Elbow
Supracondylar Fracture of Humerus
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Supracondylar Fracture of Humerus
, Humeral Supracondylar Fracture, Supracondylar Fracture at Elbow
See Also
Pediatric
Fracture
Lateral Condyle Fracture
Epidemiology
Most common elbow
Fractures in Children
Age of onset ranges between 2 and 12 years of age (peaks between 5 and 8 years of age)
Gender: Twice as common in boys
Definitions
Supracondylar Fracture of Humerus
Distal Humerus Fracture
above the epicondyles and above the physis
Pathophysiology
Supracondylar region of the
Humerus
is the weakest part of the elbow (
Humerus
flattens, and widens)
Mechanisms
Fall on an outstretched hand with extended elbow (most common)
Direct blow to
Posterior Elbow
(uncommon)
Exam
Vascular
Capillary Refill
Radial pulse and ulnar pulse
Pulse
may be absent despite warm, pink hand due to collateral circulation
Absent pulse is an indication for emergent surgical intervention
Skin
Open
Skin Wound
overlying
Fracture
(open
Fracture
)
Skin Tenting
Skin puckering
Seen with local subcutaneous
Hemorrhage
(e.g. brachialis
Muscle
penetrated by bone shard)
Palpation
Humeral Condyle tenderness
Decreased elbow range of motion
Neurologic
Median Nerve
function
Anterior interosseous branch injury is most common
Test with patient opposing thumb and index finger tips ("make OK sign")
Ulnar Nerve
function
Radial Nerve
function
Compartment Syndrome
Pain, Pallor,
Paresthesia
s,
Pulse
lessness and Poikilothermia (5 P's)
Distal finger passive range of motion is painful
Imaging
See
Elbow XRay
Obtain a true lateral
Elbow XRay
Elevated anterior fat pad ("
Sail Sign
") or visible posterior fat pad suggest
Fracture
Normal lateral xray will demonstrate an hour glass appearance to the distal
Humerus
Posterior fat pad sign
Always abnormal
May be only finding in a Type 1 supracondylar
Fracture
Anterior humeral line
Line drawn down the anterior
Humerus
should normally pass through middle third of capitellum
Displaced in Type 2 and Type 3
Fracture
s
Radiocapitellar Line
Line drawn down the mid proximal radius should bisect the capitellum
Cortical Disruption
See grading below (based on anterior and posterior cortical disruption)
Extension
Fracture
(most common)
Distal fragment displaced posteriorly
Grading
Type 1: Non-displaced or minimally displaced
Type 2: Distal anterior fragment displaced and intact posterior cortex
Type 3: Displaced and no contact between
Fracture
fragments (both anterior cortex and posterior cortex disrupted)
Management
Orthopedic referral in all cases
Emergent surgical intervention for neurovascular deficit
Urgent surgical reduction by orthopedic surgery
Type 1
Fracture
Splint initially
Long Arm Splint
or
Double Sugar-Tong Splint
with elbow in 80-90 degrees flexion
Cast
Longarm cast with
Forearm
in neutral rotation and elbow at 90 degrees
Cast for 3 weeks followed by XRay to demonstrate supracondylar callus
Active range of motion starts after three weeks of
Casting
Type 2
Fracture
Splint as above
Gentle flexion to 30-40 degrees is sufficient to avoid manipulating into a neurovascular injury
Urgent orthopedic referral to determine whether
Casting
will be sufficient
Open reduction and internal fixation in some cases
Type 3
Fracture
Splint as above for stability in gentle flexion (30-40 degrees) and emergent
Consultation
Open reduction and internal fixation in all cases
Complications
Type 3
Fracture
Malunion or poor healing
Secondary to severe displacement, incomplete reduction, or significant
Soft Tissue Injury
Gun stock deformity
Elbow
varus angulation and loss of full elbow extension
Compartment Syndrome
Nerve injury (transient
Neuropraxia
typically resolves in weeks after injury)
Volkmann's Ischemia with contracture
Due to local swelling and compounded by tight
Splinting
or cast
Avoid excessive compression when applying splint
Results in a combined median and
Ulnar Neuropathy
Flexion at the wrist and elbow, pronated
Forearm
, extended MCP joints
Claw Hand
and loss of grip strength at the index finger
Median Nerve
injury
Radial Nerve
injury
Anterior interosseus nerve injury
Motor function only: Thumb and index finger flexion
Vascular injury
Brachial artery injury (rare)
References
Eiff (2012)
Fracture
Management for Primary Care, Saunders, Philadelphia, p. 265-6
Wolfe and Santillanes (2021) Crit Dec Emerg Med 35(10): 12-3
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