Circulatory system

1/ Blood flow (Heart and circulatory system)

2/ Blood vessels

3/ Vasoconstriction and vasodilation

Circulatory system

1/ Blood flow (Heart and circulatory system)

1

2 3

4Vena cava

Pulmonary artery

Pulmonary vein

Aorta

1

2

3

4

Right atrium

Right ventricle Left ventricle

Left atrium

1 2

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Right Atrio-Ventricular valveAV valve

Semi-lunar valves

Left Atrio-Ventricular valveAV valve

Aorta

Pulmonary vein

Carotid artery

Coronary artery

Hepatic artery

Renal artery

PortalveinRenal vein

Hepaticvein

Vena cava

Jugular vein

Pulmonary artery

• What is the function of arteries?• Arteries take the blood Away from the heart, • What is the function of veins?• Veins have Valves • What happens as the blood moves away from the heart?• A decrease in blood pressure• Why do we need a heart made of two pumps?• One side restores blood pressure after the blood has passed in the

tiny capillaries of the organ tissues. The other sides restores blood pressure after the blood has passed in the tiny capillaries of the lungs.

• What does oxygenated blood means?• Blood which contains a higher concentration of oxygen than

surrounding tissues.• What does deoxygenated blood means?• Blood which contains a low concentration of oxygen.

https://www.youtube.com/watch?v=ABTvNR59K5Q

Circulatory system

1/ Blood flow (Heart and circulatory system)

2/ Blood vessels

• 2. What does the outer layer of connective tissue in arteries and veins contain?

• Elastic fibres• 3. What is the importance of the

elastic fibres in arteries?• They enable the walls of the artery

to pulsate (stretch and recoil) to accommodate surges in blood.

• 4. How does the muscular wall of veins compare with that of arteries?

• It is thinner• 5. What is the function of the valves

found in veins?• Prevent back flow of blood• 6. What is the function of capillaries?• Allow exchange of substances

between the blood and living tissues.

• Arteries carry blood away from the heart

• Arteries have an outer layer of connective tissue containing elastic fibres and a middle layer containing smooth muscle with more elastic fibres.

• The elastic walls of the arteries stretch and recoil to accommodate the surge of blood after each contraction of the heart.

• The smooth muscle in the walls of arterioles (small arteries) can contract or relax causing vasoconstriction or vasodilation to control blood flow.

• During strenuous exercise arterioles leading to working muscles vasodilate increasing blood flow.

• At the same time arterioles leading to abdominal organs vasocontract reducing blood flow.

• Veins carry the blood towards the heart.

• Veins have an outer layer of connective tissue containing elastic fibres.

• They have a much thinner muscular wall than arteries.

• Blood flows along veins at lower pressure than arteries.

• The lumen of a vein is wider than that of an artery.

• Valves are present in veins to prevent the back flow of blood.

• Capillaries merge together to form venules which again merge to form veins which carry the blood back to the heart.

• Capillaries form a dense network, they allow exchange of substances with tissues.

• They are only one cell thick so they allow quick and efficient exchange of materials.

• Arteries carry blood away from the heart

• Arteries have an outer layer of connective tissue containing elastic fibres and a middle layer containing smooth muscle with more elastic fibres.

• The elastic walls of the arteries stretch and recoil to accommodate the surge of blood after each contraction of the heart.

• The smooth muscle in the walls of arterioles (small arteries) can contract or relax causing vasoconstriction or vasodilation to control blood flow.

• During strenuous exercise arterioles leading to working muscles vasodilate increasing blood flow.

• At the same time arterioles leading to abdominal organs vasocontract reducing blood flow.

• Veins carry the blood towards the heart.

• Veins have an outer layer of connective tissue containing elastic fibres.

• They have a much thinner muscular wall than arteries.

• Blood flows along veins at lower pressure than arteries.

• The lumen of a vein is wider than that of an artery.

• Valves are present in veins to prevent the back flow of blood.

• Capillaries merge together to form venules which again merge to form veins which carry the blood back to the heart.

• Capillaries form a dense network, they allow exchange of substances with tissues.

• They are only one cell thick so they allow quick and efficient exchange of materials.

Arteries function?

Arteries structure?

Function of elastic fibres ?

What is the effect of contraction or relaxation of smooth muscles in the walls of the arterioles?

How do arterioles react to strenuous exercise?

Function of veins?

Structure of veins?

How is a vein’s muscular wall compared to arteries?

How is blood pressure in veins compared to arteries?

How is the lumen of veins compared to arteries?

What structure feature of veins is missing in arteries? What is its function?

What are venules?

Function of capillaries?

Structure of capillaries and howIt helps its function?

Circulatory system

1/ Blood flow (Heart and circulatory system)

2/ Blood vessels

3/ Vasoconstriction and vasodilation

• The smooth muscle in the walls of arterioles (small arteries) can contract or relax causing vasoconstriction or vasodilation to control blood flow.

• This process allows changing demands of the body’s tissues to be met.

• Give 2 examples of circumstances during which vasoconstriction and vasodilation take place and describe the pattern of dilation and contractions.

• During exercise

• Regulate body temperature

• During exercise– During strenuous exercise arterioles leading to working muscles

vasodilate increasing blood flow.– At the same time arterioles leading to abdominal organs

vasocontract reducing blood flow. • To regulate body temperature

– When we are too hot, blood vessels supplying blood to the skin can swell or dilate (vasodilation). This allows more warm blood to flow near the surface of the skin, where the heat can be lost to the air.

– When we are too cold the blood vessels supplying warm blood to the skin become narrow or constrict (vasoconstriction). This reduces the flow of warm blood near the surface of the skin, and reduces heat loss.

– A very common mistake in exams is to write that the blood vessels move up and down in the skin. The blood vessels do not move during vasodilation and vasoconstriction.