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Case Review: Pitfall – T2 Blackout Sign

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This is a 76-year-old who has an elevated PSA.

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The PSA density is well below

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the critical cutoff of 0.2.

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5 00:00:11,240 --> 00:00:16,208 It's actually 0.102 nanograms per ml per cc.

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7 00:00:17,229 --> 00:00:19,869 And the patient has a lesion that was

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originally, right here, called a PIRADS 5.

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So we've got an axial 2D fast spin echo in

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which there's a discrete Peripheral zone region,

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TZ region, round, dark, mass-like nodule.

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Look at how less conspicuous the edges

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are of the lesion, even though these are

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one-millimeter, three-dimensional images.

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The T2 contrast, in other words,

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look how blurred the edges are.

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The T2 contrast, typically of 3D

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imaging, is not as crisp as 2D imaging.

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Whereas the spatial detail is higher.

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So I just, I just brought that up to

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show the difference between these two.

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Because as you're going to

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see, this is not a cancer.

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This is not a PIRADS 5.

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Let's go over here to the ADC map.

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Where the supposed cancer has

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pronounced diffusion restriction, right?

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Wrong.

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That is not that.

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That is next to the rectum.

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That isn't even in the prostate gland.

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That's in the prostate gland.

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This tremendous disparity between the size of

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this lesion on the T2 set of images and the

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ADC map tells you that something is amiss.

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And, in fact, you're looking

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at something other than.

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A solid mass.

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It's too black.

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The signal is almost lossless.

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What gives you lossless signal?

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Flow, air, siderosis.

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So any one of those would be

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possible on initial inspection.

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Now this one's going to be blood products or

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siderotic material because there's very slight

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hyperintensity on the T1-weighted image.

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We're at very dense calcium,

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it would be darker here.

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So this siderotic phenomenon or paramagnetic

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effect is known as the T2 blackout effect.

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Now you would not expect to see diffusion

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restriction on the high B-value diffusion image.

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So let's blow it up.

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No, that is not the lesion right there.

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That is not the lesion.

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The area of interest is over here.

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There's nothing there.

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That's in the TZ.

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That's over here.

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That's just the TZ nodule in the back.

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We know the TZ nodules are difficult.

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They restrict all the time.

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We use their encapsulation.

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We use the presence of microcysts like

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this to decide that they're not cancers.

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We use the position.

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For instance, most TZ cancers

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are all the way in the front.

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You're going to see a dime a dozen of these.

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That doesn't correspond to that.

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If we were to produce the

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DCE MRI, it wouldn't enhance.

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Let's do it.

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Let's go to the DCE MRI,

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and go right to that spot.

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And if we're correct, let's

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put our cursor on it, in fact.

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Let's get our little cursor here.

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Let's go right on our, on our blackout sign area.

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Well, I don't think we get there, but right there.

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It's dark.

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Here we go.

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There's nothing enhancing there.

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What is enhancing is a little bit of that

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TZ more anterior, which is quite common.

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A nondescript area of enhancement, not

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much different than that, or that, or that.

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So this is an example of the T2 blackout effect.

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Lesions with very short T2 or T2* effects,

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siderotic effects, paramagnetic effects,

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create this blackout phenomenon on T2.

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On ADC mapping, you can see some

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decrease in signal, but it's not

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the same size as that seen on T2.

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And frequently, the diffusion

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weighted image is completely normal.

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You can also see, remember, lossless-type

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signal in the prostate gland from calcium,

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from fast flow, and even from acute blood you

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can get very, very black signal intensities

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as well as air, which fortunately is uncommon.

Report

Editorial Note

Faculty

Stephen J Pomeranz, MD

Chief Medical Officer, ProScan Imaging. Founder, MRI Online

ProScan Imaging

John F. Feller, MD

Chief Medical Officer, HALO Diagnostics. Medical Director & Founder, Desert Medical Imaging. Chief of Radiology, American Medical Center, Shanghai, China.

HALO Diagnostics

Tags

Prostate/seminal vesicles

MRI

Idiopathic

Genitourinary (GU)

Body

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