- Operative treatment for displaced articular fractures
aims for anatomic reduction and early motion to min-
imize stiffness. Intra-articular distal humerus frac-
tures tend to be extremely complicated to treat
operatively.
CAPITELLAR FRACTURE
- Rare!<1% of all elbow fractures (Scheling, 2002).
Often associated with radial head fractures. Diagnosis
may be difficult, and the lateral plain film must be
carefully checked. A computed tomography(CT) scan
may be necessary to better delineate the fracture type.
Nonoperative treatment for nondisplaced fractures. - There are three basic types of capitellar fractures:
Hahn-Steinthal fracture includes a large portion of
bone with the capitellar articular surface, and usually
is able to be primarily reduced, and fixed operatively.
The Kocher-Lorenz fragment involves a small amount
of articular surface of the capitellum only, and must
often be excised. A third type of fracture is commin-
uted and is also difficult to fix. - Early motion is mandatory after these injuries.
RADIAL HEAD FRACTURES
- Common: 20–30% of elbow fractures (Scheling,
2002). Adults tend to sustain radial head as opposed to
neck fractures. May be isolated or associated with
elbow dislocation, ulnar shaft fractures, distal radial
joint injury (Essex-Lopresti lesion), or carpal frac-
tures, as well as additional fracture patterns. - Must rule out associated medial collateral ligament
(MCL) injury, interosseus membrane, distal radio-
ulnar joint(DRUJ) injury. - Operative indications include displacement greater
than 2 mm, mechanical block to motion (pain may be
ruled out as cause with intra-articular lidocaine injec-
tion), greater than 20–30% articular depression, or
open fracture (Scheling, 2002). Surgical options
depend on fracture type as well as associated lesions
and include excision, ORIF or hemiarthroplasty.
Radial head should never be excised if interosseus lig-
ament or MCL injury.
OLECRANON FRACTURE
- Nondisplaced fractures <2 mm are treated nonopera-
tively with long arm casting. Care must be taken to
avoid prolonged immobilization and stiffness
(Scheling, 2002).- Displaced fracture required ORIF, with technique
dependent upon fracture pattern stability. Although
excision of up to 50% of olecranon has been described
(Scheling, 2002), this should only be used in very low
demand patients, and not in the athletic population.
- Displaced fracture required ORIF, with technique
CORONOID FRACTURES- Caused by humeral hyperextension. Associated with
dislocation of elbow 10–33% of time. Coronoid-
trochlear articulation provides up to 50% of elbow
stability (Scheling, 2002).
•Treatment depends on fracture stability pattern, which
is defined by amount of coronoid involved in fracture.
Greater than 50% involvement requires ORIF, less
than 50% fracture may be treated nonoperatively if it
is stable. - As with most elbow fractures, basic treatment plan is
to obtain stability so as to allow early motion.
OSTEOCHONDRITIS DESSICANS- Osteochondritis dessicans (OCD) of the capitellum
occurs in adolescent and young adult athletes who are
involved in repetitive upper extremity exercises. - Throwers, gymnasts, and weight lifters are particularly
susceptible. - Etiology involves microtrauma, but exact cause is
uncertain. - AP and lateral radiographs are usually sufficient for
diagnosis, but MRI or CT may be helpful to further
delineate extent of lesion. There may be a localized area
in capitellum without rarefaction and crater formation. - Osteochondrosis of the capitellum or Panner’s disease
occurs in children age 4–8 years and involves entire
ossific nucleus self-limiting with conservative treat-
ment (Schenck, Jr and Goodnight, 1996). - OCD of the capitellum occurs in individuals 10 years
old or greater and involves a portionof the capitellum.
It is believed to be due to valgus high stress forces
caused during the acceleration phase of throwing,
when the capitellum becomes loaded. Symptoms
include poorly defined lateral elbow pain, with later
stages of disease showing catching and locking. Laxity
of the MCL may be present. Permanent deformity may
result. Strict restriction from throwing for 8–12 weeks
or until full, pain-free motion is restored for nondis-
placed lesion with intact articular cartilage (Schenk
and Goodnight, 1996). - Indications for surgery include partially or completely
detached fragment. Treatment options are dependent
on lesion type and chronicity and include removal,
296 SECTION 4 • MUSCULOSKELETAL PROBLEMS IN THE ATHLETE