7. Order of elbow ossification centre development
C - Capitulum (or Capitellum) R - Radial head I - Internal epicondyle (or
medial epicondyle) T- Trochlea O - Olecranon L - Lateral (or external
epicondyle). Mnemonic = C R I T O L
8. Normal elbow X-ray - Lateral - (7 year old)
Normal anterior fat pad.
The posterior fat pad is not visible - soft tissue of the triceps muscle is not
separated from the posterior edge of the humerus.
More than one third of the capitulum lies in front of the anterior humerus line.
9.
10.
11. Typical supracondylar fracture. Fracture
is obvious on both the anteroposterior
(A) and lateral (B) views. Lateral view
demonstrates an abnormal relation of
the capitellum to the anterior humeral
line, which passes along the anterior
margin of the capitellum. Compare
these images with the lateral view of
the contralateral elbow (C), which
shows the anterior humeral line
passing normally through the middle
third of the capitellum.
12. Typical supracondylar fracture. Anteroposterior (A) and lateral (B) views.
Note the abnormal relation of anterior humeral line on the lateral view.
13. The radiocapitellar line does not pass through the capitulum.
In this case the ulna is also dislocated from the trochlea.
33. UCL (black arrows) and overlying common flexor tendon (black arrowhead) on the medial side (MED).
On the lateral side (LAT ) is the radial collateral ligament with an adjacent synovial fold (white arrow),
the annular ligament (white arrowhead ), and the overlying extensor carpi radialis brevis origin (open
arrow). (b) Coronal T2-weighted FS MR image through the elbow demonstrates the posterior band of
the UCL (black arrow) on the medial side and LUCL (white arrows) on the lateral side.
34.
35.
36.
37. Ulnar nerve within the cubital tunnel. The posterior band of the ulnar collateral
band forms the floor of the tunnel, while the retinaculum forms the roof.
38. Normal distal biceps tendon . At
conventional MR images, longitudinal
views are difficult to obtain because of the
oblique course of the tendon (arrows). MR
images obtained with the patient in the
FABS position shows a normal distal biceps
tendon (open arrows), the
musculotendinous junction (open
arrowhead), and the radial tuberosity (solid
arrowhead).
44. Ulnar collateral ligament (UCL) injury refers
to a sprain, partial tear or complete tear of
the ligament that traverses the inside (or
medial side) of the elbow. The UCL is the
primary stabilizer of the elbow and plays an
important role in throwing and hitting
sports, such as baseball, football and tennis.
Additional findings: Strain or rupture of the
common flexor tendon, ulnar neuropathy,
ulnar traction spurring or heterotopic
ossification of the soft tissues
55. Lateral epicondylitis, commonly known as tennis
elbow, is a painful condition involving the tendons that
attach to the bone on the outside (lateral) part of the
elbow. Tendons anchor the muscle to bone. The muscle
involved in this condition, the extensor carpi radialis
brevis, helps to extend and stabilize the wrist. With
lateral epicondylitis, there is degeneration of the
tendon’s attachment, weakening the anchor site and
placing greater stress on the area. This can then lead to
pain associated with activities in which this muscle is
active, such as lifting, gripping, and/or grasping. Sports
such as tennis are commonly associated with this, but
the problem can occur with many different types of
activities, athletic and otherwise. 90% non tennis player.
62. Medial epicondylitis, or "golfer's elbow,"
is similar to the more common lateral
epicondylitis ("tennis elbow") in many
respects. Both conditions are overuse
tendinopathies that can be associated with
racquet sports. Other activities with which
medial epicondylitis is associated include
golfing and throwing sports. Medial
epicondylitis has also been reported in
bowlers, archers, and weight lifters. 90%
non golfer player.
63. Medial epicondylitis (Golfer's elbow). Coronal fat-suppressed proton
density-weighted MR images . On the left image, a partial tear of
the common flexor tendon (white arrow) is observed. On the right
image, the common flexor tendon origin is usually thickened and
shows increased signal intensity (yellow arrow).Note the presence of
subtle bone marrow edema in the medial epicondyle (blue arrow).
66. Little Leaguer’s Elbow.
The medial epicondyle of the affected arm is
somewhat more osteopenic. In these cases
we usually ask for a comparison view,
because it can be very subtle.
The diagnosis is a Little leaguer's elbow
which results from chronic stress injury.
The lucency on the radiograph, which looks
like a widened physis, is due to cartilage
ingrowth in the metaphysis.
86. Avulsion of the distal triceps tendon (white arrow), with extensive overlying olecranon bursitis (black
arrows). There is cortical disruption (arrowhead) compatible with a small osseous avulsion.
96. Radial tunnel syndrome. Sagittal proton density MR image shows
mass (white arrow) displacing radial nerve (black arrows).
97. Chronic forearm pain demonstrates subtle increased signal intensity within the pronator teres
and flexor carpi radialis muscles (arrow) compatible with denervation of the median nerve.
98.
99. The sagittal images confirm that this is a lipoma. Atrophy is a result of compression
of the posterior interosseous nerve, which is a branch of the radial nerve.
100. Osteochondral defects are focal areas of articular
damage with cartilage damage and injury of the
adjacent subchondral bone. It is a term that
encompasses osteochondritis dissecans, and
is used synonymously with osteochondral
injury/ defect in the pediatric population.
Pathology:
Osteochondritis dissecans thought to be due to
Repeated microtrauma.
Avascular necrosis.
Macrotrauma.
Post surgical .
103. The T2W-fatsat image shows marrow edema and may be there is a subchondral fracture.
Obviously someone told him to keep throwing, because he came back three years later at age 17
and you can see what can happen when they push too hard in getting these kids to become a
professional. The T1W-image shows fragmentation (yellow arrow) with a loose body (red arrow).
104. Large osteochondral lesion in the lateral trochlea (yellow arrows).
Notice the edema in the subchondral bone (red arrow).
105. Panner’s disease Occurs in children (age <10) Osteochondrosis
of capitulum due to localized avascular necrosis Signs and
Symptoms Sudden pain at radio humeral joint Swelling.
106. X-Ray elbow demonstrates subtle sclerosis, subchondral lucency, and cortical
irregularity of the capitellum (arrow), compatible with osteochondritis of the
capitellum or Panner disease. (b) Corresponding coronal T1-weighted image
shows irregular low signal intensity in the capitellum (arrow).
112. Valgus overload syndrome" with very characteristic injuries to the elbow over time.
The tension on the medial side causes a tear of the ulnar collateral ligament.
Compression on the lateral side causes an osteochondral lesion of the capitellum.
The shear forces on the posterior side cause arthrosis.
115. Elbow dislocation: Here a lateral view of the elbow of a patient
who fell on the outstretched arm. The radiograph shows joint
effusion (red arrows) and a coronoid fracture (yellow arrow).
116. Coronal view: Lateral collateral ligament is completely stripped (yellow arrow).
radial head is subluxed. marrow edema of the coronoid process due to the
fracture (red arrow).
Sagittal view: Radial head is a little bit subluxed posteriorly (yellow arrow).
Large effusion and capsular disruption posteriorly. Contusion of the posterior side
of the capitellum as a result of impaction by the coronoid process (red arrow).
117. Posterior elbow dislocation with contusion in the anterior side of the
radial head (red arrow) and on the posterior side of the capitellum.
118. Arthritis of the Elbow.
The most common cause of arthritis of the elbow is rheumatoid
arthritis. Osteoarthritis and injuries can also cause arthritis in the
elbow joint.
Rheumatoid arthritis is a disease of the joint linings, or synovia.
As the joint lining swells, the joint space narrows. The disease
gradually destroys the bones and soft tissues. Usually, RA affects
both elbows, as well other joints such as the hand, wrist and
shoulder.
Osteoarthritis affects the cushioning cartilage on the ends of the
bones that enables them to move smoothly in the joint. As the
cartilage is destroyed, the bones begin to rub against each other.
Loose fragments within the joint may accelerate degeneration.
Trauma or injury to the elbow can also damage the cartilage of
the joint. This can lead to the development of arthritis in the
injured joint.
121. Elbow inflammation with synovuim enhancement. A contrast-enhanced T1-weighted image with fat
suppression shows synovial enhancement (arrow) that reflects synovitis due to inflammation or infection.
