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Training Collections
Library Memberships
Black Friday Save 30%On-demand course library with video lectures, expert case reviews, and more
Fellowship Certificate™ Programs
Black Friday Save 30%Practice-focused training programs designed to help you gain experience in a specific subspecialty area.
Ultimate Learning Pass
Black Friday Save 40%Unlock access to our full Course Library and all self-paced Fellowships.
Noon Conference (Free)
Get access to free live lectures, every week, from top radiologists.
Case of the Week (Free)
Get a free weekly case delivered right to your inbox.
Dr. Resnick's MSK Conference
BLACK FRIDAY SAVE 30%Learn directly from the MSK Master himself.
Lower Extremities MRI Conference
Musculoskeletal Imaging
Emergency Imaging
PET Imaging
Pediatric Imaging
For Training Programs
Supplement your training program with case-based learning for residents, registrars, fellows, and more.
For Private Practices
Upskill in high growth, advanced imaging areas.
Emergency Call Prep
Prepare trainees to be on call for the emergency department with this specialized training series.
1 topic, 5 min.
1 topic, 4 min.
10 topics, 50 min.
Introduction to Shoulder Instability
6 m.Axial Anatomy on MRI
5 m.Axial Anatomy: The Biceps Pulley
5 m.Axial Instability Search Pattern
9 m.Axial Shoulder: The Structures that Give Radiologists Fits
6 m.Introduction to the Buford Complex
3 m.The Glenoid Cup
6 m.Dynamic and Passive Stabilizers in the Sagittal Projection
6 m.Dynamic and Passive Stabilizers in the Coronal Projection
7 m.Return of the Buford Complex
3 m.7 topics, 53 min.
Key Pulsing Sequences for the Shoulder
6 m.Utilizing the ABER view in the Coronal Projection
9 m.The Value of the T2 Sequence in Shoulder Imaging
7 m.Arthrographic Analysis of the Axial Projection
11 m.Arthrographic Analysis in the Coronal Projection
9 m.Arthrographic Analysis in the Sagittal Projection
6 m.Shoulder Projections Summary
8 m.11 topics, 50 min.
On-Track/Off-Track: ABER Summary
6 m.On-Track/Off-Track: Mid-Range Summary
3 m.On-Track/Off-Track: Assessing Glenoid Bone Loss
8 m.On-Track/Off-Track: The Nofsinger Technique
3 m.On-Track/Off-Track: Stable Hill-Sachs Lesions
3 m.On-Track/Off-Track: The Hill-Sachs Concept
4 m.On-Track/Off-Track: Dislocation Mechanics
4 m.On-Track/Off-Track: Dynamic Examination after Bankart Repair
6 m.On-Track/Off-Track: Using Measuring Tools on MRI
6 m.Posterior Macro & Micro Instability
7 m.Posterior Labral Pathology
6 m.23 topics, 2 hr. 31 min.
17 Year Old Male – Known Dislocation
15 m.21 Year Old Male Pitcher; Decreased Range of Motion
9 m.21 Year Old Involved in a Collision Accident
9 m.54 Year Old Female with Complex Multidirectional Microinstability
7 m.49 Year Old Male, Weightlifter, Experiencing Instability
6 m.68 Year Old Male Golfer with Pain for a Month
6 m.15 Year Old Male – Fell On Outstretched Hand
8 m.55 Year Old Female, Pain in Shoulder Extending to Elbow After Arm Was Jerked
9 m.25 Year Old Male, Pain When Swinging Arm
8 m.53 Year Old Male, Motor Vehicle Accident 6 Weeks Ago, Now Experiencing Pain and Spasms
8 m.17 Year Old Male with a History of Dislocation
6 m.51 Year Old Female: Rule Out Rotator Cuff Tear
5 m.The GLOM Lesion
3 m.56 Year Old Patient with Axillary Nerve Dysfunction Post Dislocation
2 m.69 Year Old Male, Fell and Dislocated Shoulder
10 m.69 Year Old Male with Complex Pattern of Injury
9 m.38 Year Old Male with a Dislocation/Relocation Event
6 m.20 Year Old Male, Recurrent Dislocations and Instability
12 m.20 Year Old Male Pitcher with Recent Dislocation
4 m.17 Year Old Wrestler with Discomfort in the Shoulder
5 m.42 Year Old Male with a Violent Posterior Dislocation
6 m.40 Year Old Male in Motor Vehicle Accident, Irreducible Dislocation
5 m.40 Year Old Male, Post Motor Vehicle Accident
4 m.6 topics, 50 min.
4 topics, 14 min.
6 topics, 25 min.
0:00
Let's take a look at stable Hill-Sachs defects.
0:06
I mean, this is a deep hatchet job, if you will.
0:10
But yet, no matter whether you're in the mid-range,
0:14
where the capsule is lax, or you're in the end range
0:18
with the arm in abduction and external rotation,
0:21
there is always contact between the surface of
0:25
the humerus and the glenoid articular surface.
0:29
Even though there's laxity here, which is very common,
0:33
and in fact there's usually some anterior translation
0:38
of the humerus when you're in the mid-range position.
0:42
In other words, when you're not fully
0:43
abducted and externally rotated.
0:47
Now in some athletes, the amount of translation that you
0:50
might see here would be greater than the average person.
0:54
In fact, some people in the mid-range, even without a
0:59
Hill-Sachs, And without a glenoid lesion, may be able
1:03
to sublux and even dislocate the shoulder spontaneously.
1:09
Further contributing to the failure of dislocation,
1:15
or helping to support the shoulder, is the
1:18
concavity, as we've said before, of the glenoid cup.
1:22
So you're much more likely to spontaneously
1:24
dislocate with anterior laxity, with or without
1:27
a Hill-Sachs, if the cup is completely flat.
1:31
And that's why you must pay attention to this conformity
1:36
and the fit between the humeral head and the glenoid
1:39
cup, even though the humeral head is a heck of a lot
1:42
bigger, and that's why this joint is prone to dislocation.
1:48
Now the glenoid socket is twice as deep in the
1:51
cranial caudate, or superior to inferior direction,
1:55
as it is in the anterior to posterior direction.
2:00
As a result, the force necessary to translate
2:03
the humeral head under constant compressive
2:06
force is twice as large in the supero inferior
2:10
direction than it is in the AP direction.
2:13
And that's why AP dislocations dominate
2:17
more over direct inferior dislocations.
2:21
The anteroinferior capsule and inferior dislocations,
2:25
as you would expect, are at high risk, and this is
2:28
what may generate your haggle, your bagel, your raggle,
2:31
and your gaggle.
2:33
So, this is an example of mid-range shoulder positioning
2:38
with capsular laxity and end-range abduction external
2:42
rotation with the anterior capsule taut that get this
2:47
patient translating a little bit but not dislocating
2:50
even in the face of a good size Hill-Sachs laxative.
Interactive Transcript
0:00
Let's take a look at stable Hill-Sachs defects.
0:06
I mean, this is a deep hatchet job, if you will.
0:10
But yet, no matter whether you're in the mid-range,
0:14
where the capsule is lax, or you're in the end range
0:18
with the arm in abduction and external rotation,
0:21
there is always contact between the surface of
0:25
the humerus and the glenoid articular surface.
0:29
Even though there's laxity here, which is very common,
0:33
and in fact there's usually some anterior translation
0:38
of the humerus when you're in the mid-range position.
0:42
In other words, when you're not fully
0:43
abducted and externally rotated.
0:47
Now in some athletes, the amount of translation that you
0:50
might see here would be greater than the average person.
0:54
In fact, some people in the mid-range, even without a
0:59
Hill-Sachs, And without a glenoid lesion, may be able
1:03
to sublux and even dislocate the shoulder spontaneously.
1:09
Further contributing to the failure of dislocation,
1:15
or helping to support the shoulder, is the
1:18
concavity, as we've said before, of the glenoid cup.
1:22
So you're much more likely to spontaneously
1:24
dislocate with anterior laxity, with or without
1:27
a Hill-Sachs, if the cup is completely flat.
1:31
And that's why you must pay attention to this conformity
1:36
and the fit between the humeral head and the glenoid
1:39
cup, even though the humeral head is a heck of a lot
1:42
bigger, and that's why this joint is prone to dislocation.
1:48
Now the glenoid socket is twice as deep in the
1:51
cranial caudate, or superior to inferior direction,
1:55
as it is in the anterior to posterior direction.
2:00
As a result, the force necessary to translate
2:03
the humeral head under constant compressive
2:06
force is twice as large in the supero inferior
2:10
direction than it is in the AP direction.
2:13
And that's why AP dislocations dominate
2:17
more over direct inferior dislocations.
2:21
The anteroinferior capsule and inferior dislocations,
2:25
as you would expect, are at high risk, and this is
2:28
what may generate your haggle, your bagel, your raggle,
2:31
and your gaggle.
2:33
So, this is an example of mid-range shoulder positioning
2:38
with capsular laxity and end-range abduction external
2:42
rotation with the anterior capsule taut that get this
2:47
patient translating a little bit but not dislocating
2:50
even in the face of a good size Hill-Sachs laxative.
Report
Description
Faculty
Stephen J Pomeranz, MD
Chief Medical Officer, ProScan Imaging. Founder, MRI Online
ProScan Imaging
Tags
Trauma
Shoulder
Musculoskeletal (MSK)
MRI
Bone & Soft Tissues
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