Interactive Transcript
0:00
So let's for a moment, uh,
0:02
go over some basic imaging planes and myocardial anatomy.
0:05
Um, we'll use cardiac views.
0:07
Uh, as you know, uh, the basic planes in radiology tend
0:11
to be axial, sagittal, coronal,
0:13
but everybody's heart is uniquely positioned in their body.
0:17
And so when we do a cardiac MRI ct, uh, ultrasound,
0:22
uh, nuclear exam, the planes have
0:24
to be created unique to that patient.
0:26
And it's not as mysterious as it might initially sound, um,
0:29
but you need to use the verbiage that correlates
0:32
to this anatomy and it's very
0:33
kind of fundamental to cardiology.
0:35
Um, we have a couple of alternative names,
0:37
but one of them will be the two chamber view, um,
0:40
also called the vertical long axis view,
0:42
and especially in, uh, nuclear cardiology,
0:45
we have the four chamber view,
0:46
which can also be called the horizontal long axis view,
0:49
the ventricular short axis view,
0:50
which we did look at in the last uh, case.
0:52
And then the three chamber view,
0:54
or the three chamber long axis view, uh,
0:57
also called the paraseptal long axis view
0:59
or the left ventricular outflow tract view.
1:01
Um, so let's take a look at those
1:03
and how you might make them with a CT scan.
1:05
And I'm gonna start with basics.
1:07
This is actually up on my Twitter feed too.
1:08
I refer to it all the time in
1:09
the reading room with new trainees.
1:11
So you look up and down on your, uh, axial anatomy.
1:15
You pick a point in the center of the mitral valve plane,
1:18
you then pick a point in the, that bisects,
1:20
the left ventricular apex,
1:22
and you've made the long axis to chamber view.
1:24
Um, and from that view, you can get your next view.
1:27
You can do this as a CT
1:28
and an MRI tech is doing
1:29
that in real time when they're doing a cardiac MRI.
1:31
So again, pick a point in the mitral valve plane, uh,
1:34
left ventricular apex.
1:35
And if you're truly perpendicular
1:37
by lining those two long axis views up,
1:39
you've created the short axis view.
1:40
We talked about basal mid right, you see here, apical.
1:43
So this is the basal up by the base.
1:45
And then, um, as you come down, you can hit the mid view.
1:48
Now what we see here on the bottom left is the pseudo four
1:51
chamber view, but, and when you bisect the acute margin
1:54
of the right ventricle with that purple plane,
1:56
you define the four chamber view.
1:58
Uh, and that's a true four chamber view.
2:00
So now we're looking through the septal
2:01
and the lateral walls, only the long axis view show you the
2:04
left ventricular apex as you see
2:05
that little thin point, which is normal.
2:07
Um, if we scroll up and down
2:09
and then we take that same plane,
2:11
maintain the long axis planes, but then spin them
2:14
and bisect the left ventricular outflow tract.
2:17
As I've just done here, you now have defined a three chamber
2:20
view, the three chambers being the right ventricle,
2:22
the left ventricle, and the left atrium.
2:24
It's also a good way to look out
2:25
of the left ventricular, uh, outflow tract.
2:27
So you can, um, rewatch this video.
2:29
You can, um, play with the, the planes,
2:32
but it's actually pretty basic,
2:34
whether it's the the nuclear tech doing this for you,
2:37
the MRI automation or technologist doing this for you
2:41
or in ct, there are some algorithms
2:43
or you should really know how to just make these planes
2:45
and we'll, we'll, we'll repeat this several times
2:46
during cases that can allow you
2:49
to look at myocardial segments, the same planes
2:51
that an Echo Tech does with their wrist while they're,
2:53
uh, placing the probe.
2:55
And it allows us to then correlate things
2:56
to the segmental profusion
2:59
Expected anatomy.
3:00
And again, those territories are anterior
3:03
lateral, inferior septal.
3:04
This is a, just a mid view,
3:05
but it would apply at the bays or the apex.
3:07
And the territories then correlate
3:09
to the interseptal being LED territory,
3:12
the lateral wall being the circumflex,
3:14
and then usually the inferior wall being the
3:16
right coronary artery.
3:18
This is just an illustration.
3:19
This is, uh, an MRI, it's a first pass profusion, MRI.
3:23
And you can see here that this would be obtained over about
3:25
a minute and repeated, uh, looks with T one waiting
3:28
and we're watching contrast flow from the right
3:31
to the left heart and then into the myocardium.
3:33
And you can see an interseptal perfusion defect,
3:36
which is sub endocardial.
3:37
So it fits an ischemic wavefront gradient
3:40
and it fits a territory,
3:41
which we just saw is the interseptal walls,
3:44
which is the left anterior descenting.
3:45
So this is somebody with an LAD, uh, ischemia.
3:48
And if it's persistent, it could be an infarct.
3:50
We just have resting first pass here, so it's a differential
3:53
diagnosis.