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Iliofemoral Measurements Case Review

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With this next video we're gonna review how to measure the vessels for vascular

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access planning. In this case,

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we're gonna use a specific type of three D post-processing software.

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All software is a little bit different in terms of appearance,

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however they all use the same kind of core approaches.

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And what we've done with this particular piece of software is create a center

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line right here.

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And this is used to create what's called a curve planar reformatted image.

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That's this sort of stretched vessel image that extends from the mid aorta

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down to the proximal superficial femoral artery.

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This patient has very little disease as you can see,

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so when I'm assessing this patient,

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I would say that there's very mild calcification.

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You can see a few flexive calcium here and there and that.

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As far as the tortuosity goes,

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a lot of times I like to use a volume rendered image to assess that.

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So in this particular case,

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if I'm assessing the tortuosity from this volume rendered image,

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I would say it's very minimal, right?

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These commonly acts are are very straight and then the left and right external

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iliacs have just a mild curve to 'em, but that's to be expected, right?

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That's really normal as it's coursing along the um, pelvic sidewall there.

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So really no significant tortuosity and very, uh,

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mild calcification for this particular patient. Now,

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as far as the measurements go, we do measurements on a segmental basis.

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We do minimum diameters for the aorta,

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for the common iliacs,

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and then for the external iliacs and the common femorals,

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generally the axis is going to be at the common femorals,

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right at the level of the um, femoral head.

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This nice sort of angio view can show you there.

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Usually I think they want to get in somewhere around the bottom of the femoral

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head.

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That way they can apply pressure against the femoral head after taking out the

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catheters to make sure that the patient heels up the hole,

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that they've placed the heels up fine.

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So usually the target is somewhere around the common femoral artery depending

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on, you know, where the bifurcation of that vessel is. Alright,

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so as far as the vascular evaluation goes,

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usually what I do is I take a look on the short axis view first and I try

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to assess just sort of as a general kind of visual assessment of

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where is the smallest vessel diameter. And I'll just go visually.

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You can see there's little outlines from the automated segmentation.

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It's done with this software.

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But I have to say the automated segmentation often works great as you can see

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here. But for some more marginal cases or heavily diseased cases,

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it may not work perfectly.

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And so I usually go with my eyeball first and then use the automated

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segmentation to, you know,

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assist me after I've sort of made my own decision about where I think the

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minimal diameter is. So in this particular case, you know,

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I think the diameters are quite large for this aorta.

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I think it looks like there's a couple calcifications here that are gonna narrow

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the vessel a little bit.

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This automated measurement shows me it's about 11 millimeters up higher.

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I've got another couple of calcifications here,

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which are narrowing the lumen a bit.

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That's also measuring around 11 millimeters.

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So we're gonna call our minimal diameter for the aorta 11 millimeters.

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Now we're gonna move on to the common iliac here.

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And as I scroll through the common iliac,

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I'm just again gonna keep an eye on the actual vessel diameter,

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just eyeballing it. And I see very minimal disease, not a significant narrowing.

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And so it looks to me like the mine diameter,

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probably right around what that little bit of calcium is around seven

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millimeters. Then when I go through the external iliac artery,

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again doing a visual assessment,

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looking for what seems to be the most narrow aspect. It seems like there's,

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you know, pretty much a uniform size throughout,

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maybe just a slightly gentle increase in size as we get distally,

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which is pretty typical for this external iliac artery.

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Usually the minimal diameter is somewhere here around where it's curving.

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So in this case we've got a diameter around five,

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which is pretty typical for like a smaller older woman around five

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millimeters. Pretty typical number. Now,

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if the video before about vascular access,

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I mentioned that six is usually what we wanna see in this case is five,

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meaning that they're not gonna be able to use this patient's vessels.

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Actually probably not a five in a good looking vessel,

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meaning very little calcification,

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very little tortuosity is usually still gonna be okay for their purposes. It's,

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it's when you have a five millimeter vessel and a a lot of disease that you

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start to get concern may go with other approaches. And then finally,

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I'm gonna scroll through the external iliac artery to the bifurcation of the

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common femoral artery and then go upwards a little bit.

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So how do I know when I leave or I transition from the external iliac artery to

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the common femoral artery where I look or where the vessel leaves the abdominal

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wall and heads out into the groin area. So that's,

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you can see here on the long axis image,

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it's somewhere around this spot right here.

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And then I look at the common femoral artery and uh, again,

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I make an assessment in the upper left hand corner here looking at the degree of

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calcification and it looks like it's fairly mild. And again,

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the minimum diameter around six millimeter. When you're doing these,

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you'll see that you get,

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often get a lot of calcium and the common iliacs relative sparing of the

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external iliacs, and then a lot of calcium in the common femorals as well.

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And we just tend to measure inner diameter.

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You wanna measure from the inner luminal wall to the calcium or whatever disease

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you have and measure the minimum diameter.

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That's the most important thing that's gonna determine what vessel they can use.

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What other thing I like to point out,

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you may have access to pay on your software to a stretched view,

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which you have here. This particular software,

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it does a stretched vessel view and that's just a nice way also of assessing

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diameter. You can see it's pretty uniform throughout here,

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but if you saw any areas of significant narrowing or stenosis,

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you could right away kind of jump to those areas and do a measurement.

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These are sort of automated measurements that are popping up here,

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but certainly you can do your own manual measurements depending on, you know,

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what you have access to

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And, you know, you can do, uh, just a standard measurement, um, you know, if,

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if that's what you need to do with whatever software you're using. And again,

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we wanna measure from inner wall to inner wall to get the, uh,

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most accurate measurement.

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And so that summarizes the basic approach to doing these vascular access cases.

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I'm only gonna go through the right,

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we don't need to go through the left as well. It's the same process.

Report

Faculty

Stefan Loy Zimmerman, MD

Associate Professor of Radiology and Radiological Science

Johns Hopkins Medicine Department of Radiology and Radiological Science

Tags

Vascular Imaging

Vascular

Idiopathic

Congenital

Cardiac valves

Cardiac CT (SCCT Cat B1 Video Case)

Cardiac

CTA

CT

Acquired/Developmental