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Summary

These notes detail upper extremity trauma, covering various fractures and dislocations such as clavicle, shoulder, humerus, elbow, forearm, and distal radius fractures. The document discusses epidemiology, pathophysiology, presentations, clinical evaluation, radiographic exams, and treatment options for each type of injury. Important nerves and vessels related to each injury are highlighted.

Full Transcript

Upper Extremity Trauma

NEAR EAST UNIVERSITY HOSPITAL
ORTHOPAEDICS AND TRAUMATOLOGY DPT.
Dr. Enes SARI
 Topics
Clavicle Fractures

Shoulder Dislocations

Humerus Fractures

Elbow Fracture and Dislocations

Forearm Fractures

Distal Radius Fractures

2
Normal Upper Extremity X-Ray

3
Clavicle Fractures

4
 Clavicle Fractures
Epidemiology
– incidence
clavicle fractures make up ~4% of all fractures
– demographics
often seen in young active patients
trimodal distribution

Pathophysiology
– mechanism
direct blow to lateral aspect of shoulder
t
lasfall
he
t r to
on an outstretched arm or direct trauma
is
icle nte ) at
c lav ion ce l end
Th e ificAssociated
at terna injuries
yo.
o lete (s 22-25
s s
p –ut are rare but include
com abo
ipsilateral scapular fracture
scapulothoracic dissociation
should be considered with significantly
displaced fractures
rib fracture
pneumothorax
neurovascular injury
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 Clavicle Fractures
Presentation
– shoulder pain
– tenting of skin

Clinical Evaluation
– inspect for deformity
– palpate for abnormal motion
– perform carefull neurovascular
exam
– auscultate the chest for the
possibility of lung injury or
pneumothorax

Radiographic Exam
– AP chest radiographs
– clavicular 45deg A/P oblique X-
rays
– traction pictures may be used
as well
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Clavicle Fractures

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 Clavicle Fracture
Closed Treatment
– sling immobilization with gentle ROM exercises at 2-4 weeks
and strengthening at 6-10 weeks

Operative Intervention
– unstable Group II fractures (Type IIA, Type IIB, Type V)
– open fxs
– displaced fracture with skin tenting
– subclavian artery or vein injury
– floating shoulder (clavicle and scapula neck fx)
– symptomatic nonunion
– posteriorly displaced Group III fxs
– displaced Group I (middle third) with >2cm shortening

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Clavicle Fracture

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Clavicle Fracture

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Shoulder Dislocations

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 Shoulder Dislocations
Epidemiology
– Anterior: Most common

– Posterior:
uncommon, 10%
think electrocutions & seizures

– Inferior (Luxatio Erecta):
rare
hyperabduction injury

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 Shoulder Dislocations
Clinical Evaluation
– Examine axillary nerve
deltoid function (not the sensation over lateral shoulder!)
– Examine MC nerve
biceps function and anterolateral forearm sensation

Radiographic Evaluation
– true AP shoulder
– axillary lateral
– scapular Y
– stryker notch view
13
?

14
?

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 Shoulder Dislocations
Anterior dislocation recurrence
rate
– Age 20: 80-92%
– Age 30: 60%
– > Age 40: 10-15%

Look for concomitant injuries
– Bony:
Bankart lesion, Hill-Sachs lesion,
glenoid fracture, greater tuberosity
fracture
– Soft Tissue:
subscapularis tear, RCT (older pts
with dislocation)
– Vascular:
axillary artery injury (older pts with
atherosclerosis)
– Nerve:
axillary nerve neuropraxia 16
 Shoulder Dislocations

Anterior dislocation
– Traumatic

– Atraumatic
(Congenital Laxity)

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 MATSEN Classification
(Recurrent dislocation)

TUBS AMBRI
– Traumatic – Atraumatic
– Unidirectional – Multidirectional
– Bankart – Bilateral
– Surgery – Rehab
– Inferior capsular shift

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 Shoulder Dislocations
Posterior dislocation
– ADD+FLEX+IR at time of injury

– electrocution and seizures
cause overpull of subscapularis and latissimus dorsi

– look for
lightbulb sign
– humeral head IR
rim sign
– anterior glenoid-medial humeral head >6mm
Mouzopoulos sign
– ‘M’ for greater and lesser tuberosity

– reduce with traction and gentle anterior translation
avoid ER arm  Fx

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 Shoulder Dislocations
Inferior dislocations
(Luxatio Erecta)
– hyperabduction injury

– arm presents in a flexed ‘asking a
question’ posture

– high rate of nerve and vascular injury

– reduce with in-line traction and
gentle adduction

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 Shoulder Dislocation
Treatment

– Nonoperative treatment
Closed reduction should be performed after
adequate clinical evaluation and
appropriate sedation

Reduction Techniques:
– Traction/countertraction - Generally used
with a sheet wrapped around the patient and
one wrapped around the reducer.

– Hippocratic technique - Effective for one
person. One foot placed across the axillary
folds and onto the chest wall then using gentle
internal and external rotation with axial
traction

– Stimson technique - Patient placed prone with
the affected extremity allowed to hang free.
Gentle traction may be used

– Milch technique - Arm is abducted and
externally rotated with thumb pressure applied
to the humeral head

– Scapular manipulation

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 Shoulder Dislocation
Treatment

– Nonoperative treatment
Reduction Techniques:
– CHAIR METHOD

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Shoulder Dislocation

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 Shoulder Dislocations
Postreduction
– post-reduction films are a MUST to confirm the position of
the humeral head
– pain control
– immobilization for 7-10 days then begin progressive ROM

Operative Indications
– irreducible shoulder (soft tissue interposition)
– displaced greater tuberosity fractures
– glenoid rim fractures bigger than 5 mm
– elective repair for younger patients

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Proximal Humerus Fractures

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 Proximal Humerus Fractures
Epidemiology
– the most common fracture of the
humerus
– higher incidence in the elderly
(osteoporosis)
– more common in female gender (2x)

Mechanism of Injury
– most commonly a fall onto an
outstretched arm from standing height
(FOOSH injury)
– younger patient typically present after
high energy trauma such as MVA

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 Proximal Humerus Fractures
Clinical Evaluation
– patients typically present with arm
held close to chest by contralateral
hand

– pain and crepitus detected on
palpation

– careful NV exam is essential,
particularly with regards to the
axillary nerve
test sensation over the deltoid
deltoid atony does not clearly confirm
an axillary nerve injury 27
 Proximal Humerus Fractures
Neer Classification

– 4 parts
greater and lesser
tuberosities,
humeral shaft
humeral head

– a part is displaced if
>1 cm displacement or
>45 degrees of angulation
is seen
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 Proximal Humerus Fractures
Treatment
– minimally displaced fractures
sling immobilization, early motion
– 2-part fractures
anatomic neck fractures likely require
ORIF
– high incidence of osteonecrosis
surgical neck fractures that are
minimally displaced can be treated
conservatively
– displacement usually requires ORIF
– 3-part fractures
Due to disruption of opposing muscle
forces, these are unstable
– so closed treatment is difficult, displacement
requires ORIF
The lateral ascending branch
– 4-part fractures
in general for displacement or unstable of the anterior circumflex
injuries humeral artery carries the most
– ORIF in the young and hemiarthroplasty in the
elderly and those with severe comminution important blood supply of the
– high rate of AVN (13-34%) humeral head and damage may
lead to avascular necrosis 29
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Humeral Shaft Fractures

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 Humeral Shaft Fractures
Mechanism of Injury
– direct trauma
is the most common, especially MVA
– indirect trauma
such as fall on an outstretched hand

– fracture pattern depends on stress
applied
compressive- proximal or distal humerus
bending- transverse fracture of the shaft
torsional- spiral fracture of the shaft
torsion and bending- oblique fracture
usually associated with a butterfly
fragment

36
 Humeral Shaft Fractures
Clinical evaluation
– history and physical
examination

– patients typically present
with pain, swelling, and
deformity of the upper arm

– careful NV exam important as
the radial nerve is in close HOLSTEIN-
proximity to the humerus and LEVIS
can be injured
FRACTURE !! 37
 Humeral Shaft Fractures
Conservative Treatment
– goal of treatment is to establish
union with acceptable
alignment

– >90% of humeral shaft fractures
heal with nonsurgical
management
20 deg anterior angulation
30 deg varus