202

selective removal of platelets from the donor’s blood via an automated cell separator with return of RBCs and plasma to the donorReduces exposure of recipient to multiple donors

Question 203

Platelets in PC?

Answer 203

8 x 10^10 per PC unit

Question 204

Donor concern for plateletpheresis

Answer 204

citrate toxicity, hypocalcemia

Question 205

How long can FWB be stored?

Answer 205

8 h

Question 206

How long can PC and PRP be stored?

Answer 206

5 d at 22 C with gentle agitation

Question 207

What are platelet storage lesions?

Answer 207

Change in shape from discoid to spherical, generation of lactate from glycolysis with decrease in pH, release of platelet granules, decrease in fxn, reduction in posttransfusion recovery and survival

Question 208

Why can’t you chill platelets?

Answer 208

chilling causes vWF receptors (GP1balpha-IX complex) on platelet surface. The integrin receptor alphaMbeta2 (C3R) of hepatic macrophages recognizes the receptor and eats the plateletGalactosylation decreases

Question 209

What is thrombosol?

Answer 209

mixture of amiloride, adenoseine, and sodium nitroprusside to inhibit platelets - used with DMSO to improve platelet survival

Question 210

DMSO platelet half life

Answer 210

2 d, vs. 3.5 d for fresh platelets

Question 211

DMSO plt storage life

Answer 211

1 year

Question 212

pRBC mechanism for the role in hemostasis

Answer 212

1. dispersion of platelets to periphery2. increase plt contact with endothelium3. release ADP4. scavenge NO (which inhibits plts)5. increase production of TXA2 by platelets at bleeding site

Question 213

FWB contains how many platelets?

Answer 213

10 x 10^9 /L

Question 214

Methods to decrease lymphocytotoxic antibodies.

Answer 214

leukoreductionultraviolet B irradiation

Question 215

What diseases are most common in cats with DIC

Answer 215

cancer, pancreatitis, sepsis

Question 216

What % cats have hemorrhage with DIC?

Answer 216

15%

Question 217

Other findings, DIC cats, JVIM 2009.

Answer 217

All DIC cats had high PTTMedian PT of nonsurivors * higher than survivorsNo effect of heparin or transfusion on outcomeMost cats died or euth (7% survival)

Question 218

Incidence of prolonged PT in dogs following GI decontamination for acute anticoagulant rodenticide ingestion. JVECC, 2008, Pachtinger, findings….

Answer 218

Dogs presenting w/i 6 ingestion, then PT done w/i 2-6 days. Only 8.3% developed prolonged PT needing treatment (none had bleeding or needed transfusion). No diff in age, wt, time elapsed b/t treated and untreated patients found.No assc’n w/ type of anticoagulant.Trend towards smaller dogs needing vitamin K.

Question 219

Half life of factor VII

Answer 219

6.2 h

Question 220

Half life of factor II (prothrombin)

Answer 220

41 hShould take a minimum of 2 prothrombin half lives, or 3.5 days, to express the antithrombotic effect in patients

Question 221

TFPI inhibits…

Answer 221

VIIa and XaTFPI lives in endothelial cells and platelets

Question 222

What effect does LPS have on monocytes related to coagulation?

Answer 222

De novo synthesis of TF on surface

Question 223

P-selectin

Answer 223

tethers platelets to surfaces
P-selectin + PSGL-1 (leukocytes binding)

Question 224

Firm adhesion of plts to neuts is fibrinogen binding, which couples the platelet…

Answer 224

alpha2b beta3 to CD11b/CD18 counterreceptor (MAC-1)

Question 225

vWF platelet receptor

Answer 225

GP 1b-V-IX

Question 226

collagen platelet receptor

Answer 226

GPVI

Question 227

thrombin platelet receptors

Answer 227

PAR-1 and PAR-4

Question 228

Alpha 2b Beta3 receptor antagonists

Answer 228

abciximabeptifibatidetirofiban

Question 229

Drug that blocks PAR1 receptor

Answer 229

vorapaxar and atopaxar

Question 230

Drugs that block P2Y12 receptor by blocking ADP from binding

Answer 230

thienopyridines (prodrugs): clopidogrel, prasugrel, ticlodipineirreversible: ticagrelorreversible: cangrelor

Question 231

Endothelial prostaglandins

Answer 231

PGD2, PGE2, PGF2, PGI2

Question 232

Acetylation of COX-1 is ___ more effective than COX-2 by aspirin

Answer 232

166Xvia acetylation of Ser529 preventing binding of AA to catalytic site on COX-1

Question 233

Other effects of aspirin besides inhibition of COX-1

Answer 233

stimulates NO release via 15-epoxylipoxin A4 and inhibiting leukocyte endothelial reactions, enhances fibrin clot permeability and lysis by acetylating lysine residues on fibrin

Question 234

Clopidogrel action decreased by what drug?

Answer 234

PPIs - omeprazole

Question 235

Replacement of chlorine with ___ enhances prasugrels action.

Answer 235

fluorine

Question 236

What drug class is ticagrelor in?

Answer 236

cyclopentyltriazolopyrimidine

Question 237

Picotamide MOA

Answer 237

dual inhibitor of TxA2 receptors and TxA2 synthesis

Question 238

20% of blood content of FV is where

Answer 238

alpha granules

Question 239

What is the protein C/protein S/thrombomodulin (TM) system?

Answer 239

thrombin binds thrombomodulin, which activates protein C which binds with its cofactor, protein S, and intactivates any factors Va and VIIIa

Question 240

Protease inhibitors TFPI and ATIII are always present bound to…

Answer 240

heparan sulfates on endothelial surfaces

Question 241

TFPI inhibits

Answer 241

Xa and VIIa

Question 242

What is the only coagulation protein that routinely circulates in its active form?

Answer 242

VII (about 1% VIIa)

Question 243

What two effects does thrombin bound thrombomodulin have?

Answer 243

1. activates TAFI which modifies fibrin molecules by removing their terminal lysine residue making them more resistant to fibrinolysis2. activates Protein C which then binds cofactor Protein S to inactivate Va and VIIIa

Question 244

How does the Sonoclot work?

Answer 244

Measures changes in blood viscosity using a vertically oscillating probe immersed in a cuvette of whole blood. Glass beads in the cuvette activate coagulation. Results are Sonoclot Signature graphically and quantitative results are ACT, clot rate, and platelet function

Question 245

Recommended heparin levels for anticoagulation

Answer 245

0.35-0.7 U/ml

Question 246

aPTT goal with heparin

Answer 246

1.5-2 X baseline

Question 247

Babski, JVIM, 2012. Sonoclot evaluation of UFH dogs

Answer 247

ACT prolonged, CR decreased, aPTT correlated well with AXA; however, aPTT ratio did not correlate as strongly with AXA, Sonoclot equivalent to aPTT

Question 248

Extrinsic platelets disorders are characterized by a lack of a functional protein needed for what?

Answer 248

Platelet adhesion and aggregation

Question 249

Name the most common thrombocytopathy in dogs

Answer 249

Von Willebrands

Question 250

What contacts more von willebrand factor, platelets or endothelial cells?

Answer 250

endothelial cells (richest source of vwb)

Question 251

How many forms of von willebrands are there?

Answer 251

3

Question 252

describe type 1 von willebrands

Answer 252

quantitative reduction in vWF - all multimers are present. however the concentration is less than needed for hemostasis

Question 253

Describe type 2 von willebrands

Answer 253

measurable reductions in vWF, but the subset of large multimers is scant. This causes qualitative reduction in vWF because the large multimers are essentials for hemostasis

Question 254

Describe type 3 von willebrands

Answer 254

Absolute lack of vWF all together

Question 255

Clinical signs of vWF disease

Answer 255

Mucosal bleeding (epistaxis, melena, hematuria, gingival hemorrhage) or excessive cavity bleeding

Question 256

T/F - Petechia and ecchymosis in dogs with von willebrands is common

Answer 256

false

Question 257

What is the best in vivo diagnostic for primary hemostasis

Answer 257

buccal mucosal bleeding time BMBT

Question 258

Normal BMBT times are less than ______

Answer 258

3 minutes

Question 259

Which blood products are recommended to treat von willebrands

Answer 259

plasma containing VWF (fresh frozen plasma, cryoprecipitate or fresh whole blood)

Question 260

T/F - Patients with Chediak higashi syndrome have a normal number of platelets

Answer 260

true - these patients have prolonged bleeding time in the presence of normal platelet concentrations

Question 261

Describe the platelet defect in Chediak Higashi Syndrome

Answer 261

Patients with CHS have altered lysosomalgranuale formation, and abnormal degranulation in neutrophils/platelets. Because of this, aggregation to collagen is absent.

Question 262

Describe the primary defect in patients with Glanzmanns thrombasthenia

Answer 262

Primary defect leads to a deficiency in the number of the alpha 2b beta 3 integrin. Prolonged bleeding time occurs because of the lack of fibrinogen beinding to this integrin.

Question 263

Describe the mechanism behind the platelet membrane disorder in greater swiss mountain dogs

Answer 263

mutation is presnt on P2y12 receptor which prevents activation via ADP induced outside in signaling for fibrinogen binding on the platelet surface

Question 264

How does clopidogrel work

Answer 264

Clopidogrel blocks ADP from binding at the P2Y12 receptor - reducing platelet activation

Question 265

In which breed do we most often see Canine Scott Syndrome

Answer 265

German shepherd dogs

Question 266

Describe the mechansim behind Canine Scott Syndrome

Answer 266

Defect lies in the inability for phosphatidylserine to be externalied from the creation of a procoagulant surface

Question 267

Name the inherited autosomal recessive platelet defect seen in Cavaliers

Answer 267

Idiopathic asymptomatic macrothrombocytopenia

Question 268

Describe the mutation in idiopathic asymtopmatic macrothrombocytopenia

Answer 268

A mutation in B1 tubulin leads to altered proplatelet formation in megakaryocytes

Question 269

In humans, acquired von willebrands disease can occur through what mechanisms

Answer 269

autoimmune disease, increased shear-induced proteolysis of vWF (cardiovascualr lesions/pulmonary hypertension, etc), or increased binding of vWF to platelets on other cell surfaces

Question 270

In humans, name three drugs that can cause acquired von willebrands

Answer 270

ciprfloxacin, griseofulvin, valproic acid

Question 271

Name two molecules in the blood of uremic patients that become increased, resulting in altered vascualr tone and platelet function

Answer 271

nitric oxide and prostacylin

Question 272

Recommended dosing of cryoprecipitate for dogs with clinical bleeding secondary to von willebrands dsiease

Answer 272

1 unit/10 kg IV

Question 273

Recommended dosing of fresh frozen plasma

Answer 273

10-20mL/kg IV