- 1. Dr. D. N. BidMPT, PGDSPTSenior LecturerSarvajanik College of
Physiotherapy, Surat
2. Of the large joints, the shoulder is the onethat most
commonly dislocates. This is due to a number of factors: the
shallowness of the glenoid socket; the extraordinary range of
movement; underlying conditions such as ligamentous laxity or
glenoid dysplasia; and the sheer vulnerability of the joint during
stressful activities of the upper limb. Here, acute anterior and
posterior dislocations are described. 3. Dislocation is usually
caused by a fall on the hand. The head of the humerus is driven
forward, tearing thecapsule and producing avulsion of the glenoid
labrum(the Bankart lesion). Occasionally the posterolateral part of
the head iscrushed. Rarely, the acromion process levers the
headdownwards and the joint dislocates with the armpointing upwards
(luxatio erecta); nearly always thearm then drops, bringing the
head to its subcoracoidposition. 4. Pain is severe. The patient
supports the arm with the oppositehand and is loathe to permit any
kind ofexamination. The lateral outline of the shoulder may be
attenedand, if the patient is not too muscular, a bulge maybe felt
just below the clavicle. The arm must always be examined for nerve
andvessel injury before reduction is attempted. 5. The
anteroposterior x-ray will show the overlapping shadows of the
humeral head and glenoid fossa, with the head usually lying below
and medial to the socket. 6. A lateral view aimed along the blade
of thescapula will show the humeral head out ofline with the
socket. Ifthe joint has dislocated before, specialviews may show
attening or an excavation ofthe posterolateral contour of the
humeralhead, where it has been indented by theanterior edge of the
glenoid socket, the HillSachs lesion. 7. Various methods of
reduction have beendescribed, some of them now of no more
thanhistorical interest. In a patient who has had previous
dislocations,simple traction on the arm may be successful. Usually,
sedation and occasionally generalanaesthesia is required. With
Stimsons technique, the patient is left pronewith the arm hanging
over the side of the bed. After 15 or 20 minutes the shoulder may
reduce. 8. Inthe Hippocratic method, gently increasing traction is
applied to the arm with the shoulder in slight abduction, while an
assistant applies rm counter-traction to the body (a towel slung
around the patients chest, under the axilla, is helpful). 9.
WithKochers method, the elbow is bent to 90 and held close to the
body; no traction should be applied. Thearm is slowly rotated 75
degrees laterally, then the point of the elbow is lifted forwards,
and nally the arm is rotated medially. This technique carries the
risk of nerve, vessel and bone injury and is not recommended. 10.
Another technique has the patient sitting on a reduction chair and
with gentle traction of the arm over the back of the padded chair
the dislocation is reduced. 11. Anx-ray is taken to conrm reduction
and exclude a fracture. When the patient is fully awake, active
abduction is gently tested to exclude an axillary nerve injury and
rotator cuff tear. Themedian, radial, ulnar and musculocutaneous
nerves are also tested and the pulse is felt. 12. Thearm is rested
in a sling for about three weeks in those under 30 years of age
(who are most prone to recurrence) and for only a week in those
over 30 (who are most prone to stiffness). Thenmovements are begun,
but combined abduction and lateral rotation must be avoided for at
least 3 weeks. this period, elbow and nger Throughout movements are
practised every day. 13. Therehas been some interest in the use of
external rotation splints, based on the theory that this would
reduce the Bankart lesion into a better position for healing.
Howevera recent Cochrane review has concluded that there is
insufcient evidence to inform on the choices for conservative
treatment and that further trials are needed to compare different
types and duration of immobilization. 14. Young athletes who
dislocate their shouldertraumatically and who continue to pursue
theirsports (particularly contact sports) are at a muchhigher risk
of re-dislocation in the future. With increasing advances and
techniques ofarthroscopy and arthroscopic anterior
stabilizationsurgery, some are now advocating early surgery inthis
group of patients to repair the Bankart lesion ofthe anterior
labrum. However a consensus on early surgery has still notbeen
reached. 15. EARLY COMPLICATIONS Rotator cuff tear: This commonly
accompanies anterior dislocation, particularly in older people. The
patient may have difculty abducting the arm after reduction;
palpable contraction of the deltoid muscle excludes an axillary
nerve palsy. Most do not require surgical attention, but young
active individuals with large tears will benet from early repair.
16. Nerve injury: The axillary nerve is most commonly injured;
thepatient is unable to contract the deltoid muscle andthere may be
a small patch of anaesthesia over themuscle. The inability to
abduct must be distinguished from arotator cuff tear. The nerve
lesion is usually a neuropraxia whichrecovers spontaneously after a
few weeks; if it doesnot, then surgery should be considered as the
resultsof repair are less satisfactory if the delay is more thana
few months. 17. Occasionally the radial nerve, musculocutaneous
nerve, median nerve or ulnar nerve can be injured. Rarely there is
a complete infra-clavicular brachial plexus palsy. This is somewhat
alarming, but fortunately it usually recovers with time. 18.
Vascularinjury: The axillary artery may be damaged, particularly in
old patients with fragile vessels. This can occur either at the
time of injury or during overzealous reduction. The limb should
always be examined for signs of ischaemia both before and after
reduction. 19. Fracture-dislocation If there is an associated
fracture of the proximal humerus,open reduction and internal xation
may be necessary. The greater tuberosity may be sheared off
duringdislocation. It usually falls into place during reduction,
and no specialtreatment is then required. If it remains displaced,
surgical reattachment isrecommended to avoid later subacromial
impingement. 20. LATE COMPLICATIONS Shoulder stiffness Prolonged
immobilization may lead to stiffness of the shoulder, especially in
patients over the age of 40. There is loss of lateral rotation,
which automatically limits abduction. Active exercises will usually
loosen the joint. They are practised vigorously, bearing in mind
that full abduction is not possible until lateral rotation has been
regained. Manipulation under anaesthesia or arthroscopic capsular
release is advised only if progress has halted and at least 6
months have elapsed since injury. 21. Unreduceddislocation
Surprisingly, a dislocation of the shoulder sometimesremains
undiagnosed. This is more likely if the patient is either
unconsciousor very old. Closed reduction is worth attempting up to
6 weeksafter injury; manipulation later may fracture the boneor
tear vessels or nerves. Operative reduction is indicated after 6
weeks only inthe young, because it is difcult, dangerous
andfollowed by prolonged stiffness. 22. An anterior approach is
used, and the vessels and nerves are carefully identied before the
dislocation is reduced. Active neglect summarizes the treatment of
unreduced dislocation in the elderly. The dislocation is
disregarded and gentle active movements are encouraged. Moderately
good function is often regained. 23. Recurrent dislocation If an
anterior dislocation tears the shouldercapsule, repair occurs
spontaneously followingreduction and the dislocation may not recur;
but if the glenoid labrum is detached, or thecapsule is stripped
off the front of the neck of theglenoid, repair is less likely and
recurrence ismore common. Detachment of the labrum occurs
particularly inyoung patients, and, if at injury a bony defect has
been gouged out ofthe posterolateral aspect of the humeral
head,recurrence is even more likely. 24. In older patients,
especially if there is a rotator cuff tear or greater tuberosity
fracture, recurrent dislocation is unlikely. The period of
post-operative immobilization makes no difference. 25. The history
is diagnostic. The patient complains that the shoulder dislocates
with relatively trivial everyday actions. Often he can reduce the
dislocation himself. Any doubt as to diagnosis is quickly resolved
by the apprehension test: if the patients arm is passively placed
behind the coronal plane in a position of abduction and lateral
rotation, his immediate resistance and apprehension are
pathognomonic. 26. An anteroposterior x-ray with the shoulder
medially rotated may show an indentation in the back of the humeral
head (the HillSachs lesion). Even more common, but less readily
diagnosed, is recurrent subluxation. 27. Posteriordislocation is
rare, accounting for less than 2% of all dislocations around the
shoulder. 28. Indirectforce producing marked internal rotation and
adduction needs be very severe to cause a dislocation. happens most
commonly during a t or This convulsion, or with an electric shock.
Posterior dislocation can also follow a fall on to the exed,
adducted arm, a direct blow to the front of the shoulder or a fall
on the outstretched hand. 29. The diagnosis is frequently missed
partly because reliance is placed on a single anteroposterior x-ray
(which may look almost normal) and partly because those attending
to the patient fail to think of it. There are, in fact, several
well-marked clinical features. 30. Thearm is held in internal
rotation and is locked in that position. Thefront of the shoulder
looks at with a prominent coracoid, but swelling may obscure this
deformity; seen from above, however, the posterior displacement is
usually apparent. 31. Inthe anteroposterior lm the humeral head,
because it is medially rotated, looks abnormal in shape (like an
electric light bulb) and it stands away somewhat from the glenoid
fossa (the empty glenoid sign).A lateral lm and axillary view is
essential; it shows posterior subluxation or dislocation and
sometimes a deep indentation on the anterior aspect of the humeral
head. 32. Posteriordislocation issometimes complicated by fractures
of the humeral neck, posterior glenoid rim or lesser tuberosity.
Sometimesthe patient is too uncomfortable to permit adequate
imaging and in these difcult cases CT is essential to rule out
posterior dislocation of the shoulder. 33. The acute dislocation is
reduced (usually under general anaesthesia) by pulling on the arm
with the shoulder in adduction;a few minutes are allowed for the
head of the humerus to disengage and the arm is then gently rotated
laterally while the humeral head is pushed forwards. 34.
Ifreduction feels stable the arm isimmobilized in a sling;
otherwisethe shoulder is held widelyabducted and laterally rotated
in anairplane type splint for 36 weeks to allowthe posterior
capsule to heal in theshortest position. Shoulder movement
isregained by active exercises. 35. Unreduced dislocation At least
half the patients with posterior dislocation haveunreduced lesions
when rst seen. Sometimes weeks or months elapse before thediagnosis
is made and up to two thirds of posteriordislocations are not
recognised initially. Typically the patient holds the arm
internally rotated;he cannot abduct the arm more than 7080
degrees,and if he lifts the extended arm forwards he cannotthen
turn the palm upwards. 36. If the patient is young, or is
uncomfortable and thedislocation fairly recent, open reduction
isindicated. This is a difcult procedure. It is generally done
through a deltopectoralapproach; the shoulder is reduced and the
defect in thehumeral head can then be treated by transferringthe
sub-scapularis tendon into the defect(McLaughlin procedure). 37.
Alternatively, the defect on the humeral head canbe bone grafted. A
useful technique for treating a defect smallerthan 40 per cent of
the humeral head is to transferof the lesser tuberosity together
with thesubscapularis into the defect. For defects larger than this
a hemiarthroplasty maybe considered. Late dislocations, especially
in the elderly, are bestleft, but movement is encouraged. 38.
Recurrent dislocation or subluxation 39. Inferior dislocation is
rare but it demands early recognition because the consequences are
potentially very serious. Dislocationoccurs with the arm in nearly
full abduction/elevation. Thehumeral head is levered out of its
socket and pokes into the axilla; the arm remains xed in abduction.
40. Theinjury is caused by a severe hyper- abduction force. Withthe
humerus as the lever and the acromion as the fulcrum, the humeral
head is lifted across the inferior rim of the glenoid socket; it
remains in the subglenoid position, with the humeral shaft pointing
upwards. 41. Soft-tissueinjury may be severe and includes avulsion
of the capsule and sur- rounding tendons, rupture of muscles,
fractures of the glenoid or proximal humerus and damage to the
brachial plexus and axillary artery. 42. Thestartling picture of a
patient with his arm locked in almost full abduction should make
diagnosis quite easy. Thehead of the humerus may be felt in or
below the axilla. Always examine for neurovascular damage. 43. The
humeral shaft is shown in the abductedposition with the head
sitting below the glenoid. It is important to search for associated
fractures ofthe glenoid or proximal humerus. NOTE: True inferior
dislocation must not be confused withpostural downward displacement
of the humerus, whichresults quite commonly from weakness and
laxity of themuscles around the shoulder, especially after trauma
andshoulder splintage; here the shaft of the humerus lies in
thenormal anatomical position at the side of the chest. The
condition is harmless and resolves as muscle tone isregained. 44.
Inferior dislocation can usually be reduced by pullingupwards in
the line of the abducted arm, with counter-traction downwards over
the top of the shoulder. If the humeral head is stuck in the soft
tissues, openreduction is needed. It is important to examine
again,after reduction, for evidence of neurovascular injury. The
arm is rested in a sling until pain subsides andmovement is then
allowed, but avoiding abduction for 3weeks to allow the soft
tissues to heal. 45. Traumatic dislocation of the shoulder
isexceedingly rare in children. Children who give a history of the
shoulderslipping out almost invariably have eithervoluntary or
involuntary (atraumatic) dislocation orsubluxation. With voluntary
dislocation, the child candemonstrate the instability at will. With
involuntary dislocation, the shoulder slips outunexpectedly during
everyday activities. 46. Mostof these children have generalized
joint laxity and some have glenoid dysplasia or muscle patterning
disorders. Examination may show that the shoulder subluxates in
almost any direction; x-rays may conrm the diagnosis. 47.
Atraumatic dislocation should be viewed with greatcaution. Some of
these children have behavioural ormuscle patterning problems and
this is wheretreat-ment should be directed. A prolonged exercise
programme may also help. Only if the child is genuinely distressed
by thedisorder, and provided psychological factors havebeen
excluded, should one consider reconstructivesurgery.
