Blood vessels: arteries, veins & capillaries

The big idea: Blood is carried around the body in three kinds of vessel: arteries, veins and capillaries.

Each one has a wall built to suit its job:

Arteries carry blood away from the heart at high pressure; veins return blood to the heart at low pressure; and capillaries are where substances are exchanged with the tissues.

The shape of the wall always matches the work the vessel has to do — this structure → function link is the whole point of this topic.

Artery

A blood vessel that carries blood away from the heart. It has a thick, muscular and elastic wall and a narrow lumen to withstand high pressure.

Vein

A blood vessel that returns blood to the heart. It has a thin wall, a wide lumen and valves to stop the low-pressure blood flowing backwards.

Capillary

A tiny blood vessel whose wall is only one cell thick. It is the site where substances are exchanged between the blood and the tissues.

Lumen

The hollow space inside a blood vessel through which the blood flows.

Valve

A flap inside a vein that opens to let blood pass towards the heart and closes to stop it flowing backwards.

A → away, capillaries → exchange: Arteries carry blood Away from the heart; veins bring it back.

Capillaries are the only vessels with a wall one cell thick, so they are the only place where exchange with the tissues can happen.

Every feature of a vessel's wall is there for a reason. The trick in this topic is to say the structure and then the function it allows — never one without the other.

Work through each vessel by asking: what pressure does it carry, and what does its job need?

Artery — thick wall for high pressure: Blood leaves the heart in a powerful surge, so arteries carry blood at high pressure.

Their wall is thick, muscular and elastic:

the muscle and elastic tissue let the wall stretch as the surge passes and then recoil, which withstands the high pressure and helps push the blood onward.

The narrow lumen keeps the pressure high all the way along.

Vein — thin wall and valves for low pressure: By the time blood returns, most of the pressure is gone, so veins carry blood at low pressure.

A thick wall is not needed, so the wall is thin and the lumen is wide (less resistance to the slow-moving blood).

Because the pressure is so low, blood could slip backwards — so veins have valves that close to stop backflow and keep blood moving towards the heart.

Capillary — one cell thick for exchange: Capillaries are where the blood actually does its job: exchanging oxygen, glucose, carbon dioxide and wastes with the tissues.

Their wall is only one cell thick, giving a short diffusion distance, so substances cross quickly.

They are also very narrow (a red blood cell almost fills the lumen) and form a huge branching network, giving a large surface area close to every cell.

Match the wall to the pressure: Thick wall = high pressure (artery). Thin wall + valves = low pressure (vein). One cell thick = exchange (capillary).

If you can match each wall to the pressure or job it handles, you can answer almost any question on this micro.

How this is tested: A favourite Paper 2 task is to distinguish the wall structure of an artery from that of a vein — for 2 marks you need paired contrasts (artery thick / vein thin; artery no valves / vein has valves).

You may also be shown a micrograph of two vessels and asked to identify the artery and justify it from its structure (thick wall, narrow lumen).

Capillary questions usually ask you to describe or outline how they are adapted for exchange (one-cell-thick wall → short diffusion distance; large surface area).

✓ Why this scores full marks: Each mark is a paired contrast — artery does X whereas vein does Y — not two facts about arteries on their own.

On a Distinguish question, the word 'whereas' (or 'but') is what earns the mark: describing only one vessel gets zero.