Study your flashcards anywhere!

Download the official Cram app for free >

  • Shuffle
    Toggle On
    Toggle Off
  • Alphabetize
    Toggle On
    Toggle Off
  • Front First
    Toggle On
    Toggle Off
  • Both Sides
    Toggle On
    Toggle Off
  • Read
    Toggle On
    Toggle Off
Reading...
Front

How to study your flashcards.

Right/Left arrow keys: Navigate between flashcards.right arrow keyleft arrow key

Up/Down arrow keys: Flip the card between the front and back.down keyup key

H key: Show hint (3rd side).h key

A key: Read text to speech.a key

image

Play button

image

Play button

image

Progress

1/8

Click to flip

8 Cards in this Set

  • Front
  • Back
A long systolic murmur that increases with inspiration
Tricuspid Regurgitation or Mitral Stenosis
A long systolic murmur that does not increase with inspiration
A long systolic murmur that does not increase with inspiration check if it increases with valsalva or squat to stand
long systolic murmur; doesn't increase with inspiration; increases with valsalva
Hypertrophic cardiomyopathy
long systolic murmur; doesn't increase with inspiration; doesn't increase with Valsalva
Check if increases with handgrip or transient arterial occlusion
long systolic murmur; doesn't increase with inspiration; doesn't increase with Valsalva; increases with handgrip
Mitral Regurgitation or VSD
long systolic murmur; doesn't increase with inspiration; doesn't increase with Valsalva; doesn't increase with handgrip
aortic stenosis
Characterize murmur of Aortic Stenosis
Systolic; long and late peaking; diminished S2; radiates to right carotid
Why is the pericardial friction rub usually loudest during inspiration?
There is a downward pull of the diaphragm on the pericardium during inspiration, which causes the pericardium to be drawn more tautly over the heart during inspiration.
* The lung expanded during inspiration presses on the pericardium.
* The pericardium is stretched more during inspiration because the expansion of the right ventricle with inspiration is greater than that of the left ventricle during expiration.