2/ASPECTS stands for “Alberta Stroke Program Early CT Score.” It is meant to replace gestalt-ing what percent of the MCA territory is infarcted. Instead, it uses a 10-pt score to semi-quantitate the amount of infarcted tissue in the MCA territory on non-contrast head CT
3/You can think of it as a scorecard for the MCA.
For each region of MCA territory NOT infarcted, the pt gets one point
So the highest score possible is 10, and lowest score possible is 0
4/To get this score, the system divides the MCA up into 10 different regions.
Think of it like a map of the MCA territory. Instead of one big territory, it divides it up into sections—like how the US is divided into states. 1 pt for each state that is NOT low density on CT
5/I think of it like a city. As long as power is flowing, the city is lit up with lights. Same w/the brain. As long as blood is flowing, it will be relatively brighter on CT
6/However, when power gets cut off to a certain sector of the city, it will go dark. Same w/the brain. When blood is cut off to a section of the MCA territory, it will literally go dark—be low density on CT.
7/The ASPECTS score basically subtracts a point for each sector of the brain in which the lights have gone out (low density). This tells you that this region is irreversibly infarcted. More regions that are low density, the bigger the blackout and more infarcted tissue.
8/A high ASPECTS score means all the lights are on. As more sectors go dark, the score decreases, until it is a total blackout, and the entire MCA territory is lost w/an ASPECTS of zero.
9/What are the sectors and how do you identify them? Well, you start at the level of the basal ganglia or “ganglionic” level. I always remember that this is the level to start at b/c it gives me a chuckle when I think of Canadian gangs.
10/At this level, you have 7 structures to decide if they are blacked out. You have the 3 structures of the basal ganglia/internal capsule medially, the insula in the middle, and the lower MCA cortex on the outside--separated into 3 sections.
11/I remember this by remembering that the insula is INSULAted—so it is sandwiched between the basal ganglia/internal capsule & MCA cortex. Everything comes in sets of 3 in ASPECTS, so you see 3 BG/IC structures on this ganglionic slice & you divide the cortex into 3 sections
12/You can remember the 3 MCA cortex sections by remembering that M1 is essentially Broca’s area. With Broca’s aphasia you can only get one word out at a time (kind of), so it’s M1. Wernicke’s rhymes w/three, so it’s M3. And then M2 is just in between.
13/Next sections are on the next slice up that is above the basal ganglia (supraganglionic). Rule of 3, so 3 sections are here. There aren’t any deep structures here, just MCA cortex. Each higher MCA section is directly above the lower MCA sections & numbered in the same order
14/I think that the finger-like gyri of these cortices stick out like french fries--which matches our burger from the ganglionic level
15/So all you have to remember is the rule of 3s & a burger & fries to remember ASPECTS
At the ganglionic level, the insula is in the middle of a burger between buns of 3 deep structures & 3 lower MCA cortices
Higher, there are 3 finger-like fries of the higher MCA cortices
16/ASPECTS is important for prognosis. Low ASPECTS scores have poorer prognosis, w/greater risk of disability, hemorrhage, and poorer outcome after treatment.
17/You can remember that ASPECTS below 7 and 8 are bad bc it used to be that 70% was the minimum to pass in grade school—below 70% was failing. And all those fun training modules the hospital makes you do—they require an 80% pass rate to move on. So < 7 or 8 conveys higher risk
18/So now you know the burger and fries of the ASPECTS score--a fitting meal for those hungry to learn about stroke imaging!
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2/The PPF is a crossroads between the skullbase & the extracranial head and neck. There are 4 main regions that meet here. The skullbase itself posteriorly, the nasal cavity medially, the infratemporal fossa laterally, and the orbit anteriorly.
3/At its most basic, you can think of the PPF as a room with 4 doors opening to each of these regions: one posteriorly to the skullbase, one medially to the nasal cavity, one laterally to the infratemporal fossa, and one anteriorly to the orbit
2/Calvarium & sinuses act as important protectors of your intracranial contents, most importantly, your brain. They are like a built in helmet to protect you from linebackers of life
3/The sinuses are actually even better than a helmet. They are like the crumple zone of a car, but for your brain. They can be crushed inwards, absorbing energy and keeping it from impacting your brain
2/When it comes to brachial plexus injuries, the most important distinction to make is whether it is a pre or post ganglionic injury. Pre ganglionic injuries are nerve root avulsions from the spinal cord and cannot be repaired, while most post ganglionic injuries can be repaired
3/It’s like repairing a house. If there’s a structural flaw at the beginning, before you’ve even built it, you won’t even try to build it, you’ll just scrap the design (preganglionic). But if there’s damage after the house is built, you can salvage it w/repair (postganglionic)
2/Brachial plexus is how the cervical nerves reach the arm. In the coronal plane, it looks like a slide, guiding nerves downward. Bc nerves are traveling laterally, sagittal MRI plane is our plane of choice to cut the nerves in cross section & see down the barrel of the nerves
3/But it’s more than a slide, it’s a complex highway, w/nerves joining & dividing—like highway off ramps & on ramps. If you want to know more about this intrinsic anatomy, see my first brachial plexus tweetorial here:
2/Everyone has a mnemonic to remember brachial plexus anatomy. I’m a radiologist, so I remember one about Rad Techs. But just remembering the names & their order isn’t enough. That is just the starting point--let’s really understand it
3/From the mnemonic, we start with the roots—the cervical nerve roots. I remember which roots make up the brachial plexus by remembering that it supplies the hand. You have 5 fingers on your hand so we start with C5 & we take 5 nerve roots (C5-T1).
1/ Talk about dangerous liaisons! Abnormal brain vascular connections can be dangerous
A #tweetorial about an important abnormal connection: dural arteriovenous fistulas (dural AVF) in collaboration w/ @SVINJournal!
2/Dural sinuses sit inside dural leaflets. Arteries that feed the dura also feed the walls of sinuses, like vasa vasorum. Arteries in the walls of veins are a natural connection between the veins and arteries—but these connections are usually closed in normal pts.
3/Whether these connections are open depends on pressure. Like a hose w/a hole in it, at normal pressures, abnormal connections are not open. But if pressure is increased w/thrombosis or stenosis, the connections open, like high pressure water squirting out through a hole.