Hemodynamics Flashcards
Five steps of the cardiac cycle
- Systole:
- Isovolumic contraction
- Ejection
- Diastole
- Isovolumic relaxation
- Passive filling
- Active filling
What happens at each of the steps?
- Systole:
- Isovolumic contraction
- Ejection
- Diastole
- Isovolumic relaxation
- Passive filling
- Active filling
- Systole:
- Isovolumic contraction
- volume doesnt change, walls squeeze - increase Pressure
- Ejection
- Pressure > Paorta/Ppulmonary = valves open
- Isovolumic contraction
- Diastole
- Isovolumic relaxation
- all valves closed
- pressure drops
- AV valves open
- Passive filling - no contraction
- Active filling
- atria contract to send remaining blood into ventricle to fill completely
- Isovolumic relaxation
How to calculate cardiac output?
C.O. = SV x HR
What are the lub dub sounds of the heart
1st sound - when AV valves close at beginning of systole (isovolumetric contraction)
2nd sound - when Semilunar valves close; beginning of ventricular diastole
How to calculate stroke volume?
Stroke volume = EDV - ESV
What is ESPVR?
the relation between pressure and volume in the left or right ventricle when the myocardium reaches its maximum state of activation near end-systole
- contractility of the heart
Shift left on Pressure volume loop = increase contraction
What is EDPVR?
End Diastolic Pressure Volume Relationship (EDPVR) relates to the passive filling curve of the left ventricle during diastole and is a measure of passive chamber stiffness. The slope of EDPVR is the reciprocal of compliance and is used to measure ventricular stiffness.
Effect of a inotropic agent (pos or neg) on ESPVR
Pos inotropy - increase contractility = increase SV = shift left
Neg inotropy - decrease SV = shift right
What limits the length - dependent increase in force of contraction?
Favourable sarcomere length
- too much stretch = actin/myosin slippage
What happens to EDPVR when heart stiffens?
Pressure increases overall -> Loop moves right -> pos increase so slope increases
ie MOVES UP on Pressure-volume loop
