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USMLE Cardiovascular Physiology

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Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. 4th rib at left sternal border
Phase 1 of ventricular AP
Auscultation location of tricuspid area
A flutter on EKG
Aortic Stenosis

2. Resting potential due to high K permeability
Phase 3 of nodal AP
Phase 4 of ventricular AP
Auscultation location of pulmonic area
Mitral prolapse

3. Continuous machine - like murmur that is loudest at S2
Phase 0 of nodal AP
Lyme disease can cause why type of AV block?
Wolff - Parkinson - White Syndrome
Patent ductus arteriosus

4. Upstroke due to opening of Ca channels (Nodal tissues lack fast Na channels which allows for a prolonged AV node transmission from atria to ventricles)
Phase 0 of nodal AP
Phase 4 of nodal AP
Common causes of edema
T wave inversion on EKG

5. Pulls fluid into capillary
U wave on EKG
Aortic Stenosis
Plasma colloid osmotic pressure
Supplies blood to the base of the left ventricle

6. 3rd degree
S1
Normal S2 splitting
Lyme disease can cause why type of AV block?
Mitral prolapse

7. 5th intercostal space at left midclavicular line
Auscultation location of mitral area
1st degree AV block on EKG
U wave on EKG
Phase 3 of ventricular AP

8. Holosystolic 'harsh' murmur that is loudest at left sternal border near 4th rib
Ventricular septal defect
3rd degree complete AV block
Patent ductus arteriosus
Mean arterial pressure (MAP) =

9. Dropped QRS complexes not preceded by change in PR interval (can be 2:1 - 3:1 - etc)
Phase 0 of ventricular AP
Phase 4 of ventricular AP
Wolff - Parkinson - White Syndrome
Mobitz type II 2nd degree AV block

10. Plateau due to Ca influx balancing K efflux Myocyte contraction
Phase 0 of ventricular AP
S4
Phase 2 of ventricular AP
Paradoxical S2 splitting

11. CO = rate of O2 consumption / (arterial O2 content - venous arterial O2 content)
Phase 3 of nodal AP
S4
S2
Fick principle

12. Radius to the 4th power
Phase 2 of ventricular AP
Resistance is inversely proportional to...
Phase 3 of ventricular AP
Fick principle

13. Absent (no plateau in nodal tissue)
1st degree AV block on EKG
Interstital hydrostatic pressure (Pi)
Phase 2 of nodal AP
Fick principle

14. Associated with pulmonic stenosis or RBBB (delayed RV emptying)
S1
Interstital hydrostatic pressure (Pi)
Wide S2 splitting
Phase 4 of nodal AP

15. Pulmonic valve closure before aortic valve closure associated with aortic stenosis or LBBB (delayed left ventrical emptying)
Mitral Regurgitation
Mean arterial pressure (MAP) =
Effect of inspiration on S2 splitting
Paradoxical S2 splitting

16. 'Irregularly irregular' - No discrete P waves and irregularly spaced QRS complexes
Torsades de Pointes
Auscultation location of mitral area
A fib on EKG
Phase 1 of ventricular AP

17. Rapid back - to - back atrial depolarization -> 'sawtooth' appearance
Wide S2 splitting
A flutter on EKG
Phase 4 of ventricular AP
Phase 3 of nodal AP

18. Late diastole 'atrial kick' sound against increased pressure from ventricular hypertrophy
Ventricular septal defect
Phase 4 of nodal AP
S4
Fick principle

19. Ventricular pre - excitation caused by an accessory conduction pathway that bypasses the AV node. Delta wave on EKG. Can lead to SVT.
Auscultation location of mitral area
Paradoxical S2 splitting
Wolff - Parkinson - White Syndrome
Aortic Stenosis

20. Cardiac output (CO) x total peripheral resistance (TPR) - or 2/3 diastolic pressure + 1/3 systolic pressure
S3
Normal S2 splitting
T wave inversion on EKG
Mean arterial pressure (MAP) =

21. 1) increased capillary pressure - CHF 2) decreased plasma proteins - nephrotic syndrome - liver failure 3) increased capillary permeability - toxins - burns - infections 4) increased interstital osmotic pressure - lymphatic obstruction
Auscultation location of pulmonic area
Phase 0 of ventricular AP
Supplies blood to the base of the left ventricle
Common causes of edema

22. Initial repolarization due to inactivation of Na channels & opening of voltaged - gated K channels
Phase 1 of ventricular AP
1st degree AV block on EKG
Phase 3 of nodal AP
S4

23. = (capillary pressure - interstital fluid pressure) - (plasma oncotic pressure - interstital fluid oncotic pressure)
Net filtration pressure
S4
Mitral stenosis
Aortic regurgitation

24. Holosystolic 'blowing murmur' loudest at left 5th intercostal space midclavicular line - & is enhanced by expiration (increased LA return) & squatting (increased TPR)
Wolff - Parkinson - White Syndrome
Mitral Regurgitation
Mean arterial pressure (MAP) =
Interstital hydrostatic pressure (Pi)

25. Holosystolic 'blowing murmur' loudest at left sternal border near 4th rib - & is enhanced by inspiration (increased RA return)
Net filtration pressure
Tricuspid Regurgitation
3rd degree complete AV block
Mitral stenosis

26. V Tach with shifting sinusoidal waveforms on EKG - can progess to V fib - Predisposed by QT prolongation
Fick principle
Auscultation location of pulmonic area
Torsades de Pointes
Mitral stenosis

27. High pitched 'blowing' diastolic murmur - can decrease intensity of murmur with vasodilation
S2
Aortic Stenosis
Common causes of edema
Aortic regurgitation

28. Prolonged PR interval
1st degree AV block on EKG
Phase 3 of ventricular AP
Lyme disease can cause why type of AV block?
T wave inversion on EKG

29. Early diastole rapid filling sound heard with dilated ventricle (normal in children & pregnant women)
S1
S3
Auscultation location of pulmonic area
Mobitz type I (Wenckebach) 2nd degree AV block

30. Atria & ventricles beat independent of each other - no relation between P waves & QRS complexes
3rd degree complete AV block
Lyme disease can cause why type of AV block?
T wave inversion on EKG
Phase 4 of ventricular AP

31. Delayed 'rumbling' late diastolic murmur following an opening snap
Phase 3 of nodal AP
Mobitz type I (Wenckebach) 2nd degree AV block
Mitral stenosis
U wave on EKG

32. Blood viscosity (increased in polycythemia - hyperproteinemia - & hereditary spherocytosis)
Net filtration pressure
Resistance is directly proportional to...
Auscultation location of tricuspid area
Auscultation location of pulmonic area

33. Pull fluid out of capillary
Fick principle
Interstitial fluid colloid osmotic pressure
Resistance is directly proportional to...
S2

34. Associated with atrial septal defect (ASD) - allowing a left to right shunt that increases flow through pulmonic valve and delays closure
Fixed S2 splitting
Ventricular septal defect
Effect of inspiration on S2 splitting
Interstitial fluid colloid osmotic pressure

35. Rapid upstroke due to voltage - gated Na channel opening
Supplies blood to the base of the left ventricle
Phase 0 of nodal AP
Paradoxical S2 splitting
Phase 0 of ventricular AP

36. Pushes fluid into capillary
Capillary hydrostatic pressure (Pc)
Interstital hydrostatic pressure (Pi)
Mobitz type I (Wenckebach) 2nd degree AV block
T wave inversion on EKG

37. 2nd intercostal space along left sternal border
1st degree AV block on EKG
T wave inversion on EKG
Phase 4 of ventricular AP
Auscultation location of pulmonic area

38. Repolarization due to inactivation of Ca channels & activation of K channels
Auscultation location of aortic area
Mean arterial pressure (MAP) =
Phase 4 of nodal AP
Phase 3 of nodal AP

39. Rapid repolarization due to massive K efflux & closure of Ca channels
Ventricular septal defect
Phase 1 of ventricular AP
Phase 3 of ventricular AP
Mitral Regurgitation

40. Mitral & tripcuspid valve closure
Fick principle
Wide S2 splitting
Auscultation location of aortic area
S1

41. Progressive lengthening of PR interval until dropped QRS complex
Net filtration pressure
Phase 4 of nodal AP
Phase 1 of ventricular AP
Mobitz type I (Wenckebach) 2nd degree AV block

42. Aortic & pulmonic valve closure
Fick principle
S2
Mitral prolapse
Mitral stenosis

43. 2nd intercostal space along right sternal border
Auscultation location of aortic area
Ventricular septal defect
Interstital hydrostatic pressure (Pi)
Common causes of edema

44. Indicates recent MI
Wide S2 splitting
S3
T wave inversion on EKG
Mobitz type I (Wenckebach) 2nd degree AV block

45. Inspiration delays pulmonic valve closure - which increases S2 splitting
Supplies blood to the base of the left ventricle
Effect of inspiration on S2 splitting
Auscultation location of pulmonic area
Auscultation location of tricuspid area

46. Posterior descending artery (80% from RCA - 20% from CFX via LCA)
Supplies blood to the base of the left ventricle
Fixed S2 splitting
U wave on EKG
Mobitz type I (Wenckebach) 2nd degree AV block

47. Crescendo - decrescendo systolic ejection murmur following an ejection click. Associated with weak pulses & syncope.
Capillary hydrostatic pressure (Pc)
Tricuspid Regurgitation
Aortic Stenosis
Supplies blood to the base of the left ventricle

48. Aortic valve closure slightly before pulmonic valve closure at end of systolic ejection
Mean arterial pressure (MAP) =
Normal S2 splitting
Paradoxical S2 splitting
Tricuspid Regurgitation

49. Caused by hypokalemia or bradycardia
Wolff - Parkinson - White Syndrome
U wave on EKG
S2
Tricuspid Regurgitation

50. Late systolic crescendo murmur (loudest at S2) following a midsystolic click - enhanced by squatting (increased TPR)
Aortic regurgitation
Patent ductus arteriosus
S4
Mitral prolapse

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USMLE Cardiovascular Physiology

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