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Genitourinary Imaging Case Review with Dr. Erin Gomez (4-8-25)

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0:02

Hello and welcome to Case Crunch Rapid case review

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for the core exam hosted by modality.

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In this rapid fire format,

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faculty will show key images along

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with a multiple choice question

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and you'll respond with your best answer via

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the live polling feature.

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After a quick answer explanation, it's on to the next case.

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You'll be able to access a recording of today's case review

0:22

and previous case reviews

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by creating a free account using the

0:25

link provided in the chat.

0:27

Today. We are honored to welcome Dr. Aaron Gomez

0:30

for a GU Imaging Board prep case review.

0:33

Dr. Gomez is an assistant professor

0:34

of radiology in the Russell H. Morgan Department

0:36

of Radiology and Radiological Science at Johns Hopkins.

0:40

She serves as a director

0:41

of the Diagnostic Radiology

0:43

Residency Program at Johns Hopkins.

0:45

And her academic interests include medical student

0:47

and resident education fundamentals

0:49

and clinical applications of MRI physics

0:52

and cross-sectional imaging of the female pelvis

0:54

with a focus on high risk OB imaging

0:56

and MRE evaluation of the placenta.

0:59

Questions will be covered at the end if time allows,

1:01

so please remember to use that q

1:03

and a feature to submit your questions.

1:05

With that, we are ready to begin today's board review.

1:08

Dr. Gomez, please take it from here.

1:10

Thanks so much for having me.

1:12

I'm happy to be here with you all this evening.

1:14

Um, again, my name's Erin Gomez

1:15

and I'm at Johns Hopkins in Baltimore

1:17

and tonight we'll be doing a geno urinary board review.

1:20

So let's get right into it. A few rules of play.

1:23

Again, the multiple choice questions are

1:25

for everyone via the poll.

1:27

We are going to move quickly so we can do

1:29

as many cases as possible.

1:31

The other thing I wanna say is I know

1:33

that you're all in sort of the delicate

1:34

and vulnerable time preparing for the core exam.

1:37

This is a safe space.

1:38

I am judging no one and you are strong and smart

1:41

and you are going to do great.

1:43

Um, I have nothing to disclose a couple of pointers for you

1:47

as you approach questions that you may see on the core exam

1:51

or core practice questions.

1:52

Look at the anatomy or the anatomic relationships

1:55

that you're seeing normal.

1:57

They may ask you questions about what signal characteristic

2:00

or finding makes X, Y, Z the most likely diagnosis.

2:03

What explains the finding?

2:05

Are there imaging features, um, that you can use

2:07

that are typical of a specific disease entity?

2:11

Other questions may focus on next steps.

2:14

What imaging sequence or maneuver should you perform

2:17

after what you have seen?

2:19

What would help differentiate the disease entity

2:22

that you're seeing from a similar

2:23

or slightly different condition?

2:25

What's the physics behind the finding?

2:27

There is physics behind every corner on this exam.

2:30

And so, um, they may ask you questions about

2:33

how would manipulate certain imaging

2:34

factors change the image?

2:36

How was the image produced?

2:38

Um, what signal characteristics

2:40

or characteristics of the findings have produced

2:42

this because of physics?

2:44

And then last

2:45

but not least, if you get into a situation

2:47

where you're like, I have no idea

2:49

what this is, describe it to yourself.

2:51

First, start listing off the imaging features

2:53

and that may help you eliminate a few answer choices.

2:57

Alright, let's start with a few softballs, you got this.

3:02

So this is warmup. Question number one, who's this guy?

3:16

Alright, well done. You all crushed that one.

3:18

The answer is indeed Mario.

3:20

I hope I'm not dating myself too much with this question.

3:33

All right, well done. So the answer here is bye bye bye.

3:36

This is in sync. I'm glad that I live to fight another year.

3:40

Warmup question number three.

3:50

Okay, excellent. And you nailed this one.

3:52

It is indeed the goat the greatest of all times.

3:55

Last warmup question,

3:56

and this is just so we can get to know who you are, uh,

3:59

and what type of audience we have here this evening.

4:09

Okay, looks like most of you are residents, a few attendings

4:12

and some folks who are just here for the cases.

4:14

Alright, now for the real deal, here's our first case

4:17

as a 29-year-old status post DNC for a molar pregnancy

4:21

with persistently elevated HCG.

4:23

She is not having any vaginal bleeding.

4:26

We have axial and sagittal contrast, enhanced CT images

4:29

of the pelvis as well as a coronal CT chest.

4:32

What is the most likely diagnosis for this patient?

4:42

Great and far and away, the majority

4:43

of you have selected the correct answer choice,

4:45

which is a gestational trophoblastic neoplasm.

4:48

Um, specifically for this patient,

4:51

we would be most worried about a choriocarcinoma.

4:53

There's an enhancing endometrial mass in this patient

4:57

with a known mole and a persistently elevated beta HCG.

5:00

We would be thinking about gestational trophoblastic disease

5:03

in general, but given the presence

5:05

of the lung nodules which are rounded peripheral, uh,

5:08

and look metastatic, we have

5:10

to think about gestational trophoblastic neoplasm.

5:13

This is a follow-up question about GTN, which

5:16

of the following is true?

5:24

Okay, and it looks like we are split between uh,

5:29

answers A and B.

5:30

The correct answer here is A,

5:32

so choriocarcinoma develops more frequently

5:35

in complete moles.

5:36

And the thing that you should remember is that in general

5:39

complete moles, um, are going to confer a much higher risk

5:43

of both invasive mole

5:44

and choriocarcinoma than a partial mole.

5:47

The treatment for gestational hypoblastic disease,

5:49

as we know, is suction DNC

5:51

and then following the beta HCDG to zero.

5:55

Um, but the complications of invasive mole

5:57

and choriocarcinoma happen happen much more frequently in

6:01

complete mole, uh, than impartial mole.

6:04

Next case, this is a 54-year-old

6:06

with a palpable scrotal mass.

6:09

We have color ultrasound images of the right testicle,

6:14

uh, and inferior to the right testicle.

6:17

What is the next best course of action for this patient?

6:28

Okay, the majority of you,

6:30

a little less than half have said D,

6:32

which is the correct answer, MRI

6:34

to further characterize a para testicular mass.

6:36

So if we look at these images, this is the right testicle.

6:40

It's relatively homogeneous in its heterogeneous feed.

6:42

It has normal flow.

6:44

There's a para testicular mass, it's rounded,

6:46

it has a little bit of internal vascularity

6:49

and peripheral flow within it,

6:51

and it's slightly heterogeneous.

6:52

So this is a para testicular lesion.

6:55

Um, this is, uh, the vascularity eliminates the possibility

6:58

of a scrotal hematoma.

7:00

Um, a seminoma would be within the testicle rather

7:03

than adjacent to it.

7:05

A para testicular abscess should not have this solid

7:07

appearance and this degree of internal vascularity.

7:11

And similarly, a testicular infarct should be intra

7:14

testicular rather than para testicular.

7:16

So here are the MR images.

7:18

Um, so these are axial T one weighted images

7:21

and axial T two weighted images at the level of the testes

7:25

and then inferior to the right testes.

7:28

What is the diagnosis?

7:36

Okay, we're all over the place here.

7:38

I don't think there is a clear winner.

7:40

Um, but if we take a look at these images,

7:43

the imaging characteristics, the signal intensity on T one,

7:46

we almo, it almost looks like we're looking at the right

7:49

testicle duplicated here on this more inferior image.

7:52

So this is the right testicle and this is the lesion.

7:54

This is the right testicle, this is the lesion.

7:56

It's slightly T two heterogeneous, but

7:58

otherwise it's the same size, shape,

8:01

and signal intensity as the other testicles.

8:03

And that's just because this is a testicle.

8:05

This is a case of supernumerary testis poly organism

8:09

or supernumerary testis.

8:10

This is a rare congenital anomaly.

8:12

It's when you have more than one testis.

8:14

These are most often located in the scrotum,

8:17

but they can also be within the inguinal canal,

8:19

the retroperitoneum or the abdomen.

8:22

The most common complication

8:23

of this condition is testicular torsion.

8:26

And these are classified based on whether they communicate

8:29

with a ductus deference.

8:31

So type A, which is the most common type of supernumerary.

8:34

Testis is drained by a separate ductus

8:36

and those patients have reproductive potential.

8:39

And then type B uh, is not drained by ductus deens

8:42

and has no reproductive potential.

8:46

Next case, this is a patient with elevated PSA

8:49

and I'm showing you an axial T two weighted

8:51

image of the pelvis.

8:54

Here are some additional images for you.

8:56

This is diffusion weighted imaging, A DC.

8:58

I've put an ROI on here. The average A DC value is 572.

9:02

And then this is a T one post contrast image.

9:08

So which of the following sequences is the most important in

9:11

the PY rads categorization of this lesion?

9:21

All right, the majority has it.

9:23

The answer here is diffusion weighted imaging.

9:25

Um, this was a peripheral zone lesion.

9:28

Remember that we are favoring diffusion weighted imaging

9:31

for lesions in the peripheral zone

9:33

and then we use the T two weighted images

9:35

to drive the pyre scoring

9:37

for lesions in the transition zone in patients

9:40

with suspected prostate cancer.

9:43

Case four, this is a 25-year-old with amenorrhea.

9:47

We have axial on top

9:48

and coronal T two weighted images of the pelvis.

9:53

What's the diagnosis for this patient?

10:02

Okay, the majority of y'all have voted

10:05

for uterine aid genesis, um, and that's a decent guess

10:09

because this patient's uterus is very small.

10:12

But the answer here is pan hypopituitarism.

10:15

So if we look between the urinary bladder,

10:17

which is here anteriorly

10:18

and the rectum, which is here posteriorly,

10:20

there's small amount of pelvic free fluid

10:22

and then there's a very, very tiny uterus here.

10:25

This is the myometrium

10:26

and this is the T two bright endometrial cavity on this

10:29

coronal T two weighted image.

10:30

There are small ovaries, uh, out here later

10:32

and laterally in the pelvis.

10:34

In patients with turner syndrome, which is

10:36

otherwise known as xo, patients will be described

10:38

as having straight gonads.

10:40

These are often undetectable by medical imaging.

10:42

So the fact that we can see small ovaries

10:45

and a uterus, um, makes Turner syndrome less likely, uh,

10:48

because we are able to identify a small uterus.

10:52

Uterine agenesis is not the right answer.

10:55

A patient with vaginal stenosis, we would expect

10:57

to see distension of the endometrial cavity

11:00

with accumulated contents and debris.

11:03

And then because these, uh, gonads

11:06

and the uterus are so small, they are not normal for age.

11:08

So this is a patient with pan hypo pittu.

11:12

Next case, this is a patient with pain and recent trauma

11:15

and I can tell you that this is a scrotal ultrasound

11:19

race scale image.

11:24

These are accompanying color doppler

11:26

images for the same patient.

11:29

This is the right testicle and this is the left.

11:34

Which feature is most suggestive

11:36

of testicular rupture for this patient?

11:45

Excellent. The bees have it.

11:47

So disruption of the tunica is going to be most suggestive

11:51

of testicular rupture.

11:52

Certainly a heterogeneous architecture, a history of trauma,

11:55

and even adjacent hydro seal.

11:57

Those can all give you clues

11:59

that the patient may have a testicular rupture

12:01

with accompanying hypoperfusion or infarct.

12:04

Um, but it's disruption of the tunica.

12:06

That is the definitive imaging finding for this condition.

12:11

Next case, this is a companion case.

12:13

This is a, uh, 30 5-year-old with scrotal and inguinal pain.

12:18

We have a color image of the testicles with level

12:21

of the midline scrotum as well as a spectral doppler image

12:25

of the left testicle.

12:32

Here's an additional image.

12:33

This is the left epidermal head on color imaging.

12:41

This is uh, gray scale.

12:43

These are gray scale and color, uh, images of a structure

12:48

that is superior to the left testis.

12:54

And this is an accompanying CT image.

12:57

So what is the

13:01

diagnosis for this patient?

13:10

Okay, so the, the largest number of votes were

13:13

for vascular malformation.

13:15

The answer here is panniculitis

13:16

and I'm proud of the 15 of you, uh,

13:18

who chose this as an answer.

13:20

Um, so panniculitis is inflammation

13:22

or infection of the spermatic cord.

13:24

And this can happen in severe cases of epididymitis

13:28

as we have with this patient.

13:30

Um, testicular lymphoma, uh, the um, involvement

13:34

of this spermatic cord and EPIs,

13:35

this looks more infectious inflammatory.

13:38

Um, often folks will guess intraoral hernia for this case,

13:41

but because we show, uh, both on those gray scale images

13:44

as well as the ct, that this is indeed the cord panniculitis

13:47

is the correct answer.

13:50

Okay, we have a two part question here.

13:52

We have axial T two fat saturated images

13:56

of the pelvis at the level of the perineum.

13:59

Which structures are highlighted by the white arrows here?

14:03

So this one is slightly uh, superior.

14:07

This one is slightly inferior.

14:09

They've gotten one slice down.

14:19

Okay, well done. The answer here is indeed the

14:22

URA of the clitoris.

14:23

So these are paired

14:24

and they will join together to form the body

14:27

and glands of the clitoris.

14:28

And so my follow-up question

14:30

for you is which structures are highlighted

14:31

by the pink arrows?

14:40

Okay, the majority has it here as well.

14:42

The answer here is the vestibular bulbs.

14:44

Um, so just a quick review of the anatomy of the clitoris.

14:48

Uh, the clitoris, um, has a glands in a body

14:52

and then these paired ura, uh, which come out laterally.

14:55

And this is the erectile tissue of the clitoris.

14:58

And if we see it in cross-section, we can see

15:00

that there's kind this kind of spongy tissue internally.

15:03

And then the vestibular bulbs, this is glandular tissue

15:05

and this kind of drapes around the vaginal orifice.

15:08

Um, and so uh, within here, uh, there's more less spongy,

15:12

less uh, less spongy

15:15

and less vascular tissue that participates in uh, secretion

15:19

and lubrication of the vagina.

15:22

This is a companion case.

15:23

This is a 68-year-old woman

15:25

with clitoral pain and enlargement.

15:27

We have T two weighted images, T one post contrast images,

15:31

a sagittal T two fat sat image

15:32

and diffusion weighted images at the level of the perineum.

15:35

What is the most likely diagnosis for this patient?

15:46

Okay, excellent. So the majority

15:48

of you had gotten the correct answer,

15:49

which is D equatorial hood abscess.

15:51

So this is a T two hyperintense lesion.

15:53

We can see that on the axial and the sagittal image.

15:56

This is the glands of the clitoris here.

15:59

Um, we can see that the image demonstrates

16:01

peripheral enhancement.

16:02

There are a few reactive lymph nodes here in the groin on

16:05

the T one post contrast

16:07

and there's diffusion restriction uh,

16:09

within this lesion which is most consistent with an abscess.

16:13

Next case, this is a 36-year-old with an adnexal mass

16:17

that was first noted on ultrasound

16:20

and um, there is a lesion here in the pelvis.

16:24

What accounts for the appearance of this lesion?

16:27

So there is physics behind every corner.

16:37

Okay, sort of mixed answers here.

16:40

The first step in this question is finding the lesion,

16:42

which is here, right?

16:44

It's this anteriorly located pelvic lesion.

16:46

It's T two hyperintense and T one hypo intense.

16:50

Um, and so this uh, the um, the

16:56

material making up this lesion would have a long T one time,

16:59

which makes it T one dark

17:01

but also a long T two time,

17:02

which makes it T two bright, right?

17:04

So a short T one relaxation time makes things bright.

17:07

That's stuff like gadolinium which results in T one

17:10

shortening and then a long T two relaxation time results in

17:13

things looking bright on T two weighted imaging.

17:15

So whatever the contents

17:16

of this lesion aren't has a long T one relaxation time

17:19

and a long T two relaxation time.

17:21

So what is the best diagnosis here?

17:30

Okay, the votes are for right ovarian cyst.

17:33

Um, and that is the not a the correct answer.

17:36

The the answer here is actually an appendiceal mus

17:39

appendic mucus, excuse me.

17:42

Um, so the ovaries are both shown here

17:44

and this lesion is independent of the ovaries.

17:46

So this is not a right ovarian cyst.

17:49

Similarly, the T one dark appearance makes this less likely

17:52

an endometrioma.

17:54

While this could be a tors uterine fibroid, it is

17:57

so homogeneously T two hyperintense, it would be unlikely

18:01

that this was a degenerated and tors fibroid.

18:04

And then hydro seines,

18:05

this is not really in the right location.

18:07

This is anterior to the uterus

18:09

and the tubes should be seen here lateral

18:11

and extending toward uh, the ovaries.

18:14

And so, um, for this patient, uh,

18:16

if I gave you a scrollable stack, you would see

18:18

that there was a thin isus connecting this up to the cecum

18:21

and this was an appendiceal mucus seal.

18:25

Next question. This is a patient status post

18:28

low anterior resection.

18:29

We were asked to evaluate for a leak at the anastomosis

18:33

by fluoroscopy.

18:34

So in fluoroscopy tissue contrast is generated by what type

18:39

of interaction.

18:45

And these questions can be frustrating on the core

18:47

because you'll see this and you may know the answer

18:49

clinically and then you go to physics question.

18:52

Um, but don't dismay.

18:53

Uh, you have to ask yourself what type

18:55

of images am I looking at?

18:57

How was this image formed? And that can get you a long way.

19:02

So the majority of you have said photo electric effect,

19:05

which is the correct answer.

19:07

Now we'll have the satisfaction

19:10

of the diagnosis which abnormality is present.

19:20

Okay, well done. The majority

19:22

of you have said rectovaginal fistula

19:24

and that's the correct answer here.

19:25

So this is the catheter we have administered radiopaque

19:28

contrast via the rectum and the anastomosis.

19:31

It's somewhere in here we can see the

19:34

a**l rectal anastomosis.

19:36

There is this outpouching along the posterior aspect

19:38

of the rectum and a tract

19:40

that extends all the way toward a triangular structure uh,

19:44

that extends down toward the perineum.

19:46

And so this is a fistulas tract

19:48

that's extending from the rectum to the forex of the vagina.

19:51

And then this is the vagina pacifying with contrast.

19:54

So this is indeed a patient with a rectovaginal fistula.

19:58

Next case, this is a patient with pelvic pain.

20:01

We have a gray scale ultrasound image

20:05

transvaginal based on the shape of the probe

20:07

and this is an image of the left ovary.

20:09

Here is the color image.

20:15

So my question for you is this patient is 33 years old,

20:19

the lesion in the previous images,

20:20

which will give you one more look at that color image.

20:23

I feel like I clicked away a little quickly.

20:26

The lesion in the previous image is 6.5 centimeters

20:29

and the patient is 33.

20:31

What should you do with regards to this lesion

20:36

you are reporting?

20:45

Okay, so we're sort of split here.

20:47

Um, folks have said follow up in six to 12 weeks,

20:51

recommend pelvic MRI or surgical consultation.

20:53

So let's go back to the appearance of the lesion, right?

20:55

Um, it is a relatively heterogeneous lesion.

20:59

There are some low level internal echoes within the lesion

21:03

and then there are some epigenic project which are avascular

21:08

on the color imaging.

21:09

So when I'm looking at this lesion, there are a couple

21:11

of things in my differential.

21:13

This looks like it has some kind

21:15

of hemorrhagic component to it.

21:17

So I'm thinking about um, a hemorrhagic cyst.

21:20

I'm thinking about an endometrioma with a retracted clot.

21:23

Those would be the most common things in this young patient.

21:27

But this certainly also could be

21:30

a hemorrhagic ovarian mass.

21:32

And the vascular components

21:34

of the lesion are obscured by hemorrhage.

21:35

But because the patient is young

21:37

and hemorrhagic cysts are common, we're going

21:39

to give her the benefit of the doubt

21:41

and have her follow up in six to 12 weeks.

21:44

Now what if the patient were 68 years old

21:46

presenting with the same lesion?

21:55

Okay, good. So the majority

21:57

of you have said either recommend pelvic MRI

22:00

or surgical consultation, um,

22:02

and surgical consultation uh, is the answer here.

22:05

You certainly could start with a pelvic MRI

22:07

but this is a big lesion.

22:08

This is going to come out.

22:10

Um, this patient is 68, uh,

22:12

should no longer be menstruating,

22:14

should no longer be having menstrual cycles

22:17

and so the possibility of a hemorrhagic cyst

22:19

or an endometrioma is much less likely.

22:21

This is far and away more likely a hemorrhagic ovarian mass.

22:24

And this requires surgical consultation

22:26

because this needs to come out.

22:29

Next case, this is a patient with pelvic pain

22:32

and vaginal bleeding.

22:34

I have provided you with sagittal T one post contrast images

22:38

of the pelvis as well as DWI with accompanying A DC images.

22:45

I'll give you a second to take a look at those.

22:52

Which feature present on these images of a patient

22:55

with cervical cancer qualifies as T four disease.

23:08

Okay, excellent. So the majority

23:09

of you have said bladder invasion and that is true.

23:12

Um, so cervical cancer, uh, the staging um,

23:17

feels counterintuitive in some cases

23:20

but um, when the disease is confined

23:22

to the cervix you still have a T one tumor

23:25

and then distinguishing TT two from T three disease depends

23:29

on which portion of the vagina if any is involved.

23:32

So upper one third of the vagina close to the cervix,

23:35

that's gonna be a T two tumor.

23:37

Lower one third of the vagina extending

23:39

further away from the cervix.

23:40

That's gonna be T three abutting.

23:43

The pelvic sidewall is a T three B,

23:45

but once you have gone on to invade the bladder

23:48

and um, local regional pelvic organ organs,

23:51

that is T four disease.

23:53

Well done. K 13.

23:56

What type of study has been performed here?

24:01

It's certainly a PET ct, I'll give you that.

24:03

Um, but you will be asked on the core exam to distinguish

24:06

between different types

24:07

of nuclear medicine studies including different PET cts.

24:11

So tell me what we've done here.

24:20

Okay, uh, we have sort of a split crowd between FDG pet CT

24:25

PFMA PET CT and gallium 68 Dotatate PET ct.

24:29

So that's good, right? You eliminated some choices.

24:32

So none of you said sodium fluoride PET

24:34

or copper dotatate pet.

24:36

Um, the answer here is A-P-S-M-A PET CT

24:38

and the way we can tell um,

24:40

is this intense uptake in the salivary glands.

24:43

And then I've given you the clue

24:44

of extensive retroperitoneal

24:46

lymphadenopathy here in this patient.

24:48

Um, with prostate cancer,

24:51

a gallium 68 Dotatate PET ct.

24:54

Um, we should see uptake in the liver

24:56

but also in the pancreas there is mild salivary gland uptake

25:01

in a gallium 68 dotatate scan,

25:03

but it should not be as intense as what we see

25:05

with A-P-S-M-A PET ct.

25:06

Sodium fluoride PET ct, I didn't trick any of you.

25:09

This is for bone lesions.

25:11

Um, and then a copper, uh, 64 dotatate PET ct.

25:15

We should see increased uptake in the spleen.

25:17

Uh, for those next case case 14,

25:22

what is the most likely diagnosis I

25:26

provided you with T one weighted images,

25:28

T one post contrast images

25:30

and T two weighted images of the upper abdomen.

25:42

Okay, um, so the votes here are split between renal lymphoma

25:46

and perinephric hematoma

25:48

and the answer here is renal lymphoma.

25:50

Um, so we have a little bit of uh, low level enhancement.

25:54

It's homogeneous within this crescentic perinephric lesion.

25:58

Um, I would expect

25:59

to see a little bit more intrinsic T one hyperintensity

26:03

perhaps and a little less enhancement in

26:05

a perinephric hematoma.

26:07

Um, we uh, would expect this lesion to be T two hyperintense

26:11

with it if it were a oma.

26:13

Um, this is not the correct look for a putty kidney, uh,

26:16

nor a urothelial carcinoma, the latter

26:18

of which should be more centrally located within the kidney.

26:21

Uh, so this is a case of renal lymphoma.

26:24

Specifically this was a diffuse large B cell

26:27

lymphoma case 15.

26:31

I have provided you with axial post contrast CT images

26:36

of the pelvis and a coronal uh, post contrast CT as well.

26:40

I'll give you a moment to take that in.

26:50

And here is your question.

26:53

What is the most common type of malignant ovarian tumor?

27:00

Sometimes the questions that you'll be presented

27:02

with on the core, you'll see a case

27:04

and you're trying to take in all of the findings

27:06

and then the question is, uh,

27:08

a fact check and this is one of those.

27:16

Okay, great. The most common common type

27:18

of malignant ovarian tumor is indeed

27:20

serous cyst adenocarcinoma.

27:22

This is an easy way to accumulate some points for yourself,

27:25

uh, by memorizing the most common types of malignancies.

27:31

K 16, in addition to there being physics

27:33

behind every corner on this exam, there is anatomy

27:36

behind every corner.

27:37

So the uterine arteries arise from which vessel I've given

27:41

you a coronal CTA MIP of the abdomen and pelvis.

27:53

Okay, excellent. So the uterine arteries indeed arise from

27:56

the anterior division of the internal iliac arteries.

27:59

Um, when you are evaluating the uterine arteries,

28:03

you can look for the bifurcation of the iliacs

28:06

and then the anterior division will send these tiny kind

28:09

of corkscrew branches, um, out toward the uterus.

28:12

They make this characteristic hair pin turn in the pelvis

28:17

before heading to the uterine body.

28:19

So when you see this characteristic hair pin turn, um,

28:23

in a vessel arising from the anterior division

28:25

of the internal iliac arteries,

28:26

these are the uterine case 17.

28:31

This is a premenopausal patient

28:33

with abdominal pain and vaginal bleeding.

28:36

She went to her OB GYN

28:37

and had a vaginal mass on physical exam.

28:41

These are T one post contrast images of the pelvis.

28:44

This is an axial T two weighted image

28:46

and this is a sagittal T two weighted image.

28:49

Um, and I forgot to mention at the beginning

28:50

of this lecture, I know it was on my slide,

28:52

but I'm also faculty for the GU division of the A IRP

28:55

and this is an A IRP case.

28:57

So shout out, um, to my GU division there,

29:02

what is the best diagnosis for this patient?

29:12

Okay, so we're kind of tied between uterine CIA

29:15

and malignant uterine inversion.

29:17

So let's go back to the images right.

29:19

So indeed the uterus is abnormally configured here, right?

29:23

This is the vagina

29:24

and it is encompassing the

29:28

uterus which is inverted on itself.

29:31

So this is the fundus of the uterus and,

29:32

and the uterus is kind of uh, invaginated inward.

29:36

And if we look at the post contrast images, um,

29:39

there's this really heterogeneously enhancing irregular

29:45

a lesion present within the endometrial cavity.

29:47

It's more difficult to appreciate um,

29:50

the T two weighted images,

29:51

but this is indeed a case of malignant uterine inversion.

29:55

For those of you who said dementia, I like the way

29:58

that you're thinking uterine dementia is the most severe

30:02

form of pelvic organ prolapse in which the uterus,

30:07

um, completely exits the vagina, uh,

30:10

and protrudes from the vaginal orifice.

30:13

So if we go back to the T two weighted image here, um,

30:15

even though the uterus is within the vagina,

30:18

it has not protruded from the inus,

30:20

you'll typically see the uterus extending below the level

30:23

of the perineum in patients with true complete proa.

30:28

These are the path images for this patient.

30:30

This ended up being an undifferentiated

30:33

endometrial carcinoma.

30:34

We can also see the ovaries

30:36

and tubes, um, kind of stuck

30:38

to the uterus here in this image.

30:40

And then this is the lesion, uh,

30:41

and we can see that on the histopath.

30:43

There's infiltrating tumor here, uh, which is um,

30:47

involving the cervix.

30:50

My next patient has constipation, diarrhea,

30:53

and unintentional weight loss.

30:55

And I've provided you with statal

30:57

and coronal CT images with friendly arrow signs, uh, as well

31:01

as an axial CT post contrast image.

31:04

So I'll give you a moment to take a look.

31:15

What is the least likely clinical history for this patient?

31:18

Um, I will encourage you to read carefully, right?

31:20

So sometimes they'll try to get you with these,

31:22

which is the least likely answer, just be careful.

31:25

Um, it's sort of it taboo

31:27

or maybe a little poor form to write questions that say

31:29

what is the least likely?

31:30

Um, but that is the question here.

31:32

And you may see these, uh, even though they are supposed

31:35

to show you fewer of those.

31:37

So what is the least likely clinical

31:41

history for this patient?

31:48

Okay, good. Yes, exactly. You did it.

31:51

So the answer here is stigmata of prior lymph angiogram.

31:53

That's the thing that this would not be right.

31:56

So let's go back. This patient has an enlarged uterus.

31:59

There is a big mamma fibroid here in the uterine body

32:02

and there are all of these partially calcified soft tissue

32:05

masses in the end, in the per in the peritoneal cavity, um,

32:10

predominantly involving the anterior

32:12

abdomen and the omentum.

32:14

So when you see a calcified peritoneal lesions, you have

32:17

to think about things like treated malignancy

32:19

that would include both lymph nodes in the setting

32:21

of lymphoma or peritoneal implants like in a patient had a

32:25

who had ovarian cancer.

32:27

Um, you could also have treated infectious

32:30

or inflammatory conditions like tuberculous peritonitis.

32:33

What this patient had previously was more more ation

32:37

of uterine fibroids.

32:38

Morcellation was a technique for the removal

32:41

of uterine fibroids that was very in vogue in the 2010s

32:45

and early two thousands

32:46

where they would use a little machine

32:48

to grind up uterine fibroids instead of um, resecting larger

32:52

for fibroids through a bigger incision in the abdomen.

32:54

The morcellator unfortunately, um,

32:57

would often drop little pieces

32:59

of the fibroids into the per into the peritoneal cavity

33:02

and these can set up their own supply

33:03

and become little parasitic or metastatic omata.

33:07

A lymph angiogram would not give us

33:09

this distribution of hyper density.

33:11

We would expect to see um,

33:13

hyper density along the lymphatic channels.

33:16

Most commonly you see this in the retroperitoneum

33:18

or the thoracic duct Sker Kylie regions.

33:23

So this was a patient with disseminated peritoneal al

33:26

mytosis and these are the histopath specimens.

33:29

We can see all of this studying with these numerous omental

33:32

and uterine Oma implants.

33:35

Case 19. This is a 71-year-old with palpable labial masses.

33:40

We have gray scale and color ultrasound images

33:44

of the labia bilaterally

33:48

and we are at the level of the vaginal introitus.

33:53

Which of the following additional findings would indicate

33:57

benignity of this lesion?

34:06

Great. Um, so slow flow within the lesions is

34:09

the correct answer here.

34:11

Um, so these are labial varis

34:14

and what I'm not showing you here is a cine clip

34:16

where we can almost see like a ru low sign, um, accumulating

34:20

uh, red blood cells and very slow flowing blood

34:23

within these lesions.

34:24

Um, if we saw regional adenopathy

34:27

or a surgical a cervical lesion,

34:28

we would be thinking about metastatic malignancy If we saw

34:32

soft tissue nodularity within this lesion

34:35

or had it really rapidly grown, um,

34:37

we would also be thinking about a malignant labial lesion,

34:41

um, but slow flow within the lesion that implies that

34:44

that is a benign vascular finding

34:45

and this is indeed labial varis.

34:48

This patient went on to have embolization

34:50

with interventional radiology

34:51

and had resolution of the masses and her symptoms.

34:55

Case 20. This is a patient with intermittent pelvic pain

34:58

and a pelvic mass who presented

35:00

with acute severe abdominal pain.

35:02

This is another A IRP case

35:04

and I have shown you a coronal CT image as well as

35:09

sagittal T two and T one post contrast images

35:12

of the abdomen and pelvis.

35:14

And I have given you handy dandy aero signs

35:17

for this case as well.

35:21

Diagnosis bleeds.

35:30

Okay, and the majority

35:31

of you have said uterine torsion which is

35:33

the correct answer here.

35:34

Um, this is the gross path specimen for this patient.

35:37

Um, you can see the engorged

35:40

and tortuous uh vessels here surrounding the uterus

35:43

and this patient had a 24 centimeter OMA which was the

35:47

lead point for the torsion.

35:48

We can see swirling of the vessels, um, both here on the CT

35:52

and on the T two

35:54

and there's a relative lack of enhancement, um,

35:56

of the uterus and the fibroid on the post contrast images

36:01

case 21, we have an axial

36:06

CT image of the pelvis.

36:11

Here's the accompanying ultrasound image

36:18

diagnosis please.

36:26

Okay, so the answer here is a lipo leiomyoma

36:29

and the majority of you got this.

36:30

We go back to the ct.

36:32

This is a fat containing lesion within the uterus.

36:35

Um, and when we go to the ultrasound image, it's confirmed

36:39

as intrauterine because the image is labeled sagittal uterus

36:42

and we see this, uh, intensely uniformly echogenic uh,

36:46

intrauterine lesion and fat is bright on ultrasound.

36:50

So this is a lipo leiomyoma which is a benign fatty variant

36:55

of uterine fibroids case 22.

36:58

This is a 33-year-old patient status post recent C-section.

37:01

She had an atonic uterus after delivery

37:04

and that required uterine artery embolization.

37:07

She is now coming in with abdominal pain

37:10

and thick dark vaginal discharge.

37:12

We have axial CT images of the pelvis.

37:15

There is contrast on board here

37:18

and then a gray scale transabdominal uh, image

37:21

of the uterus on ultrasound

37:28

here are accompanying MR images for this patient.

37:32

Here is a sagittal T two weighted image.

37:35

We also have a T one post subtraction image as well as

37:40

a standard axial T one post.

37:45

What is the diagnosis for this patient?

37:54

Okay, sort of all over the board here,

37:56

but the answers that got the two, the two answers

37:58

that got the most votes are uterine infarction

38:01

and endometritis and this is a case of uterine infarction.

38:05

Um, so this patient ended up undergoing a hysterectomy.

38:10

Uterine infarction is one of the rarest complications

38:12

of uterine artery embolization.

38:14

Um, it happens very, very infrequently, uh,

38:17

but unfortunately that was the case for this patient

38:20

and for those of you asking, well why not endo metritis,

38:24

it is the global lack of enhancement here within the uterus.

38:28

Um, on the post contrast images that make the diagnosis

38:31

of uterine infarction the answer here, it is okay

38:34

to have a small amount of gas

38:36

and blood products within the endometrial cavity following

38:39

vaginal or cesarean delivery.

38:41

Um, but unfortunately it's the global hypo enhancement

38:43

that makes infarction the, I'm sorry.

38:46

Next question. We have sagittal T two weighted images

38:50

of the pelvis, uh, for a patient with pelvic floor laxity,

38:53

in which of the following images

38:56

is the PCL drawn correctly?

39:07

Okay, we have votes for A and for B

39:11

and the answer here is B.

39:13

So the PCL

39:14

or pubal cidal line, it's a line

39:17

that we use when we are evaluating MRI of patients

39:20

with pelvic floor dysfunction and pelvic floor laxity.

39:24

This study is a dynamic pelvis, MRI sometimes also called uh

39:29

uh Mr Defecography.

39:31

And the way that you draw the pubic cidal line is you go

39:33

from the inferior aspect of the pubic synthesis

39:36

to the last cidal joint.

39:39

So, uh, image A shows the line at the tip of the coccyx,

39:44

but it's the last cidal joint that you wanna extend the line

39:48

to when you're drawing the PCL.

39:51

Page 24. Which of the following properties

39:55

of the labeled region accounts for its T two signal?

39:58

And we should be pointing here,

40:02

the arrow is a little misplaced

40:03

but should be pointing to this region.

40:07

So what property of this region accounts

40:10

for its appearance on T two?

40:19

Okay, excellent. So the answer here is D, low water content

40:23

and dense myocytes.

40:24

This is the junctional zone of the uterus.

40:26

We can see all of the layers

40:28

of the uterus very beautifully here on this sub T two.

40:30

This is the T two bright endometrium.

40:32

This is the T two dark junctional zone.

40:34

This is the T two bright

40:35

and somewhat heterogeneous myometrium.

40:37

And the CI rosa is this thin black line on

40:39

the outside of the uterus.

40:40

The junctional zone, um, is part

40:44

of the myometrium technically,

40:46

but the myocytes in this region are so densely packed, uh,

40:50

that the water content within this region is lower.

40:53

And so that lends this region

40:55

to its T two dark appearance on MRI case 25.

41:00

This is a companion case for you.

41:03

I provided you with sagittal

41:05

and axial T two weighted MR images of the pelvis

41:09

and I've given you a handy dandy arrow sign.

41:13

What is the most likely diagnosis for this patient?

41:23

Excellent. So the majority of you have said adenomyosis

41:25

which is the correct answer here.

41:27

Um, so adenomyosis is when you have ectopic endometrial

41:30

glandular tissue within the junctional zone of the uterus

41:33

or within the myometrium of the uterus.

41:35

This can lead to a thickened

41:36

and indistinct junctional zone

41:38

with interspersed T two bright cystic foci.

41:41

That is the ectopic endometrial glandular tissue

41:45

case 26 pelvic pain.

41:47

We have axial T one fat saturated non-contrast images

41:51

and axial T two and a coronal stir image of the pelvis.

42:02

What is the most likely diagnosis?

42:11

Well done. I had a couple of folks say mature teratoma

42:15

or lipoma.

42:16

Um, but the majority of you said endometrioma

42:18

and that is the correct answer here.

42:20

I wanna drill down on this for just a second.

42:23

So stir images are fat saturated images

42:26

but I wanna remind you

42:28

that stir imaging is not specific to fat, right?

42:31

Remember that when we do stir imaging we are acquiring these

42:35

images by giving a 180 degree RF pulse followed

42:39

by a 90 degree pulse to generate signal

42:41

and then we read out at the null time

42:43

of a tissue of interest.

42:45

And so for stir, the T one is short

42:47

because we wanna null out fat

42:49

but hemorrage variances endometriomas,

42:52

these can have T one relaxation times that are similar

42:55

to fat and that can give you signal dropout on a stir.

42:59

So if this is walking like an endometrioma

43:03

and talking like an endometrioma

43:04

with intrinsic T one hyperintensity

43:06

and T two shading, do not allow the stir to sway you.

43:10

Uh, because sometimes the T one relaxation times, uh,

43:13

when there are blood products on board can make

43:15

a lesion look dark.

43:16

On stir case 27 patient sent from

43:21

maternal fetal medicine clinic, we have coronal sagal

43:24

and axial T two weighted MR images

43:27

of the abdomen and pelvis.

43:32

I'll give you a moment to look at these

43:38

couple of arrows to aid you in your interpretation.

43:43

How is this condition managed?

43:45

What do we do for patients who have this condition?

43:56

Excellent. So we were sort of split

43:58

between cesarean hysterectomy

43:59

and cesarean section Cesarean

44:02

hysterectomy is the answer here.

44:03

This is a patient with placenta accreta spectrum.

44:06

In this case in particular the placenta ex is extending

44:09

beyond the boundary

44:11

of the uterus here this is placenta perreta.

44:13

These cases require resection of the uterus, um, following

44:18

cesarean delivery of the fetus through the fundus.

44:21

So cesarean hysterectomy is the correct answer here.

44:24

Case 28, we have a right a NAL ultrasound image a focused

44:29

on the right ovary.

44:31

We'll give you a moment to take a look at this.

44:37

What explains the echogenic striations within the lesion?

44:49

Excellent. So this is the dot dash sign of a mature teratoma

44:53

and that's due to the presence

44:54

of hair within the lesion case 29.

44:59

We have multiple images here.

45:01

This is the first we have an axial CT image at the level

45:05

of the kidneys coming further down to the level

45:09

of the pelvis, I've placed a region

45:11

of interest on this structure here in the right hemi pelvis

45:14

average hos field units here are 42.

45:20

Even further down I've taken another region of interest.

45:24

Average hounds field units here 67

45:27

and here we are at the level of the urinary bladder.

45:30

What best explains the findings present on these images?

45:41

Wonderful. So the answer here is urothelial malignancy.

45:44

So we have a thickened distal right ureter in this case.

45:48

Um, it is measuring soft tissue density on the images.

45:52

Uh, this is way too thick for a recently passed stone

45:55

or a UTI IgG four disease.

45:58

We expect to see um, entrapment of the ureters

46:01

by soft tissue in the retroperitoneum.

46:03

Um, and we don't have any indication on the rest

46:05

of the images this patient had had a surgery case 30.

46:09

This is a patient with back pain.

46:11

I've given you two axial post contrast images, CT images

46:16

of the abdomen at the level of the kidneys.

46:18

And the region of interest I have placed here is

46:20

59 pounds filled units.

46:23

Additional images for you, we have other axial

46:27

and a coronal post con CT image of the abdomen and pelvis.

46:32

Diagnosis please.

46:41

Excellent. So if we go back,

46:43

there is a fat containing lesion in the

46:45

lower pole of the left kidney.

46:46

There's a big perinephric hematoma

46:49

and there's a focus of active bleeding here.

46:51

So this is a patient, uh, who has an angiomyolipoma

46:54

with hemorrhage case 31.

46:58

We have two MR images of the abdomen, uh, at the level

47:03

of the liver and the adrenal gland.

47:06

These images were obtained on a 1.5 Tesla magnet,

47:10

which echo time was used to acquire the in phase images.

47:21

Okay, I got some

47:23

of you the answer here is B 4.4 milliseconds.

47:26

Um, so remember the out

47:27

of phase images are acquired first at 1.5 Tesla at 2.2

47:31

milliseconds and then the endphase images at

47:34

4.4 milliseconds.

47:36

Next case we're gonna keep moving here.

47:40

I've given you axial T two weighted images

47:43

and then T one pre

47:44

and post contrast images of the abdomen

47:47

of the level of the kidneys.

47:49

What's the most common histological variety

47:51

of renal cell carcinoma

48:00

well done.

48:01

So clear cell is the most common histological variety

48:05

and this is just a straight up knowledge check.

48:08

Next case follow up ovarian cyst.

48:11

Um, we have a gray scale transvaginal ultrasound

48:15

image of the right ovary.

48:16

We also have a color, uh,

48:19

image here accompanying the gray scale.

48:21

Given you some handy dandy arrow signs here.

48:26

To qualify as stroma ov eye, what percentage

48:29

of these tumors should be thyroid tissue?

48:39

Okay, so the majority of you said at least 25% we gotta do a

48:42

little bit more greater than 50%.

48:44

Um, if we take a look at this ovarian lesion,

48:46

if you put this in the thyroid gland,

48:48

you would call this the color cyst all day long

48:50

with these come tail artifacts.

48:52

Um, so this is a variant of mature teratoma

48:55

that can contains thyroid tissue

48:56

and to qualify as stroma ovary eye, greater than 50%

49:00

of the lesion has to be ectopic thyroid.

49:03

Next case, which artifact is present

49:06

in this axial T two weighted MR image of the abdomen?

49:18

Okay, excellent. So the answer here is dielectric effect.

49:21

Um, there's no wraparound in this image.

49:23

We don't see intrusion of any other body parts.

49:26

More fringes are that, um, kind of ripples on a pond effect

49:29

that you see in the periphery of images, Gibbs

49:33

or truncation artifact.

49:34

Uh, we often see, um, on spinal imaging, uh,

49:38

this is not a fat suppression image,

49:40

not a fat suppressed image.

49:41

So we don't have failure of fat set here,

49:43

but this darkness here in the center of the image is

49:46

because the patient's abdominal circumference exceeds our

49:49

field of view and we have signal loss centrally.

49:51

This is dielectric effect

49:52

and we see this in obese pre, uh, obese patients,

49:55

but also pregnant patients

49:56

and patients with large volume of abdominal pelvic ascites.

50:01

Last few cases here, case 35, this is a 91-year-old

50:04

with vaginal bleeding.

50:06

We have axial

50:07

and sagittal contrast enhanced CT images of the pelvis.

50:14

Give you just one moment.

50:17

What is the most likely diagnosis? Okay,

50:27

so the majority of you have said infected ring pessary

50:30

with abscess, but there is soft tissue here

50:33

for this lesion, right?

50:34

There's too much here to be abscess.

50:36

I don't see any gas within this.

50:39

I mean, so this ended up being a vaginal

50:41

squamous cell carcinoma.

50:43

Second to last case, this is a 30, uh,

50:46

this is a young woman status post MVC

50:49

and I've given you multiple axial, uh, coronal

50:52

and sagittal contrast.

50:54

Enhanced CT images of the abdomen and pelvis.

50:58

It is a grave uterus.

51:00

Which imaging features make placental abruption most likely.

51:11

Okay, good. The majority of you said hypo enhancement

51:14

of greater than 50% of the placenta.

51:17

And that's the correct answer here.

51:19

Actually, even when you see hypo enhancement of at least 25%

51:22

of the placenta, you can raise concern

51:24

for placental abruption, um,

51:26

but greater than 50%, that is a surgical emergency.

51:29

This patient and the fetus went to surgery for e c-section

51:32

and both mother and baby survived.

51:35

Last case for you. Which structure is indicated

51:37

by the red arrows?

51:39

Remember, there is physics and anatomy behind every corner.

51:50

Wonderful. And the vast majority

51:52

of you picked the correct answer, which is pupil ect.

51:55

Um, just a reminder that the, um, PTUs muscle contracts,

52:00

uh, during squeezing

52:02

or stress of the pelvic floor musculature.

52:04

Um, and so it acts as this kind of band

52:07

around the rectum and upper vagina.

52:10

So reminder, these are the questions you should be asking

52:13

yourself when you are seeing images

52:15

and multiple choice questions for the core exam

52:18

or when practicing.

52:19

Um, are these anatomic relationships normal?

52:22

What finding or characteristic explains this

52:24

or makes this the most likely diagnosis?

52:26

What are my next steps?

52:28

What would help me make this the strongest

52:29

choice in my differential?

52:31

What is the physics? What is the anatomy

52:34

and how can I describe this if I'm feeling totally lost?

52:38

Final thoughts for you.

52:39

Go into your exam day with your snacks.

52:41

You know what your testing snacks are, take them with you,

52:45

relax, give yourself some pats on the backs.

52:47

You're going to be great.

52:49

Thank you for your time

52:50

and I'm happy to answer any questions that you may have.

52:54

Dr. Gomez, that was, that was awesome.

52:55

You got through 37 cases, you did job well done.

52:58

I have to ask though, what is your, your study snack?

53:02

My study snack is Cheez-Its and a blue Powerade. Ooh,

53:05

So good.

53:07

So good. Um, we do have a couple questions in the Q

53:10

and a box if you wanna pop that open. Yeah,

53:13

Sure. Take

53:14

A look. Um, I'm

53:15

also happy to read them to you.

53:16

Let me pull 'em up. Let's see, what would be the rads,

53:21

let's see, the first one said, what would be the rads

53:23

for the postmenopausal endometrioma, uh,

53:26

versus hemorrhagic cyst?

53:28

Thanks. Um, you know, I I feel like, um,

53:32

to be completely honest with you, I am not an RADS expert

53:36

and I have to look up the calculator every time.

53:39

Um, but we see blood within the lesion.

53:42

There wasn't any vascularity, uh, within those projections.

53:46

And so, um, it probably would've received a, a fairly low

53:49

or a score from me interpreting those images.

53:53

Someone said my questions are tough. I'm sorry.

53:57

Um, but I'm, this is to prepare you, this is to steal you

54:01

and make you stronger.

54:03

Um, let's see. There is a question.

54:06

Can you explain the T one and T two physics question again?

54:09

Are we talking about the relaxation time question?

54:12

We can go back to that one.

54:14

Sorry to dizzy you

54:16

and take you back in time through my slides.

54:18

I think that was the appendiceal mucosal question,

54:21

which was fairly early on.

54:24

So, um, so

54:26

what I'm asking you here is do you see the lesion

54:30

and then once you have identified

54:31

that this is a T two hyperintense

54:33

and T one hypo intense lesion, um, what accounts

54:37

for the appearance of the lesion?

54:39

So, um, things that are going

54:42

to be bright on T two weighted image, they're going images,

54:45

they're gonna have a long T two relaxation time things

54:48

that are gonna be bright on T one.

54:50

They're gonna have a short T one relaxation time.

54:52

And the way that I remember that is

54:54

that gadolinium based contrast results in T one shortening.

54:57

And so this lesion, the characteristics of this lesion are

55:01

that it has a t long T one relaxation time

55:03

and a long T two relaxation time.

55:05

I hope that helps. Let's go to the labial Varice case again.

55:11

Uh, which somebody had questions about, oh wait,

55:13

there was one about the PSMA PET CT first.

55:15

Um, so somebody said, how do you differentiate

55:17

between gallium 68 and PSMA?

55:20

So for me, um, the

55:23

salivary gland uptake in A-P-S-M-A PET CT is much,

55:26

much more intense than the gallium 68 dotatate.

55:29

Also on a gallium 68,

55:31

you're gonna have uptake within the pancreas.

55:33

So that's the distinguishing factor

55:35

and those are the two things that I

55:36

kind of look for right away.

55:39

Um, let's see, in that appendiceal mucosal question,

55:42

the appendiceal mucosal is generating a lot

55:45

of controversy here.

55:47

Uh, why is the bladder bright on T one?

55:51

There's probably some excreted contrast within

55:54

the urinary bladder here.

55:56

Um, ladder here or this may be artifactual.

56:02

And then let's go to the labial es question one more time.

56:07

Let me just for the sake of time here, escape

56:10

and try to find it.

56:14

Here we go. Okay.

56:16

So we have, um, hypo, coic labial masses.

56:21

And when we look in the periphery of the lesion,

56:23

there are all of these tortuous vessels leading

56:25

up to and wrapping around.

56:27

And what I haven't shown you is

56:28

that on syn imaging there's really,

56:30

really slow flow within these lesions.

56:34

So slow flow within the lesions would sway me, uh,

56:37

that this was a benign entity.

56:39

And that is what happened

56:40

to me when I saw this patient in the clinic.

56:42

If I had seen bulky regional adenopathy in her groin

56:46

or within her pelvis, if I had seen,

56:48

if we had done a pelvic ultrasound, a cervical lesion,

56:51

soft tissue nodularity or vascularity within this lesion,

56:56

or if this had grown rapidly, um, over a period of time,

57:00

I would be suspicious that there was a malignant

57:02

process happening here.

57:04

Okay. And then there's a question about the

57:07

clitoral anatomy.

57:09

MRI. So let's go back to that,

57:15

that one, it's here.

57:17

Okay. So these are the cura

57:22

of the clitoris, right?

57:23

So they kind of come down like these paired tails.

57:27

Um, and they're gonna run almost along the inner edges

57:31

of the inferior pubic ray eye.

57:34

So these are the cura singular is cruse of the clitoris,

57:38

and they join together to form the ctor body

57:42

and then they terminate in the glands

57:44

or head of the clitoris.

57:46

And then, so this is the erectile tissue of the clitoris.

57:49

This is the part that becomes engorged with arousal.

57:52

And then these are the vestibular bulbs here.

57:54

And you'll see they kind of wrap around the vaginal inus,

57:58

which we can see down here.

58:01

The vestibular bulbs are the glandular tissue

58:03

and they aid in lubrication.

58:05

And this is a pretty picture that also shows.

58:08

So this is the glands, this is the, um, body

58:11

of the clitoris, and then these are the cura here.

58:14

We can also see the cura here, right?

58:17

And then the bodies come up like this

58:19

and then the vestibular bulbs kind of drape around

58:21

that glandular tissue around the vaginal introitus.

58:27

Let's see, somebody said, why are, um,

58:32

why are copper and gallium dotatate different distributions?

58:35

It seems like they should be the same

58:38

distribution of dotatate.

58:39

That is beyond the scope of my expertise.

58:41

And I'm sorry that I don't have a better

58:43

answer to that question.

58:45

Um, but I do know that for the copper you expect

58:48

to see more uptake within the spleen.

58:55

Okay, I think you got 'em all.

58:56

Okay. We did it. We did it.

58:58

Well, thank you so much Dr. Gomez.

59:00

That was amazing. 37 cases.

59:02

Yes, we did it. Thanks so much for having me. Of

59:05

Course. Thank you so much

59:06

for, for putting together this case

59:08

review and for being here tonight. We really appreciate

59:10

It. Yeah, it's been

59:11

my pleasure. Uh, thank you all again.

59:14

Yeah, for sure. And yeah, for everyone else out there,

59:16

thank you so much for participating.

59:18

You can access the replays of previous reviews

59:22

by creating a free account.

59:23

And be sure to join us next Monday, April 14th. Dr.

59:27

Mahesh is going to be back

59:28

to lead us in another physics review this time covering ct.

59:31

You can register for that at the link provided in the chat.

59:34

Follow us on social media for updates on future meetings.

59:38

And thanks again for learning with us

59:40

and we'll see you next time.

Report

Faculty

Erin Gomez, MD

Assistant Professor of Radiology

Johns Hopkins Hospital

Tags

Vascular Imaging

Pediatrics

Nuclear Medicine

Neuroradiology

Musculoskeletal (MSK)

Interventional

Head and Neck

Genitourinary (GU)

Gastrointestinal (GI)

Chest

Cardiac

Breast

Body