0:00

This is an 18-year-old football player who sustained an injury

0:05

on the field, and he was referred to us to assess

0:10

for rotator cuff tear.

0:13

When we look at these patient's axial images from top to bottom,

0:18

we can see the acromioclavicular joint and

0:22

the distal clavicle end comes into view.

0:26

It's outlined by fluid.

0:28

There is fluid surrounding the distal clavicle,

0:32

and then we don't see the opposing acromion until two or three

0:37

cuts lower than where we see the distal clavicle end.

0:42

So, this is concerning for acromioclavicular

0:47

separation, and in the classification,

0:52

this would be a grade three where this distal clavicle end

0:58

is superiorly placed with respect to the opposing acromion.

1:03

The relationship can be better assessed in the oblique coronal plane.

1:07

Again, distal clavicle end acromion,

1:11

complete disruption of the acromioclavicular ligaments,

1:15

superior and inferior acromioclavicular ligaments.

1:19

And then, we have fluid that is coming from the joint space

1:23

through the torn capsule, outlining the distal clavicle,

1:29

the superiorly translated distal clavicle.

1:32

Now for these two happen,

1:35

not only the acromioclavicular ligaments have to be disrupted,

1:40

there needs to be a disruption of the ligaments holding together

1:45

the coracoid process and the clavicle.

1:47

So, we call this the coracoclavicular ligaments.

1:51

There are two groups of fibers in this location.

1:55

The conoid and trapezoid are components of the coracoclavicular

2:00

ligaments, and on fluid-sensitive sequences,

2:03

that should be low signal intensity.

2:06

We can see how the ligaments here on the sagittal plane are

2:11

completely disrupted.

2:12

There is this plane of fluid signal intensity,

2:16

traverse in the fibers, also noted here in the coronal plane,

2:20

in keeping with a full-thickness tear

2:24

of the coracoclavicular ligaments.

2:26

Now, just to put this into perspective,

2:29

we can see the distal clavicle end in this

2:34

oblique coronal image here,

2:37

and if we go to the next cut,

2:40

we can see the acromion lower down.

2:43

So, that difference in distance is what makes

2:48

this a grade 3 acromioclavicular separation,

2:53

because there is no alignment between the distal clavicle

2:57

and the acromion.

2:59

In the axial plane, we can see the

3:03

widening of the acromioclavicular interval.

3:08

So, we can draw here.

3:10

That's the acromion. This is the clavicle,

3:13

and we see that there is widening

3:16

of the acromioclavicular distance.

3:18

That should not be greater than 7 mm.

3:22

The distance between the coracoid and the clavicle

3:27

can also be assessed on MR images.

3:31

So, we would be measuring the distance between

3:35

the coracoid here and the clavicle.

3:38

And this distance should be no more than 11 mm.

3:42

If it is, it means that the ligaments are disrupted

3:45

and are allowing the clavicle to migrate superiorly,

3:51

with respect to the acromion.

Wk 2, Case 3 - Review

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Pro Tip: Click on a word in the transcript to jump to that point in the video

0:00

This is an 18-year-old football player who sustained an injury

0:05

on the field, and he was referred to us to assess

0:10

for rotator cuff tear.

0:13

When we look at these patient's axial images from top to bottom,

0:18

we can see the acromioclavicular joint and

0:22

the distal clavicle end comes into view.

0:26

It's outlined by fluid.

0:28

There is fluid surrounding the distal clavicle,

0:32

and then we don't see the opposing acromion until two or three

0:37

cuts lower than where we see the distal clavicle end.

0:42

So, this is concerning for acromioclavicular

0:47

separation, and in the classification,

0:52

this would be a grade three where this distal clavicle end

0:58

is superiorly placed with respect to the opposing acromion.

1:03

The relationship can be better assessed in the oblique coronal plane.

1:07

Again, distal clavicle end acromion,

1:11

complete disruption of the acromioclavicular ligaments,

1:15

superior and inferior acromioclavicular ligaments.

1:19

And then, we have fluid that is coming from the joint space

1:23

through the torn capsule, outlining the distal clavicle,

1:29

the superiorly translated distal clavicle.

1:32

Now for these two happen,

1:35

not only the acromioclavicular ligaments have to be disrupted,

1:40

there needs to be a disruption of the ligaments holding together

1:45

the coracoid process and the clavicle.

1:47

So, we call this the coracoclavicular ligaments.

1:51

There are two groups of fibers in this location.

1:55

The conoid and trapezoid are components of the coracoclavicular

2:00

ligaments, and on fluid-sensitive sequences,

2:03

that should be low signal intensity.

2:06

We can see how the ligaments here on the sagittal plane are

2:11

completely disrupted.

2:12

There is this plane of fluid signal intensity,

2:16

traverse in the fibers, also noted here in the coronal plane,

2:20

in keeping with a full-thickness tear

2:24

of the coracoclavicular ligaments.

2:26

Now, just to put this into perspective,

2:29

we can see the distal clavicle end in this

2:34

oblique coronal image here,

2:37

and if we go to the next cut,

2:40

we can see the acromion lower down.

2:43

So, that difference in distance is what makes

2:48

this a grade 3 acromioclavicular separation,

2:53

because there is no alignment between the distal clavicle

2:57

and the acromion.

2:59

In the axial plane, we can see the

3:03

widening of the acromioclavicular interval.

3:08

So, we can draw here.

3:10

That's the acromion. This is the clavicle,

3:13

and we see that there is widening

3:16

of the acromioclavicular distance.

3:18

That should not be greater than 7 mm.

3:22

The distance between the coracoid and the clavicle

3:27

can also be assessed on MR images.

3:31

So, we would be measuring the distance between

3:35

the coracoid here and the clavicle.

3:38

And this distance should be no more than 11 mm.

3:42

If it is, it means that the ligaments are disrupted

3:45

and are allowing the clavicle to migrate superiorly,

3:51

with respect to the acromion.

Report

Patient History
18-year-old male with right shoulder pain and decreased range of motion after a fall playing football.

Findings
ROTATOR CUFF:

Supraspinatus: Intact.

Infraspinatus: Intact.

Subscapularis: Intact.

Teres minor: Intact.

Biceps tendon and anchor: Intact.

ACROMIOCLAVICULAR JOINT: Completely ruptured superior and inferior acromioclavicular ligaments and capsule. Full-thickness tear/rupture of the coracoacromial ligament. Extensive heterogeneous high-signal hemorrhagic edema surrounding ligamentous injury. Moderate diastasis and elevation/subluxation of the distal clavicle. No posterior displacement.

Coracoclavicular ligaments: Complete full-thickness tear/rupture involving the conoid and trapezoid portions of the coracoclavicular ligament (completely ruptured coracoclavicular ligament). Slightly increased coracoclavicular distance.

SUBACROMIAL ARCH/OUTLET: Normal positioning of the acromion. No evidence of lateral outlet stenosis or impingement.

SUBACROMIAL/SUBDELTOID BURSA: Unremarkable.

GLENOHUMERAL JOINT: Articular surfaces: No high-grade chondromalacia of the glenohumeral articular surfaces.

GLENOID LABRUM: No traumatic or displaced labral tear.

BONES: No acute fracture or evidence of glenohumeral dislocation injury. The humeral head is centered within the glenoid.

MUSCLES: Muscle edema within the anterior proximal deltoid muscle/myotendinous unit origin (grade 1 muscle/myotendinous strain injury). Small partial-thickness tear of the distal trapezius insertion adjacent to the distal clavicle, with diffuse muscle edema extending through the distal muscle fibers, consistent with a grade 1-2 muscle injury. No full-thickness tear or detachment. Otherwise unremarkable muscles.

INTRA-ARTICULAR BODIES: None.

SOFT TISSUE: Extensive soft tissue edema/contusion surrounding the AC joint and lateral/anterior shoulder. Otherwise unremarkable.

AXILLA: Unremarkable

Impressions
1.Grade 3 acromioclavicular joint injury (Rockwood classification system):
2.Ruptured coracoclavicular ligament (conoid and trapezoid portions). Ruptured superior and inferior acromioclavicular ligaments and capsule. 4.Ruptured coracoacromial ligament.
3.AC joint diastasis and moderate distal clavicular elevation (4-5mm).
4.Mildly increased coracoclavicular distance.
5.Grade 1 anterior deltoid strain. Grade 1-2 distal trapezius strain.

Case Discussion

Faculty

Stephen J Pomeranz, MD

Chief Medical Officer, ProScan Imaging. Founder, MRI Online

ProScan Imaging

Jenny T Bencardino, MD

Vice-Chair, Academic Affairs Department of Radiology

Montefiore Radiology

Edward Smitaman, MD

Clinical Associate Professor

University of California San Diego