1. 2. Systole: Period of ejection. Continued ventricular
Semilunar
valves closed
Semilunar
valves opened
AV valves
closed
AV valves
closed
1. Systole: Period of isovolumic contraction. Ventricular contraction causes the AV valves to close, which is the beginning
of ventricular systole. The
semilunar valves were closed in
the previous diastole and remain closed during this period.
2. Systole: Period of ejection. Continued ventricular
contraction pushes blood out of
the ventricles, causing the
semilunar valves to open.
Semilunar
valves closed
Semilunar
valves closed
AV valves
opened
AV valves
closed
5. Diastole: Active ventricular filling. The atria contract
and complete ventricular
filling.
3. Diastole: Period of isovolumic relaxation. Blood flowing back toward the relaxed ventricles causes the semilunar valves to close, which is the beginning of ventricular diastole. Note that
the AV valves closed, also.
Semilunar
valves closed
4. Diastole: Passive ventricular filling. The AV valves open and blood flows into the relaxed ventricles, accounting for most
of the ventricular filling.
AV valves
opened

2. Semilunar
valves closed
AV valves
closed
Systole: Period of isovolumic contraction. Ventricular contraction causes the AV valves to close, which is the beginning of ventricular systole. The semilunar valves were closed in the previous diastole and remain closed during this period.

3. Systole: Period of isovolumic contraction.
Semilunar
valves
opened
Semilunar
valves closed
AV valves
closed
AV valves
closed
Systole: Period of isovolumic contraction.
Systole: Period of ejection.

4. Semilunar
valves opened
AV valves
closed
Systole: Period of ejection. Continued ventricular contraction pushes blood out of the ventricles, causing the semilunar valves to open.

5. Systole: Period of ejection.
Semilunar
valves opened
AV valves
closed
Systole: Period of ejection.
Semilunar
valves closed
AV valves
closed
Diastole: Period of isovolumic relaxation.

6. Semilunar
valves closed
AV valves
closed
Diastole: Period of isovolumic relaxation. Blood flowing back toward the relaxed ventricles causes the semilunar valves to close, which is the beginning of ventricular diastole. Note that the AV valves closed, also.

7. Diastole: Period of isovolumic relaxation.
Semilunar
valves closed
AV valves
closed
Semilunar
valves closed
Diastole: Period of isovolumic relaxation.
AV valves
opened
Diastole: Passive ventricular filling.

8. Semilunar
valves closed
AV valves
opened
Diastole: Passive ventricular filling. The AV valves open and blood flows into the relaxed ventricles, accounting for most of the ventricular filling.

9. Diastole: Active ventricular filling.
Semilunar
valves closed
AV valves
opened
Diastole: Active ventricular filling.
Semilunar
valves closed
AV valves
opened
Diastole: Passive ventricular filling.

10. Semilunar
valves closed
AV valves
opened
Diastole: Active ventricular filling. The atria contract and complete ventricular filling.

11. Systole: Period of isovolumic contraction.
Semilunar
valves closed
AV valves
closed
Systole: Period of isovolumic contraction.
Semilunar
valves closed
AV valves
opened
Diastole: Active ventricular filling.

12. Lub-dub, lub-dub 4 valves in the heart Heart sounds Heart murmur
flaps of connective tissue
prevent backflow
Heart sounds
closing of valves
“Lub”
force blood against closed AV valves
“Dub”
force of blood against semilunar valves
Heart murmur
leaking valve causes hissing sound
blood squirts backward through valve SL AV AV

13. Electrical signals heart pumping controlled by electrical impulses
stimulates ventricles to contract from bottom to top, driving blood into arteries
allows atria to empty completely before ventricles contract
heart pumping controlled by electrical impulses
signal also transmitted to skin = EKG

14. Cardiac Cycle How is this reflected in blood pressure measurements?
ventricles fill
How is this reflected in blood pressure measurements?
systolic
________
diastolic
The cardiac cycle. For an adult human at rest with a pulse of about 75 beats per minute, one complete cardiac cycle takes about 0.8 second.
During a relaxation phase (atria and ventricles in diastole), blood returning from the large veins flows into the atria and ventricles.
A brief period of atrial systole then forces all remaining blood out of the atria into the ventricles.
During the remainder of the cycle, ventricular systole pumps blood into the large arteries. Note that 7/8 of the time—all but 0.1 second of the cardiac cycle—the atria are relaxed and are filling with blood returning via the veins.
chambers fill
pump (peak pressure)
_________________
fill (minimum pressure)
110
________ 80
ventricles pump

15. Measurement of blood pressure
if systolic > 150 or
if diastolic > 90
hypertension = (high blood pressure)

16. Electrocardiogram (ECG)
P = atrial depolarization ~ 0.1 sec atria contracts
QRS = ventricular depolarization ventricles contract (lub), contraction stimulated by Ca++ uptake
T = ventricular repolarization  ventricles relax (dub)