hemostasis

Question 1

define hemostasis

Answer 1

cessation of bleeding from a severed blood vessel

Question 2

define thrombosis

Answer 2

intravascular clot formation

Question 3

list stages of hemostasis

Answer 3

1. vasoconstriction
2. platelet plug formation
3. blood coagulation
4. fibrinolysis

Question 4

describe adhesion step in plug formation

Answer 4

1. adhesion: Von Willebrand factor binds subendothelial collagen which facilitates platelet adhesion through its platelet receptors (GPIb-IX-V) which initiates tethering. collagen’s platelet receptor (GPVI) binds FcRgamma on platelet and this activates alpha2beta1 a2b3 receptors

Question 5

describe activation/secretion step in platelet plug formation

Answer 5

2. activation/secretion: receptor activation activates PIP2 –> IP3 –> Ca+ and PIP2 –> DAG –> PKC, phospholipid –> pLA2 –> arachindonic acid –> PGG2, PGH2 (via COX-1) –> thromboxane A2 (via TXA2 synthase)
   these reactions cause an accumulation of thromboxane A, ADP and thrombin which stimulate GCPRs which acts as positive feedback
   the granules are released due to increased cytoplasmic calcium

Question 6

alpha granules of platelets

Answer 6

coagulants/anticoagulants: V, XI, ATIII
adhesion proteins: fibrinogen, vWF
integral membrane proteins: GPIIb-IIIa
growth factors: EGF, TGFbeta
angiogenic factors/inhibitors: VEGF, PDFG
chemokines and immune mediators

Question 7

dense granules of platelets

Answer 7

ADP
Ca2+
polyphosphate
serotonin

Question 8

describe the aggregation step of platelet plug formation

Answer 8

after morphological changes through the inside out signlaing of platelet activation GPIIbIIIIa is able to bind fibrinogen or vWF which other platelets are bind to which allows clumping GPIIbIIIa binding to fibrinogen also causes outside in signaling which further accelerates the aggregation process

Question 9

what is vWF bound to as it travels in the blood

Answer 9

factor VIII

Question 10

which antiplatelet drug(s) block COX-1

Answer 10

aspirin and other NSAIDs

Question 11

which antiplatelet drug(s) block ADP receptor on platelet

Answer 11

clopidogrel
prasurgrel
ticagrelor
cangrelor

Question 12

which antiplatelet drug(s) blocks thrombin recptor (PAR-1) on platelets

Answer 12

vorapaxar

Question 13

which antiplatelet drug(s) block fibrinogen and vWF binding to activated GPIIb/IIIa

Answer 13

abciximab
eptifibatide
tirofiban

Question 14

prostacyclin and platelet plug formation

Answer 14

prostacyclin activates adenylyl cyclase –> cAMP which blocks platelet responses

Question 15

factors that can activate phospholypase C

Answer 15

vWF, TxA, thrombin

Question 16

function of phospholupase C in platelet plug formation

Answer 16

PIP2 –> DAG and IP3
IP3 –> Ca+
DAG –> PKC

Question 17

function of Ca+ in platelet plug formation

Answer 17

initaite platelet responses
activate PLA2 (--> aa -->TxA)

Question 18

what initiates the intrinsic pathway vs the extrinsic pathway

Answer 18

intrinsic: contact activation pathway, everything needed is already in plasma
extrinsic: needs TF (on subendothelium)

Question 19

intrinsic pathway coagulation steps

Answer 19

XII –> XIIa –> kalikrein/high molecular weight kininogen a –> XIIa –> XIa –> IXa –> compelx forms: IXa + VIIIa + X + Ca
when X binds this complex it becomes Xa

Question 20

extrinsic pathway coagulation steps

Answer 20

VII + TF –> complex: VIIa, TF, X, Ca+

when X binds to complex it becomes activated

Question 21

common pathway coagulation steps

Answer 21

complex: Xa, Va, prothrombin, Ca+ –> thrombin –> fibrin –> soft clot
thrombin –> XIIIa –> fibrin cross-linked

Question 22

steps that are enhanced by thrombin

Answer 22

XI-->XIa
VIII --> VIIIa
V-->Va
VII --> VIIa
fibrinogen --> fibrin
fibrin --> soft clot
XIII-->XIIIa

Question 23

TFPI

Answer 23

tissue factor pathway inhibitor
acts as anticoagulant in stopping early phase responses
blocks Xa and TF

Question 24

antithrombin III

Answer 24

increased by heparin
blocks thrombin and therefore K/HMWK, XIIa, XIa, IXa, Xa
most importantly: blocks thrombin and X

Question 25

thrombomodulin

Answer 25

changes specificity of thrombin so it cleaves protein C

protein C and protein S block VIIIa and Va

Question 26

Leiden V mutation

Answer 26

resistant to APC (activated protein C) mediated activation so there is an increased risk of thrombosis

Question 27

warfarin

Answer 27

competitively inhibits vitamin k epoxide reductase which reduces vitamin k-dependent gamma-carboxyglutamic acid modifications essential to biological function
reduces hepatic production of vitamin k-dependent coagulation factors: II, VII, IX, X, and the anticoagulation proteins C and S

Question 28

how is VII membrane bound

Answer 28

Ca+ binds gamma carboxyglutamate residues on factor VII which facilitates interaction with anionic phospholipid membrane

Question 29

heparin

Answer 29

unbranched anionic glycosaminoglycan composed of alternating variations of sulfated and or acetylated glucosamine and sulfated uronic acid
unfractionated heparin: increases antithrombin III activity to inhibit factor X and thrombin
low molecular weight heparin inhibits factor X more than thrombin

Question 30

bivalirudin

Answer 30

competitive inhibitor which binds active site and anion binding exosite of thrombin (bivalent)

Question 31

dabigatran

Answer 31

competitive inhibitor that binds only active site of thrombin

Question 32

apixaban

Answer 32

competitive inhibitor for factor Xa

Question 33

prothrombin time (PT) and INternationalized normalization ratio (INR)

Answer 33

evaluates the extrinsic and common pathways: fibrinogn, prothrombin, V, VII, and X
PT = time elapsed before clotting
INR= (PTtest/PTcontrol)^ISI

Question 34

partial thromboplastin time (PTT) or activated partial thromboplastin time (APTT)

Answer 34

evaluates intrinsic pathway and common pathhways
normal PTT requires: fibrinogen, prothrombin, factors V, VIII, IX,X,XI, and XII (does not require factor VII)
partial bc no tissue factor is present in assay
PTT= time elapsed before clotting

Question 35

function of plasmin

Answer 35

in fibrinolysis: breaks down fibrin

Question 36

how is plasminogen activated into plasmin

Answer 36

t-PA and u-PA which is released from injured endothelium

factors XIa, XIIa, and kallikrein also weakly activate

Question 37

PAI-1 and PAI-2

Answer 37

plasminogen activator inhibitors

block t-PA and u-PA

Question 38

alpha2-antiplasmin

Answer 38

blocks free plasmin (reduces fibrinolysis)

Question 39

TAFI

Answer 39

thrombin activatable fibrinolysis inhibitor
inhibits fibrinolysis by removing C-terminal lysine residues of fibrin that facilitate plasminogen binding and activation

Question 40

thrombolytics

Answer 40

plasminogen activators

ex. alteplase, reteplase, tenectaplase, urokinase, streptokinase

Question 41

aminocaproic acid (amicar)

Answer 41

inhibits plasmin

Question 42

D-dimer test

Answer 42

antibodies detect the neoepitope that arises upon covalently cross-linking two D domains from saparate molecules of fibrin
does not detect fibrin or fibrinogen

Question 43

how do NO and prostacyclin affect hemostasis

Answer 43

they are secreted by healthy endothelial cells and promote vasodilation and inhibit platelet aggregation

Question 44

how does thrombomodulin affect hemostasis

Answer 44

healthy endothelial cells express thrombomodulin which converts thrombin from pro-coagulant to anti-coagulant. thrombins specificity changes upon binding thombomodulin, leading to activation of anti-coagulant proteins such as activated protein C and TAFI