Supracondylar humeral fractures are common in
children, but there are no classification systems or radiological parameters
that predict the likelihood of having to perform an open reduction.
In a retrospective case–control study we evaluated the use of the
medial spike angle and fracture tip–skin distance to predict the
mode of reduction (closed or open) and the operating time in fractures
with posterolateral displacement. A total of 21 patients (4.35%) with
a small medial spike angle (<
45°) were identified from a total
of 494 patients, and 42 patients with a medial spike angle of >
45° were randomly selected as controls. The medial spike group had
significantly smaller fracture tip–skin distances (p <
0.001),
longer operating times (p = 0.004) and more complications (p = 0.033)
than the control group. There was no significant difference in the
mode of reduction and a composite outcome measure. After adjustments
for age and gender, only fracture tip–skin distance remained significantly
associated with the operating time (β = -0.724, p = 0.042) and composite
outcome (OR 0.863 (95% confidence interval 0.746 to 0.998); p = 0.048). Paediatric orthopaedic surgeons should have a lower threshold
for open reduction when treating patients with a small medial spike
angle and a small fracture tip–skin distance. Cite this article:
Of 48 consecutive children with Gartland III
supracondylar fractures, 11 (23%) had evidence of vascular injury,
with an absent radial pulse. The hand was pink and warm in eight
and white and cold in the other three patients. They underwent colour-coded
duplex scanning (CCDS) and ultrasound velocimetry (UV) to investigate
the patency of the brachial artery and arterial blood flow. In seven
patients with a pink pulseless hand, CCDS showed a displaced, kinked
and spastic brachial artery and a thrombosis was present in the
other. In all cases UV showed reduced blood flow in the hand. In
three patients with a white pulseless hand, scanning demonstrated
a laceration in the brachial artery and/or thrombosis. In all cases,
the fracture was reduced under general anaesthesia and fixed with
Kirschner wires. Of the seven patients with a pink pulseless hand
without thrombosis, the radial pulse returned after reduction in
four cases. The remaining three underwent exploration, along with
the patients with laceration in the brachial artery and/or thrombosis. We believe that the traditional strategy of watchful waiting
in children in whom the radial pulse remains absent in spite of
good peripheral perfusion should be revisited. Vascular investigation
using these non-invasive techniques that are quick and reliable
is recommended in the management of these patients. Cite this article:
Cubitus varus is the most frequent complication
following the treatment of
The aim of this retrospective multicentre study was to report the continued occurrence of compartment syndrome secondary to paediatric supracondylar humeral fractures in the period 1995 to 2005. The inclusion criteria were children with a closed, low-energy supracondylar fracture with no associated fractures or vascular compromise, who subsequently developed compartment syndrome. There were 11 patients (seven girls and four boys) identified from eight hospitals in three countries. Ten patients with severe elbow swelling documented at presentation had a mean delay before surgery of 22 hours (6 to 64). One patient without severe swelling documented at presentation suffered arterial entrapment following reduction, with a subsequent compartment syndrome requiring fasciotomy 25 hours after the index procedure. This series is noteworthy, as all patients had low-energy injuries and presented with an intact radial pulse. Significant swelling at presentation and delay in fracture reduction may be important warning signs for the development of a compartment syndrome in children with supracondylar fractures of the humerus.
Between January 1995 and December 2000, 112 children with a closed displaced supracondylar fracture of the humerus without vascular deficit, were managed by elevated, straight-arm traction for a mean of 22 days. The final outcome was assessed using clinical (flexion-extension arc, carrying angle and residual rotational deformity) and radiographic (metaphyseal-diaphyseal angle and humerocapitellar angle) criteria. Excellent results were achieved in 71 (63%) patients, 33 (29%) had good results, 5 (4.4%) fair, and 3 (2.6%) poor. All patients with fair or poor outcomes were older than ten years of age. Elevated, straight-arm traction is safe and effective in children younger than ten years. It can be effectively used in an environment that can provide ordinary paediatric medical care and general orthopaedic expertise. The outcomes compare with supracondylar fractures treated surgically in specialist centres.