2-Minute Neuroscience: Blood Supply of the Brain

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In this video I discuss the major arteries that supply the brain, starting with the internal carotid and vertebral arteries and covering many of the major vessels of the brain.

TRANSCRIPT:

Welcome to 2 minute neuroscience, where I explain neuroscience topics in 2 minutes or less. In this installment I will discuss the blood supply of the brain.

The internal carotid arteries supply the brain with about 80% of its blood, while the vertebral arteries contribute the remaining 20%.

After ascending to the brain, the internal carotid arteries split into the anterior and middle cerebral arteries. The anterior cerebral arteries supply the medial frontal and parietal lobes, and they are connected by the anterior communicating artery. The middle cerebral arteries supply most of the lateral surface of the cerebral hemispheres.

Before splitting into the middle and anterior cerebral arteries, the internal carotids give rise to the anterior choroidal arteries, which supply a number of different structures, and the posterior communicating arteries, which connect the internal carotid arteries to the posterior cerebral arteries.

The vertebral arteries give rise to the posterior inferior cerebellar arteries, which supply the inferior surface of the cerebellum and in most brains will also give rise to the posterior spinal arteries, which supply the posterior spinal cord. The anterior spinal artery, which supplies the anterior spinal cord, also branches off the vertebral arteries, then the two vertebral arteries come together to form the basilar artery. The basilar artery gives rise to the anterior inferior and superior cerebellar arteries, which supply the rest of the cerebellar surface. Then, at the the level of the midbrain, the basilar artery splits into two posterior cerebral arteries. The posterior cerebral arteries supply the medial and inferior surfaces of the occipital and temporal lobes.

The anterior cerebral, internal carotid, and posterior cerebral arteries of both sides of the brain are all connected, forming what is known as the Circle of Willis. This interconnection can allow blood flow to continue if a major vessel is blocked on one side of the brain.

Reference:

Vanderah TW, Gould DJ. Nolte's The Human Brain. 7th ed. Philadelphia, PA: Elsevier; 2016.

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This video is best watched at 0.75 speed

christykaiyamo

Circle of willis. Woah. "Even if one side of artery is blocked, the other side still can function as well". Woah talk about redundancy. Cool stuff. Thanks.

nickjohn

Amazing, needed a quick refresh and this did exactly that.

taliacheng

I love your channel and how you explain simplistically such topics. Thank you!

GlomariJustii

Ahhh. So that is how I can have a completely occluded internal carotid artery and not be dead. Nice.

IsaacNewton

Short and too the point. Nice! The added hands and scribbling is not needed and distracts from the pictures and learning.

Beehunter

"vur·tuh·bruhl". The "e" is silent. I seriously doubt a Neural Surgeon would say it any other way.

michaelm

Am sooo confused would u pls answer me is there 10 arteries or 11 or 10-12(more...) according to google

axzues

Easy to understand. First see the diagram and then watch this video.

hameenmalik

Wonderful sir you deserve more likes and views

kamaleshv

Thanks for youre cycle of Information mate, 👏👍

instinctinformativ

I love your videos keep up the amazing work <3

shoshanahmachlay

I wonder, did lobotomies also break the blood vessels, possibly causing leakage into the brain?

NiMareQ

What about brain fog? I've been struggling to sleep since my neurons aren't work and my emotions are disabled due to stress for a month.

alexharo

Oh so thats why they say go for the carotid artery(80% of the brains blood supply), shit it now all makes sense

Staticshock-rdlv

If the brain circulation has a abnormality that reroutes into a narrower vessel or artery, other than increasing fluids and salt, what can be done to maximize blood pressure and circulation.

vickiebonawitz

The anterior cerebral arteries supply the medial frontal and parietal lobes, and they are connected by the anterior communicating artery.
Here, what do you refer to as "medial frontal"? As there can be medial frontal gyrus only, but the specific artery supplies blood to the whole frontal lobe, so I guess there must be some mistake in the mentioned sentence.

KripiMehra

How does blood cells enters the brain?

zaccheausawajiteleyem

Can you please be slower? There is no time for the listeners to understand and memorise what you say.

felixambassa

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