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Cardiac Cycle

The cardiac cycle is a continuous sequence of contractions and relaxations of different heart parts in one heartbeat. It lasts for around 0.8 s per cycle - isn't it fascinating to think about how the heart could contract and relax quickly?

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Cardiac Cycle

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The cardiac cycle is a continuous sequence of contractions and relaxations of different heart parts in one heartbeat. It lasts for around 0.8 s per cycle - isn't it fascinating to think about how the heart could contract and relax quickly?

Important concepts of the cardiac cycle

Let us approach this topic of the cardiac cycle with a twist, shall we?

First, imagine yourself as a hypothetical microorganism doing a tour of the heart, like you would do your museum tours. However, you need to rely on the blood to help transport you around.

How does blood move from one chamber of the heart to another?

The pressure difference in the heart is responsible for moving blood from one chamber to another or transporting you around the heart. Blood moves from a region of high pressure to low pressure. Contraction of the muscles of one chamber of the heart leads to high pressure, whereas the relaxation of the muscles of another chamber causes low pressure. To explain in simpler terms, you may think of contraction as ‘squeezing’ and relaxation as ‘remaining unchanged’.

Similarly, you’d need to squeeze a bottle to eject the liquid out into the air. By squeezing, you are applying pressure. Hopefully, this serves as another useful analogy to the direction of blood flow in the heart.

We shall wrap up the concept of the direction of blood flow in the heart with a diagram below showing the direction of blood flow from a high-pressure chamber to a low-pressure chamber.

Cardiac Cycle, direction of blood flow in the heart, StudySmarterFig. 1 - The direction of blood flow in the heart

In cardiovascular biology, the contraction and relaxation of heart muscles are called systole (contraction) and diastole (relaxation). We will come across these terms later when we learn about the cardiac cycle.

While you are on your tour of the heart, you may also notice that you travel across the chambers in a specific direction each time you pass through the heart, with the help of door-like structures along the way. These structures are called valves, whose function is to allow blood flow in one direction. You cannot imagine what would happen if blood flowed in all directions - that would not end well.

The valves differ between the heart regions and between the heart and the blood vessels. Refer to our article on the heart for more information. The valves function by opening and closing. Valves open to allow blood to flow and close to stop blood from going the opposite direction. Below is a simplified diagram showing the role of valves in controlling the direction of blood flow.

Study tip: Students may get confused between opening and closing vs contraction and relaxation when it comes to the cardiac cycle. Remember, the heart valves and muscles are the two key players. Valves are like doors - they open and close. On the other hand, muscles of the heart chambers are squishy - they contract and relax.

What causes valves to open or close? Pressure differences influence the opening and closing of valves. Valves open when the pressure difference follows the direction of blood flow and close when the pressure difference is against the direction of blood flow.

What happens during the cardiac cycle?

A single cycle of cardiac activity can be divided into two phases - systole and diastole. The cardiac cycle is then further divided into three stages - atrial systole, ventricular systole, and ventricular diastole. Below is a diagram that shows the big picture of the cardiac cycle events.

Cardiac Cycle, the cardiac cycle in the heart, StudySmarterFig. 2 - The cardiac cycle

To help visualise the cardiac cycle better, below is an animation of the heart pumping as it undergoes a series of cardiac cycles.

Figure 3

The main exhibits of your heart tour are the valves (atrioventricular and semilunar), chambers (atria and ventricles) and blood. On one cardiac cycle, which is one tour around the heart, we will see how these exhibits come into play with each other across the three stages.

On your tour of the heart, you may notice the hypnotic ‘lub-dub’ sound in the background throughout the time. Where does this sound come from? This ‘lub-dub’ sound comes from the closing of valves. That sound you would hear whenever you shut a door? As two surfaces hit each other? Likewise for valves. ‘Lub’ is the sound when the atrioventricular valves shut, whereas ‘dub’ is when the semilunar valves shut.

Pressure changes in the left side of the heart during one cardiac cycle

Pressure changes influence the events of the cardiac cycle. Since pressure can be quantified, we can plot graphs of pressure changes at the different regions of the heart against time during one cardiac cycle.

Cardiac cycle, cardiac cycle in the heart and lub dub sounds that follows from valve opening and closing, StudySmarterFig. 4 - Cardiac cycle and the “Lub” and “Dub” sound

Pressure changes in the left ventricles are greater than in the left atria due to the thicker muscular walls. As the aorta carries blood at high pressure, the pressure only changes when blood flows through it during ventricular systole.

Study tip: Remember which curve belongs to which part of the heart, as exams may test your understanding. Understanding the rationale behind the pressure changes to help you in your exam.

How does cardiac output relate to the cardiac cycle?

Cardiac output is the volume of blood pumped by one ventricle of the heart in one minute. This is how we quantify ventricular systole. The unit for cardiac output is in cm3 min-1, and cardiac output depends upon two factors:

  • The heart rate is the rate at which the heart beats, which is the number of heartbeats per minute. So, the larger the value, the faster the heart beats

  • The stroke volume is the volume of blood pumped out at each beat. So, the larger the values, the faster the heart beats

Given how the heart rate and stroke volume affect cardiac output, we can construct an equation to derive cardiac output from heart rate and stroke volume as:

Cardiac output = heart rate x stroke volume

Based on the stated equation, the higher the heart rate and stroke volume, the higher the cardiac output. In other words, a heart that pumps fast and pumps out high volumes of blood yields high cardiac output.

A woman whose heart completes one cardiac cycle in 0.5 s has her stroke volume measured as 70 cm3 during that timeframe. Calculate her cardiac output.

We answer this question by first determining her heart rate and stroke volume.

Heart rate = number of beats/time =1/0.5/60 =120 beats min-1Stroke volume = 70 cm3

Study tip: Make sure to convert the heart rate units into min-1 before you calculate the cardiac output value.

After calculating the heart rate and stroke volume, we substitute these values into the cardiac output equation.

Cardiac output = heart rate × stroke volume =120 beats min-1 × 70 cm3 =8400 cm3min-1

Cardiac Cycle - Key takeaways

  • Blood moves from a chamber of higher pressure to a chamber of lower pressure during the cardiac cycle. Valves open and close to make sure blood flows in a regular direction; the opening and closing of valves also depend on the pressure difference across the different chambers of the heart.
  • There are three stages to the cardiac cycle: atrial systole, ventricular systole and ventricular diastole. Atrial systole is when blood is pumped into the ventricles, whereas ventricles pump blood into the aorta that transports blood to the rest of the body during ventricular systole. Both the atria and ventricles relax during ventricular diastole, as blood fills the heart at this stage.
  • Heart sounds, the characteristic ‘lub-dub’, come from valves closing. Closing the atrioventricular valves generates the ‘lub’ sound, whereas ‘dub’ sound comes from the semilunar valves closing.
  • As pressure changes influence the cardiac cycle, they can be quantified and plotted into graphs then compared between the heart regions.
  • Cardiac output is a measure of ventricular systole. The value of cardiac output can be calculated using the formula cardiac output = heart rate x stroke volume.

Frequently Asked Questions about Cardiac Cycle

A cardiac cycle is a continuous sequence of contractions and relaxations that occur in the heart in one heartbeat.

Heart rate (HR) = number of beats per minute

Cardiac cycle length = length of time of events in one heartbeat


If HR = 60beats/minute = 60 beats/ 60s = 1beat/s, 

cardiac cycle length = reciprocal of HR

                 = 1 s/ 1 beat

                 = 1s

Approximately 0.8s.

The cardiac cycle is important for a smooth blood flow to enable efficient transport and exchange of substances with all the cells in the body.

Systolic and diastolic phases.

Final Cardiac Cycle Quiz

Cardiac Cycle Quiz - Teste dein Wissen

Question

The pressure in the atria is greater than in the ventricles. What is the direction of blood flow in this case?

Show answer

Answer

Blood flows from the atria to the ventricles as the direction of blood flow in the heart is from a region of high pressure to a region of low pressure.

Show question

Question

Choose the correct options

When the heart muscle (contracts/ relaxes), this results in a region of (high/ low) pressure. Whereas when the heart muscle (contracts/ relaxes), this creates a region of (high/ low) pressure. (Systole/ diastole) is the term to describe the contraction of the heart muscle, whereas (systole/ diastole) is when the heart muscle relaxes.

Show answer

Answer

When the heart muscle contracts, this results in a region of high pressure. Whereas when the heart muscle relaxes, this creates a region of low pressure. Systole is the term to describe the heart muscle contraction, whereas diastole is when the heart muscle relaxes.


Show question

Question

Valves ensure blood flows in one direction (True/ False)



Show answer

Answer

True

Show question

Question

Valves contract and relax, whereas the heart muscle opens and closes. (True/ False)


Show answer

Answer

False - valves open and close

Show question

Question

Choose the correct options.

Pressure changes affect the function of valves. Valves (open/close) when the pressure difference is against the direction of blood flow and (open/ close) when the pressure difference follows the direction of blood flow.


Show answer

Answer

Pressure changes affect the function of valves. Valves close when the pressure difference is against the direction of blood flow and open when the pressure difference follows the direction of blood flow.


Show question

Question

Name the three stages of the cardiac cycle.


Show answer

Answer

Atrial systole, ventricular systole, and ventricular diastole.

Show question

Question

Describe the events that occur during atrial systole.


Show answer

Answer

Muscles in both atria contract

  • Atrial pressure > ventricular pressure

  • Blood flows from atria to ventricles

  • Atrioventricular valves open, semilunar valves shut

Show question

Question

Describe the events that occur during ventricular systole.


Show answer

Answer

Muscles in both ventricles contract

  • Pressure in ventricles > atria

  • Atrioventricular valves shut

  • Pressure in ventricles > arteries

  • Blood flows from atria to arteries, semilunar valves open

Show question

Question

Describe the events that occur during ventricular diastole.


Show answer

Answer

The whole of the heart muscle relaxes

  • Pressure in veins > atria and ventricle

  • Blood flows in

  • Pressure in arteries > ventricles

  • Semilunar valves close

Show question

Question

Blood flow in ventricular systole is higher in pressure than in atrial systole. (True/ False)


Show answer

Answer

True

Show question

Question

Atrioventricular valves shut during atrial systole to prevent blood from flowing back into the vena cava or pulmonary vein. (True/ False)


Show answer

Answer

False - semilunar valves shut during atrial systole


Show question

Question

The closing of valves generates heart sounds. (True/ False)

Show answer

Answer

True


Show question

Question

The ‘lub’ sound is from the (atrioventricular/ semilunar) valves whereas the (atrioventricular/semilunar) valves make the ‘dub’ sound.


Show answer

Answer

The ‘lub’ sound is from the (atrioventricular) valves whereas the (semilunar) valves make the ‘dub’ sound.


Show question

Question

A woman whose cardiac output is 8000cm3min-1 completes one cardiac cycle in 0.5s during that timeframe. Calculate her stroke volume.


Show answer

Answer

66.67 cm3 

Show question

Flashcards in Cardiac Cycle14

Start learning

The pressure in the atria is greater than in the ventricles. What is the direction of blood flow in this case?

Blood flows from the atria to the ventricles as the direction of blood flow in the heart is from a region of high pressure to a region of low pressure.

Choose the correct options

When the heart muscle (contracts/ relaxes), this results in a region of (high/ low) pressure. Whereas when the heart muscle (contracts/ relaxes), this creates a region of (high/ low) pressure. (Systole/ diastole) is the term to describe the contraction of the heart muscle, whereas (systole/ diastole) is when the heart muscle relaxes.

When the heart muscle contracts, this results in a region of high pressure. Whereas when the heart muscle relaxes, this creates a region of low pressure. Systole is the term to describe the heart muscle contraction, whereas diastole is when the heart muscle relaxes.


Valves ensure blood flows in one direction (True/ False)



True

Valves contract and relax, whereas the heart muscle opens and closes. (True/ False)


False - valves open and close

Choose the correct options.

Pressure changes affect the function of valves. Valves (open/close) when the pressure difference is against the direction of blood flow and (open/ close) when the pressure difference follows the direction of blood flow.


Pressure changes affect the function of valves. Valves close when the pressure difference is against the direction of blood flow and open when the pressure difference follows the direction of blood flow.


Name the three stages of the cardiac cycle.


Atrial systole, ventricular systole, and ventricular diastole.

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