A-level Biology - 3.2.6 The Circulation of Blood and The Structure Of The Mammalian Heart
The function of the circulatory system is to transport essential substances such as oxygen, nutrients, and hormones from specialized exchange organs (like the lungs and digestive system) to the cells throughout the body. It also helps remove waste products, like carbon dioxide and urea, from cells to organs that excrete them.
What is the function of the circulatory system?
Transports raw materials from specialised exchange organs to body cells
Key Terms
What is the function of the circulatory system?
Transports raw materials from specialised exchange organs to body cells
Describe the 2 circuits the circulatory system consists of
1 takes blood from heart to lungs, then back to heart
Other loop takes blood around the rest of the body
What the function of a vein?
Take blood back to heart under low pressure
Describe the structure of a vein 4x
Large lumen
Very little elastic or muscle tissue = thin walls
Contain valves to prevent blood flowing backwards
Blood flow is hel...
What is the function of arteries?
Carry oxygenated blood from heart to rest of body
Describe the structure of arteries 2x
Walls = thick, smooth muscular & have elastic tissue
Endothelium (inner lining) is folded
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| Term | Definition |
|---|---|
What is the function of the circulatory system? | Transports raw materials from specialised exchange organs to body cells |
Describe the 2 circuits the circulatory system consists of | 1 takes blood from heart to lungs, then back to heart Other loop takes blood around the rest of the body |
What the function of a vein? | Take blood back to heart under low pressure |
Describe the structure of a vein 4x | Large lumen Very little elastic or muscle tissue = thin walls Contain valves to prevent blood flowing backwards Blood flow is helped by contraction of body muscles surrounding veins |
What is the function of arteries? | Carry oxygenated blood from heart to rest of body |
Describe the structure of arteries 2x | Walls = thick, smooth muscular & have elastic tissue Endothelium (inner lining) is folded |
What does the walls of the arteries do and what does this help to do? (3) | Stretches under high pressure Recoils under low pressure Helps to maintain blood pressure |
Arteries divide into smaller vessels called _____ | arterioles |
What is the function of arterioles? | Control blood flow from arteries to capillaries |
Describe how arterioles control blood flow | Muscles contracts & arterioles narrow to restrict blood flow to capillaries or relax to allow full blood flow |
Arterioles branch into _____ | capillaries |
What is the function of capillaries? | Exchange substances between blood and body tissues |
Name 4 adaptations of capillaries for efficient diffusion | Found near cells in exchange tissues = short diffusion pathway Walls = single layer of endothelium cells = shortens diffusion pathway Large no. of capillaries & highly branched = increase SA for exchange Narrow lumen so RBCs are squeezed flat against capillary Reduces diffusion distance |
What are capillary beds? | Network of capillaries in tissue |
Capillaries have ___ between lining (endothelial) cells | gaps |
Why do capillaries have gaps between lining (endothelial) cells? | They act as a sieve - controlling which molecules can leave the capillaries Allows WBCs to escape |
What is tissue fluid? | Fluid that surrounds cells |
What is tissue fluid made from? | Small molecules that leave blood plasma (e.g. oxygen, water and nutrients) |
Why doesn’t tissue fluid contain RBCs or big proteins? | ∵ they’re too large to be pushed out through capillary walls |
What do cells do with tissue fluid? | They take in oxygen and nutrients from tissue fluid & release metabolic waste into it |
In capillary bed, substances move out of capillaries into tissue fluid, by ____ _____ | pressure filtration |
Describe how substances move out of capillaries into tissue fluid by pressure filtration | At start/arterial end of capillary bed: hydrostatic (liquid) pressure inside capillaries > hydrostatic pressure in tissue fluid Difference in hydrostatic pressure = pressure forces water/fluid + small molecules out of capillaries & into spaces around cells, forming tissue fluid Loss of water/fluid = hydrostatic pressure reduces in capillaries ∴ hydrostatic pressure is lower at venule end there’s increasing conc. of plasma proteins ∴ Ψw at venule end is lower than Ψw in tissue fluid Some water re-enters capillaries from tissue fluid at venule end by osmosis |
If asked about a particular end of the capillary, what do you need to do? | Compare hydrostatic pressure and osmotic pressure |
Explain how fluid leaves the capillary at the arterial end | Hydrostatic pressure is greater than osmotic effect which forces molecules/fluid out |
What within the bloodstream can affect the water potential? | Proteins |
If water moves out of the capillary, what happens to the water potential? | The water potential in the capillary will go down (Proteins within bloodstream can affect the water potential) |
Water potential of blood plasma is more negative at venule end of the capillary than at arteriole end of capillary. Explain why. (2) | Water has left the capillaries Proteins (in blood) are too large to leave capillary Increasing conc. of blood proteins & thus water potential ↓ |
What happens to excess tissue fluid? | It's drained into lymphatic system |
What is swelling essentially? | Swelling → excess tissue fluid |
Describe the lymphatic system | Network of tubes that acts like a drain Have a dead end |
Why does the lymphatic system tubes have dead end? | So pressure on them can only produce movement in one direction |
What does the lymphatic system do with the excess tissue fluid | It transports excess tissue fluid and dumps it back into circulatory system Drain their contents back into bloodstream via 2 ducts that join veins close to heart |
How is the content in lymphatic system moved? | By Hydrostatic pressure of tissue fluid that has left capillaries Contraction of body muscles that squeeze lymph vessels |
What do the valves in the lymph vessels ensure? | Fluid inside them moves away from tissues in direction of heart |
The heart consists of 2 ____ | Muscular Pumps |
What does the right side of the heart do? | pumps deoxygenated blood to lungs |
What does the left side of the heart do? | pumps oxygenated blood to whole body |
What is the functions of the atrioventricular (AV) valves? | Link atria to ventricles + stop blood flowing back into atria when ventricles contract |
Name and explain an adaptation of the ventricles | Thicker walls than atria ∵ have to push blood out of heart whereas atria need to push blood a short distance → into ventricles |
Name and explain an adaptation of the left ventricle | Thicker, more muscular walls than right ventricle ∵ needs to contact powerfully to pump blood all way round body (Whereas lungs are nearby right ventricle) |
What is the functions of the semi-lunar (SL) valves? | Link ventricles to pulmonary artery and aorta & stop blood flowing back into heart after ventricles contract |
What is the function of cords? | Attach AV valves to ventricles → stop them being forced up into atria when ventricles contact |
What does whether valves are closed or open depend on? | The relative pressure of heart chambers |
When are valves forced open? | Higher pressure behind valve |
When are valves forced shut? | Higher pressure in front of valve |
Name 3 stages in the cardiac cycle | Atrial Systole Ventricular Systole Diastole |
Describe Atrial Systole | Atria contract ↓ volume of atria & ↑ atrial pressure increases Blood is forced into the ventricles Pressure in ventricles increase slightly as blood from atria is forced in |
Describe Ventricular Systole | Atria relax Ventricles contract ↓ their volume & ↑ ventricular pressure As ventricular pressure rises above atrial pressure = AV valves close Atria starts to refill and atrial pressure increases as the blood flows in Blood returns to heart & atria fill again due to higher pressure in vena cava and pulmonary vein As ventricular pressure is higher than aorta and pulmonary artery = forces open SL valves & blood is forced out into these arteries |
Describe Diastole | Ventricles relax and their pressure decreases SL valves close as ventricular pressure drops below pressure in pulmonary artery and aorta AV valves open as the ventricular pressures drops below atrial pressure Blood starts to refill the ventricles Allows blood to flow passively (without being pushed by atrial contraction) into ventricles from atria Pressure increases slightly Whole process then repeats |
When does the blood start flowing into the aorta? Explain why you have chosen that point. | At point A, ventricles are contracting (and AV valves are shut) forcing blood into the aorta |
Why is ventricular volume decreasing at point B? | Ventricles are contracting, reducing the volume of the chamber |
Are the semi-lunar valves open or closed at point C? Explain why. | Closed. The ventricles are relaxed and refilling, so the pressure is higher in pulmonary artery and aorta, forcing the SL valves closed. |
Why is the pressure higher in the left ventricle than the right (and in the aorta compared to the pulmonary artery)? | The left ventricle has a thicker wall than the right ventricle so it contracts more forcefully |
How is the cardiac cycle controlled? | By electrical activity |
Describe how the cardiac cycle is controlled by electrical activity | SAN generates waves of electrical activity across atrial walls causing atria to contract Non-conducting tissue prevents waves of electrical activity from being passed directly from atria to ventricles ∴ Waves of electrical activity go to ventricles via AVN Delay at AVN allows atria to completely empty before ventricles contract AVN sends waves of electrical activity down the bundles of His (on apex) Purkinje tissue carries waves of electrical activity into muscular walls of ventricles Ventricles contract from the bottom upwards |
State the formula for calculating cardiac output | Cardiac output = heart rate x stroke volume [(Blood out per minute) = beats per minute x blood pumped in 1 beat] |
What does 'P' represent on the ECG (electrocardiogram)? | Atrial systole |
What letters represent ventricular systole on the ECG (electrocardiogram)? | QRS |
What letter represent diastole on the ECG (electrocardiogram)? | T |
Name 2 substances which are at a higher concentration in the blood at the arteriole end of the capillary than the venule end (1) | Glucose and oxygen |
Explain how fluid may be returned to the blood (3) | The lymph vessels return the fluid to the blood Re-absorbtion by osmosis Proteins are retained in the blood capillary |
Suggest an explanation for the link between high blood pressure and the accumulation of tissue fluid (3) | High blood pressure = high hydrostatic pressure in capillaries ∴ forces out more fluid from capillary → accumulation of tissue fluid around cells High blood pressure at venule end of capillary may reduce amount of fluid reabsorbed Lymph system would not be able to drain all excess tissue fluid rapidly enough |
Suggest why tissue fluid accumulates more in the ankles and feet than in other parts of the body (2) | Gravity would cause tissue fluid to accumulate in the ankles and feet Fewer lymph vessels in these areas |
Explain why a lack of protein in the diet causes swelling (3) | Less protein in diet = less protein in blood Water potential of blood too high Water in tissue not drawn back into capillaries by osmosis Tissue fluid = stays in tissues = swelling |
Describe how veins being thin/having a large lumen help the blood flow at low blood pressure (2) | Walls of veins are thin so can be compressed Large lumen/smooth lining to provide less resistance to flow |