SM 213a - Thromboembolic Microangiopathies Flashcards

1
Q

What causes TTP?

A

TTP = thrombotic thrombocytopenic purpura

Caused by deficiency in ADAMTS13 due to genetic mutation or autoantibodies. Requires a trigger to cause TTP

  • Without ADAMTS13, you cannot chop up large multipers of Von Wilebrand factor
  • This leads to uncontrolled platelet aggregation and thrombus formation
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2
Q

What are the 3 types of TMA?

A
  • TTP – Thrombotic Thrombocytopenic Purpura
  • HUS – Hemolytic uremic syndrome
    • Typical: Diarrhea-associated HUS, caused by shiga toxin
    • Atypical: Not caused by shiga toxin
  • Other
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3
Q

Decreased activity of which protein could cause endotheliosis (capillaries to fill with endothelial cells)

A

Decreased activity of VEGF -> Endotheliosis. This can lead to TMA

VEGF stimulates angiogenesis

Genetic susceptibility + anti-VEGF drugs or pregnancy
-> Decreased VEGF activity

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4
Q

Which TMA is associated with shiga toxin?

A

Typical HUS

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5
Q

What is the most prominent stimulator of endothelial cell production and podocyte growth?

A

VEGF

VEGF receptors are highly expressed in the glomerular endothelium

May be inhibited by pregnancy or drugs

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6
Q

How does preeclampsia develop?

A

Abnormal placenta: Abnormal spiral artery remodeling

  • -> Hypoxia
  • -> Increased sFlt1 (a VEGF receptor decoy)
  • -> sFlt1 binds VEGF, decreasing the effective VEGF concentration in the bloodstream
  • -> Decreased VEGF activity
    • -> Loss of ENOS -> HTN
    • -> Damage to glomerular endothelium or other vascular bed -> Thrombus formation (TMA)
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7
Q

A 40 y.o. female presents to the emergency room with numbness in her right arm and a headache. Routine CBC shows anemia and platelets of 60,000. An MRI is performed, which shows no abnormalities.

Which of the following findings helps to confirm diagnosis of a TMA?

A) white blood cell differential

B) blood smear showing RBC fragments (shistocytes)

C) blood chemistry showing abnormal liver function tests

D) high ADAMTS13 enzymatic activity

A

B) blood smear showing RBC fragments (shistocytes)

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8
Q

Which TMA is associated with low ADAMTS13?

A

TTP - Thrombotic Thrombocytopenic Purpura

Low ADAMTS13 can be caused by genetic mutation or autoantibodies to ADAMTS13

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9
Q

_____% of HUS is caused by shiga toxin (typical HUS).

The rest is caused by______________

A

90% of HUS is caused by shiga toxin (typical HUS).

The rest is caused by abnormalities in complement regulation

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10
Q

Why can patients with mutations in ADAMTS13 or complement regulation live their whole life without TMA?

A

These mutations predispose patients to TMA, but a “trigger” is still required to activate the disease

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11
Q

What causes typical hemolytic uremic syndrome?

A

Shiga Toxin

  • Produced by some E. Coli (0157:H7) and Shigella
  • Binds to the Gb3 receptor on glomerular endothelial cells
  • -> Platelet thrombus formation
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12
Q

Why doesn’t everyone on an anti-VEGF agent develop TMA?

A

Anti-VEGF agents are not bad for everybody

Genetic susceptibility -> TMA due to VEGF therapy

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13
Q

What factors normally protect the glomerular microvascular bed?

A

VEGF

Complement regulatory proteins (Factor H)

ADAMTS13

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14
Q

Where does shiga toxin bind?

A

Gb3 receptor on glomerular endothelial cells

-> platelet thrombus formation

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15
Q

What causes Atypical HUS (aHUS)?

A

Abnormalities in complement regulation + trigger

(Example: Factor H deficiency)

  • Patient cannot activate complement
    • Due to a mutation in any regulatory protein
  • Patients may have low C3
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16
Q

Why is the kidney at increasd risk of damage to the vascular endothelium?

A
  • Fenestrations
  • High capillary pressure
  • Continuous exposure to toxins and complement activation
  • GBM is pro-thrombotic
    • If it is exposed -> thrombus formation
17
Q

Which TMA is associated with mutations in complement regulatory proteins?

A

Atypical HUS

18
Q

What is the pentad associated with TTP?

A
  • Hemolytic andemia
  • Thrombocytopenia
  • Neurologic symptoms
  • Kidney injury
  • Fever
19
Q

What are the adverse effects associated with anti-VEGF agents?

A
  • Proteinuria
  • Nephrotic syndrome
  • Severe hypertension
  • Kidney failure (bloodless glomeruli)
20
Q

Which cells produce VEGF?

A

Podocytes

21
Q

Why does HUS preferentially affect the pediatric population?

A

Children may have more Gb3 receptors on glomerular endothelial cells for shiga toxin to bind to

  • > Increaed binding of shiga toxin
  • > Increaed platelet thrombus formation
22
Q

What is the initial event in all forms of TMA?

A

Damage to the vascular endothelium

  • > Thrombus formation
  • > Shear stress in the microvascular with thrombi (-> Shistocytes)
  • > Thrombocytopenia

Glomerular microvascular is particularly susceptible to injury

23
Q

What is the triad that characterizes thrombotic microangiopathies (TMAs)?

A
  • Microangiopathic hemolytic anemia
  • Thrombocytopenia
  • Organ injury (Due to small clots that form in microvasculature)
24
Q

What is the role of VEGF in the glomerulus?

A

VEGF stimulates endothelial cell proliferation

-> Vasculogenesis and angiogenesis

Also stimulates podocyte growth

A VEGF knockout will not have any glomeruli