0:00

In a wrap up of Huntington's, Chorea.

0:03

I'd like to show you FDG, fluorodeoxyglucose,

0:07

positron emission tomography.

0:10

Now, as you know,

0:10

Huntington's Chorea is a genetic disorder

0:12

inherited as an autosomal dominant.

0:15

The gene is called the interesting transcript

0:18

or IT-15 gene found on chromosome four.

0:21

The gene product, however,

0:23

is expressed in Alzheimer's disease

0:26

and in Pick's disease.

0:27

As you know,

0:28

it consists of a trinucleotide syndrome in which

0:32

cytosine, adenine, and guanine repeat and the number

0:36

of repeats not only determines the clinical

0:39

symptomatology when it presents

0:41

in life, in other words,

0:43

greater number of repeats earlier presentation

0:46

but also has an effect on the metabolic MR

0:49

manifestations, including hypoperfusion and

0:53

hypometabolism of the caudoputaminal region.

0:57

I also want to remind you of the phenomenon

0:59

of anticipation in which the phenotypical

1:02

manifestation or the severity of the disease

1:04

increases with each generation.

1:06

So, let's look at a very gross example of somebody

1:09

with Huntington's Chorea who has 57 CAG repeats.

1:13

We have an axial T2 and an axial PD.

1:16

Look at the diminutive size of the caudate.

1:20

Look at the narrow configuration of

1:24

the putamen from side to side.

1:26

It virtually looks like a slit on either side.

1:30

And this can go on to frank necrosis

1:32

with cystic degeneration.

1:34

Not surprising is the positron emission tomography

1:37

study which demonstrates with fluorodeoxyglucose

1:41

profound hypometabolism.

1:44

Look at that gray matter structure compared to the

1:46

cortical gray matter in the frontal

1:48

region on both sides.

1:50

The caudate nuclei are not only severely atrophic,

1:54

they're severely hypometabolic.

1:56

And on perfusion imaging, we're hypoperfused.

1:59

Huntington's Chorea,

2:01

an autosomal dominant inherited

2:03

condition causing Chorea.

Huntington’s Chorea on PET

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0:00

In a wrap up of Huntington's, Chorea.

0:03

I'd like to show you FDG, fluorodeoxyglucose,

0:07

positron emission tomography.

0:10

Now, as you know,

0:10

Huntington's Chorea is a genetic disorder

0:12

inherited as an autosomal dominant.

0:15

The gene is called the interesting transcript

0:18

or IT-15 gene found on chromosome four.

0:21

The gene product, however,

0:23

is expressed in Alzheimer's disease

0:26

and in Pick's disease.

0:27

As you know,

0:28

it consists of a trinucleotide syndrome in which

0:32

cytosine, adenine, and guanine repeat and the number

0:36

of repeats not only determines the clinical

0:39

symptomatology when it presents

0:41

in life, in other words,

0:43

greater number of repeats earlier presentation

0:46

but also has an effect on the metabolic MR

0:49

manifestations, including hypoperfusion and

0:53

hypometabolism of the caudoputaminal region.

0:57

I also want to remind you of the phenomenon

0:59

of anticipation in which the phenotypical

1:02

manifestation or the severity of the disease

1:04

increases with each generation.

1:06

So, let's look at a very gross example of somebody

1:09

with Huntington's Chorea who has 57 CAG repeats.

1:13

We have an axial T2 and an axial PD.

1:16

Look at the diminutive size of the caudate.

1:20

Look at the narrow configuration of

1:24

the putamen from side to side.

1:26

It virtually looks like a slit on either side.

1:30

And this can go on to frank necrosis

1:32

with cystic degeneration.

1:34

Not surprising is the positron emission tomography

1:37

study which demonstrates with fluorodeoxyglucose

1:41

profound hypometabolism.

1:44

Look at that gray matter structure compared to the

1:46

cortical gray matter in the frontal

1:48

region on both sides.

1:50

The caudate nuclei are not only severely atrophic,

1:54

they're severely hypometabolic.

1:56

And on perfusion imaging, we're hypoperfused.

1:59

Huntington's Chorea,

2:01

an autosomal dominant inherited

2:03

condition causing Chorea.

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Description

Faculty

Stephen J Pomeranz, MD

Chief Medical Officer, ProScan Imaging. Founder, MRI Online

ProScan Imaging

Lesson