Interactive Transcript
0:00
In this next case, we're gonna review how to measure membranous septal length.
0:05
And we're starting with an axial image. And this is just my standard pacs.
0:10
I'm gonna use the, uh, m p R features to do some double obliques,
0:14
but I just wanna point out the membranous septum here on axial images.
0:18
It's right here that lives underneath the aortic valve.
0:22
So you can see the aortic valve leaflets here,
0:23
and then you can see the membranous septum and it's just above the level of the,
0:28
um, muscular part of the septum.
0:30
Now you notice that this is a little bit motion of the acquisition
0:34
and a little bit noisy.
0:36
The motion is related to the fact that this is the 20% phase, like I mentioned,
0:40
which is the,
0:41
usually the optimal phase for measuring the aortic gainless in TAVR patients.
0:45
So that's what we required for this particular patient.
0:49
So what you wanna do to get the member septal length here is you wanna
0:54
first make sure that you have a good look at the member septum. And honestly,
0:58
usually the coronal view gives you a, a great look,
1:03
but you just want to put your cross hairs on the, on the septum,
1:06
make sure you have it in profile.
1:10
And then what you wanna do is you want to basically put your cross hairs in the
1:14
middle of the aortic valve. And again, like we've done with previous cases,
1:18
you wanna make yourself perpendicular theoric valve with the axial view
1:23
and then confirm that on your short axis view.
1:27
And then from here you can actually scroll down from your short axis view
1:32
and identify the meran septum, which you see right here. That's this thin piece,
1:37
right? You see all the muscle, muscle, muscle, muscle. This is left atrium,
1:41
this is interatrial septum. And then this little bit here is the ous septum.
1:45
So you identify that thin little piece and then you can rotate your plane to
1:49
make sure that you're bisecting that thin piece of membranous septum and just
1:54
ignore the red plane here. It's not really, um, relevant to what we're doing.
1:59
And then you take a look at your long access planes and find the one that's
2:03
bisecting. The ous septum should be on the right hand side of the image.
2:08
And sure enough, this one, we don't see the ous septum,
2:11
but we do see it over here. So I'm gonna use that for my measurement.
2:14
There's a ous septum right there. And what I'm gonna do,
2:18
I'm gonna move that cross hairs outta the way,
2:20
and I'm just gonna find the bottom of the aortic valve
2:25
here where it inserts relative to the membrane septum.
2:30
And then I'm gonna make my measurement from the bottom of the aortic valve to
2:33
the membrane septum. And I get roughly 10 millimeters here.
2:37
So that's actually a pretty long emran septum. In theory,
2:40
this patient should have a relatively high margin of error for, uh,
2:45
placement of the TAVR device.
2:47
In terms of risk of subsequent need for a pacemaker,
2:51
generally member,
2:53
their ideal is to have the device sitting above the level of the muscular part
2:57
of the septum, so no
2:58
Deeper than the membranous septum.
3:00
And so a nine millimeters is a pretty long membranous septum and a,
3:04
a decent safety margin for this patient.
3:06
The key number that we usually think of,
3:08
and it's out there in the literature and the guidelines,
3:10
is around eight millimeters, membranous septum, less than eight millimeters,
3:14
and you start worrying about increased risk for conduction abnormalities after
3:18
the TAVR procedure.