of pathology. Eighty percent of MDI diagnosed patients
respond favorably to nonoperative treatment (Burkhead
and Rockwood, Jr, 1992).REHABILITATION
- Rehabilitation for instability involves activation of the
dynamic stabilizers of the shoulder to aide in the over-
all stabilization. There are three main components—
range of motion(ROM), strengthening, and brace wear. - ROM:Full external, internal, abduction, and forward
elevation should be established. This is obtained by
passive, active assisted, and finally active range of
motion. A trained therapist is critical for accuracy of
movement, safety, and motivation. - Strengthening:This begins with isometric contrac-
tions within a range of motion that is comfortable for
the patient. Once this is established, theraband exer-
cises can begin. Finally isokinetic and isotonic
strengthening with a complete arc of motion complete
the program. Strengthening of the rotator cuff and
scapular stabilizers is critical. - Brace:Braces are used to limit the “at risk” position
for return to sports.- SSI brace: (Boston Brace International) Limits
motion and protects against blows. - The SAWA Shoulder Orthosis: Brace International
provides anterior support and ads a check rein. - The Duke–wire harness–Lace up corset
- The SSI brace was the most effective in limiting
anterior shoulder subluxation while the SAWA was
considered to be the most comfortable (DeCarlo et al,
1996).
- SSI brace: (Boston Brace International) Limits
OPERATIVE TREATMENT OPTIONS
- Recurrent traumatic anterior: Recurrence rates in
the young athletic population after nonoperative treat-
ment are unpredictable (65–95%). Surgical stabiliza-
tion should be considered in a young athlete who
desires return to sport. Arthroscopic surgery has the
advantage of creating less morbidity and allowing a
more detailed examination of the shoulder. Although
controversial acute stabilization arthroscopically in
the high demand patient has been very successful and
should be considered in the correct setting (Arciero
et al, 1994; Kirkley, Griffin, and Richards, 1999).
1.Arthroscopic results:Arthroscopic techniques
have evolved over the last 35 years. The literature is
replete with methods involving staples, transglenoid
sutures, cannulated implants, and suture anchors. In
the last 3–5 years arthroscopic techniques have
evolved to the level where they mimic the open tech-
nique. This involves plication of redundant inferior
capsule, reattachment of the anterior inferior labrum
directly to bone with suture anchors and closure of
the rotator interval. Recent reports place the recur-
rent dislocation event after surgery at 5 to 15%
(Bacilla, Field, and Savoie, 1997). In high demand
patients a recurrent subluxation event was 15%
(2/13 patients) with one requiring surgery
(Mazzocca et al, 2004).
2.Open results:Historically many procedures have
been described for glenohumeral instability. Many
of these did not repair the labral lesion and high
rates of instability were still found.
a.Magnuson-stack-muscle transposition of the
subscapularis
b.Putti-Platt-shortening of the subscapularis and
capsule
c. Bristow-transfer of the coracoid process
d. Weber-osteotomy of the proximal humerus
e. Meyer-Burgdorff-osteotomy of glenoid
f. Gallie-reconstruction with fascia lata
g. Nicola-biceps tendon through humeral head
h. Du Toit-staple repair of labrum
i. Bankart-suture repair of labrum- Bankart lesions (tears of the anterior inferior labrum)
were found in 84% of patients with continued insta-
bility after surgery. Stability was restored in 92% with
repair of labrum. Uncorrected capsular redundancy
was also a reason for failure in over 80% of patients
(Rowe, Zarins, and Ciullo, 1984).
3.Bone reconstruction:There are instances where
the anterior inferior glenoid has a large fracture or
is deficient secondary to impaction or chronic
instability. In these instances soft tissue procedures
are not adequate and bone graft may be required.
a.Glenoid deficiency: A 21% glenoid defect
caused instability and limited range of motion
after Bankart repair (Itoi et al, 2000). For large
defects two procedures exist:
1.Laterjet/Bristow: Coracoid bone graft
placed to the glenoid (Burkhart and De Beer,
2000).
2.Extracapsular iliac crest:Iliac crest auto-
graft placed extracapsular with 3.5 mm
screws 20/21 excellent results after chronic
instability (Churchill et al, 2001).
b.Hill sachs lesion:If the humeral head lesion is
large (greater than 33%) or engages the glenoid
in a functional range of motion then various
procedures can be considered (Burkhart and De
Beer, 2000).- Humeral head allograft
- Open capsular shift
266 SECTION 4 • MUSCULOSKELETAL PROBLEMS IN THE ATHLETE