1/6 Platelet and Bleeding Disorders - Carr

Question 1

quantitative vs qualitative platelet disorders

Answer 1

quantitative: low platelet count

qualitative: right number of platelets but incorrect fx

Question 2

thrombocytopenia

Answer 2

low platelet count

1. decreased production (marrow issue)

• congenital (rare)
• acquired (infection, meds, alcohol, marrow failure, bone marrow infiltration)

2. increased destruction (decr half life)
3. sequestration

Question 3

neonatal immune thrombocytopenias

Answer 3

1. neonatal autoimmune thrombocytopenia

• maternal SLE or ITP
• passive transfer of maternal IgG
• tx: IVIG

2. neonatal isoimmune (NATP)

• incopatibility of fetal and maternal platelet antigens
• most commonly P1A1
• high risk of recurrence with future pregnancy
• tx: maternal platelets, IVIG

Question 4

nonimmune platelet destruction

Answer 4

mechanical platelet destruction

• microangiopathic hemolytic anemia
• disseminated intravascular coag
• TTP: thrombotic thrombocytopenia purpura
  
  • congenital absene or antibody to VWF protease ADAMTS13
• HUS: hemolytic uremic syndrome
  
  • E. Coli 0157:H7

Question 5

DIC

Answer 5

disseminated intravascular coagulation

“consumptive coagulopathy”

• pathological activation of coag
• initated by formation of small clots inside blood vessels throughout the body
  
  • clots consume available coag proteins, anticoags, and platelets
  • resulting acquired deficiency in clotting proteins and platelets → abnormal bleeding

causes

• conditions that introduce TF in circulation (trauma, cancer, obstetrical complications)
• endothelial damage
• stagnant blood flow
• infection

lab (Pathoma)

tx

• treat underlying disease
• replete consumed factors
• heparin (in acute promyelocytic leukemia, thrombosis)
• ATIII concentrates

Question 6

TTP

cause

pentad

Answer 6

thrombotic thrombocytopenia purpura

cause: ADAMTS13 deficiency/absence

• normally ADAMTS13 cleaves vWF into smaller monomers for degradation
• uncleaved multimers (in TTP) → abnormal platelet adhesion
• can be genetic (rare, auto recessive deficiency) or acquired (antibody against protein, usually in adulthood)

pentad of TTP

1. thrombocytopenia
2. microangiopathic hemolytic anemia
3. CNS disturvance
4. renal failure
5. fever

see…

• thrombocytopenia
• schistocytes
• elevated LDH

80% of patients die if not treated

• replace ADAMTS13
• remove circulating andibody

Question 7

HUS

Answer 7

hemoytic uremic syndrome

E. Coli 0157:H7 (fecal contamination of food)

looks v similar to TTP

• no neuro features
• bloody diarrhea
• renal failure dominates

Question 8

ddx: TTP vs DIC

3 tests and diff outcomes

Answer 8

coagulation screens

• TTP: normal
• DIC: abnormal

fibrinogen level

• TTP: normal
• DIC: low

fibrin split (degradation) products

• TTP: minimal/no elevation
• DIC: elevated

Question 9

sequestration as a cause of thrombocytopenia

key sign

Answer 9

key: enlarged spleen w low platelet count

Question 10

qualitative defects

disorders of adhesion

Answer 10

primary defect in platelet-vesselwall interaction

1. Bernard Soulier syndrome: GP1b deficiency (platelet receptor for vWF)
2. von Willebrand disease

Question 11

vWF

types of von Willebrand disease

Answer 11

von Willebrand factor

1. binds platelet GP1b
2. binds collagen
3. binds and stabilizes factor VIII

types of disease

1. deficiency of vWF (types 1, 3)

• partial deficiency (Type 1), 70-80% of all cases
• severe/complete def (Type 3)

2. dysfx protein (type 2)

• improper assembly of protein (2A)
• change of binding to platelet Gp1b (2B, 2M)
• decr factor VIII binding (2N)

enhanced binding of vWF by platelet

2A, 2B, 2N are key

Question 12

disorders of aggregation

primary defects in platelet-platelet interaction

Answer 12

1. congenital afribrinogenemia: absence of plasma fibrinogen
2. Glanzmann thrombasthenia: deficiency/defect in GPIIb/IIIa

Question 13

disorders of storage granules

Answer 13

1. disorders of alpha-granules

• gray platelet syndrome: absence of alpha granules
• Paris-Trousseau (Jacobsen syndrome): giant alpha granules
• arthrogryposis-renal dysfx-cholestasis: deficiency in alpha granules

2. deficiencies of dense granules

• Hermansky Pudlak syndrome: absence of dense bodies, mutations of HPS gene
  
  • common in Puerto Rico
  • oculocutaneous albinism, variable bleeding, ceroid accumulation (intestines, lungs, kidneys)

Question 14

idiopathic dense granule disorder

Answer 14

“storage pool disease”

• attributed to defect in dense granules on basis of platelet aggregation and release studies
• prob most common platelet defect
• possibly defect of intracellular signaling

Question 15

coagulation disorders

hemophilia

Answer 15

1. hemophilia A: factor VIII deficiency

2. hemophilia B: factor IX deficiency (aka Christmas disease)

X linked

• hallmark: bleeding into muscles and joints (ankles, knees; starts after crawling/walking age)
• can present in infancy

tx: recombinant or endogenous factor replacement
* issue: INHIBITORS: neutralizing antibodies against infused factor product

Question 16

factor XI deficiency

Answer 16

“hemophilia C”

autosomal recessive

common in Ashkenazi Jewish pops

mucocutaneous bleeding (not muscle or joint)

Question 17

factor XIII deficiency

Answer 17

extremely rare

lack of fibrin cross-linking leads to reduced clot stability and strength

classic presentation in infancy (bleeding from umbilical stump, intracranial hemm)

clinical test: urea clot lysis time

PT and PTT are normal!

Question 18

two acquired factor deficiencies

Answer 18

1. vitamin K deficiency

• affects II, VII, IX, X
• causes: antibiotics, malabsorption, hemmorhagic disase of infancy
• DRUGS: warfarin, coumadin, rat poison

2. liver disease

• affects: II, VII, IX, X
• factors V, fibrinogen
• factor VIII preserved

Question 19

coagulopathy of liver disease

Answer 19

• decreased clotting factor levels
• decreased platelets (enlarged spleen/sequestration)
• decreased natural anticoag
• abnormal blood vessels: esoph and rectal varices
• decreased clearance of activated clotting factors
• decreased clearance of clot breakdown pdts
• production of abnormal fibrinogen

Question 20

mixing studies

Answer 20

help differentiate whether prolonged PTT is due to deficiency or inhibitory antibody

Question 21

look at slides 117-120

TFPI

Answer 21

tissue factor pathway inhibitor

controls extrinsic pathway

Question 22

antiphospholipid antibodies

Answer 22

phsopholipid is added to tube as part of PTT assay

ab which cross reacts with phospholipid in PTT will cause prolongation → mixing study will stay prolonged

Question 23

deficiencies of controlling proteins increase the risk of thrombosis

4 ex

Answer 23

antithrombin deficiency

protein C deficiency

protein S deficiency

TFPI deficiency

Question 24

purpura fulminans

Answer 24

severe protein C deficiency

• presents within hours of birth: unmeasurable PC
• rapid progression to DIC
• purpuric lesions at pressure points → palpable black eschars
• often blind infants from vitreal vein clot
• prenatal arterial ischemic stroke

Question 25

inherited predisposition to thrombosis

Answer 25

Factor V Leiden : resistant to to inactivation by APC

prothrombin 20210A