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BIOL 253 - 2nd Midterm > Pulmonary HTN > Flashcards

Pulmonary HTN Flashcards

1
Q

pulmonary HTN

A

localized HTN in pulmonary circuit where you have sustained pulm arterial pressure > 25 mm Hg

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2
Q

what makes the pulmonary circuit compliant?

A

*low resistance and low pressure

  • minimal increase in pressure if CO increases
  • pulmonary vasoconstriction causes an increase in pressure
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3
Q

what is the normal pulmonary arterial pressure?

A

15 mm Hg

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4
Q

etiology

A
  • mostly secondary to cardiac and pulmonary issues
  • 3 categories:
    1. Hypoxemia
    2. Increased pulmonary blood volume
    3. Increased pulmonary venous pressure
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5
Q

explain etiology of hypoxemia

A

increased pressure in pulm circuit -> hypoxia in lungs will cause vasoconstriction

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6
Q

explain etiology of increased pulm blood volume

A

septal defect causing blood in l. ventricle to leak back into r. ventricle through a hole in the interventricular septum that didn’t close during embryogenesis, resulting in increased blood volume travelling through the pulm circuit

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7
Q

explain etiology of increased pulmonary venous pressure

A

mitral valve stenosis -> accum of blood -> congestion -> increased pressure

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8
Q

patho

A

hypoxemia -> hypoxia in the lungs and hypercapnia in blood -> compensatory vasoconstriction occurs to prevent spread of increased CO2 throughout the body -> increased pressure w/in pulm circuit

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9
Q

manifestations

A
  • dyspnea
  • fatigue
  • syncope
  • chest pain OE d/t increased RR = increased demand
  • mnftns of RHF
  • right ventricular hypertrophy (d/t increased workload requiring increased muscle size) and distended pulm arteries (d/t congestion of blood)
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10
Q

why do you have mnftns of RHF?

A

b/c heart is pumping against increased resistance d./t increased pressure in the pulm arteries

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11
Q

diagnosis

A

chest xray (would should hypertrophy and distention)

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12
Q

treatment

A

vasodilators (Ca channel blockers or prostacyclin)

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13
Q

Ca channel blockers

A

blocks Ca from moving across muscle cell membranes and activating sm constriction

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14
Q

prostacyclin

A
  • potent, pulm vasodilator that causes dilation of the r. ventricle
  • r atrioventricular valve increases fx to prevent regurgitation
  • lines endothelium and prevents attachment of cells
  • also an antithrombolytic (but doesn’t apply here)
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BIOL 253 - 2nd Midterm (17 decks)

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