Trauma Clinical Trial
The treatment of pediatric supracondylar humerus fractures is controversial, but despite the injury's high incidence there is a lack of high level evidence to guide operative versus non-operative decision making for displaced fractures with an intact posterior cortex (Gartland Type II). This study aims to prospectively compare clinical, functional, and radiographic outcomes between operatively and non-operatively treated patients using a prospective multi-centre cohort design.
Purpose:
The purpose of this prospective multi-center observational study is to compare the clinical,
functional, and radiographic parameters and outcomes between operatively and non-operatively
treated Type II supracondylar humerus fractures in skeletally immature patients. The
secondary aim of the study is to develop and deploy an effective pediatric orthopaedic elbow
trauma database as part of the Canadian Pediatric Orthopaedic Group (CPOG) that can be used
to prospectively collect multi-center anonymized patient data and functional outcomes.
Hypothesis:
We hypothesize that non-operative treatment will be non-inferior to operative treatment.
Justification:
The extension-type pediatric supracondylar humerus fracture is the most common fracture
about the elbow in the skeletally immature population and among the most common fractures
requiring operative intervention in children (Carson 2006, Abzug 2012). Despite being the
subject of extensive study, there are few prospective studies and none that look
specifically at the Gartland Type II extension-type fracture and that compare operative and
non-operative treatment protocols (AAOS CPG 2011). The current evidence for the treatment of
these fracture sub-types is low, but clinical opinions regarding treatment method are
strong. This has led to a clinical practice vs. evidence mismatch.
The existing level of evidence does not support the strong clinical opinions on the
treatment of this fracture pattern, and given its significant prevalence this is an area
that requires objective prospective study. A finding of a significant clinical effect
difference would guide future treatment of this common entity, while a finding of clinical
equipoise could allow for the development of a well designed and focused prospective
randomized controlled trial.
Research Methods:
The study is designed as a multi-center, observational, cohort protocol with an initial
focus on the comparison of outcomes between several Canadian pediatric academic centers with
contrasting (operative and non-operative) general approaches to the management of isolated
closed extension-type Gartland Type II supracondylar humerus fractures.
Patients treated within the non-operative group will be treated with gentle reduction by the
orthopaedic surgery team in the emergency department under procedural sedation.
Immobilization and maintenance of reduction will be obtained through either taping of the
elbow in a flexed (100-110 degree) and pronated position or through long-arm casting at 90
degrees of flexion. Immobilization type and position will be noted. Patients treated
surgically will be largely treated with closed reduction and percutaneous pinning with 2-3
laterally-based k-wires, followed by long-arm immobilization. Continued care and follow-up
practices will be the same across treatment groups, as outlined below under "Study Visits".
The null hypothesis is that non-operative treatment of Type II supracondylar humerus
fractures is inferior to closed reduction and percutaneous pinning.
Evaluation of Outcomes and Variables:
Demographics such as age, sex, handedness, and mechanism of injury will be recorded.
Radiographic parameters measured will include stratification into Type IIA vs IIB fractures,
and angular deformity and displacement through the lateral humeral capitellar angle (LHCA)
and Baumann's angle. These will be captured at each clinical visit, including pre- and
post-reduction. On the lateral radiograph, the LHCA is measured as the angle between the
anterior humeral line and a line perpendicular to the capitellar physis (ie. a line through
the long axis of the capitellar ossific nucleus). A lateral humeral capitellar angle less
than 20 degrees or a change of greater than 10 degrees over time will be considered
significant. A Baumann's angle outside the accepted norm of 9-26 degrees, or a change over
time of greater than 6 degrees will be considered significant. In addition, the
pre-reduction and post-reduction Gordon index (a radiographic measure of lateral rotation
through the fracture site on the lateral radiograph) will be measured, as will the Griffet
index which expands upon the same concept using also the AP radiograph (Griffet 2004).
De-identified radiographs will also be uploaded where techinically feasible to the central
database, where radiographic parameters can be re-assessed by a blinded third party.
Clinical outcomes will be judged based on healing, return to activities, and range of
motion. Any complications encountered will be recorded. Functional outcomes will be judged
via the Flynn criteria for both functional and cosmetic outcome (Flynn 1974, Cheng 1995).
The PODCI upper extremity score (Daltroy 1998) and the QuickDASH (Kennedy 2011) will also be
used.
Primary Outcome: Change in Lateral Humerocapitellar Angle (LHCA) Change in the LHCA over the
period of immobilization is the primary outcome being measured in this study, and will be
measured on all radiographs. Maintenance of fracture reduction is assessed by the change in
the LHCA between these two radiographs. This angle primarily assesses the reduction in the
sagittal plane and thus is most sensitive to flexion and extension. The normal LHCA is
considered to be 30 degrees of anterior angulation. It has been shown that with changes of
less than 10 degrees, good elbow function can still be expected. Using a single measurement
of the LHCA at the completion of treatment would fail to account for the quality of the
initial reduction but using a change in the LHCA controls for this additional variability.
Also, using clinical measures would require waiting until maximum range of motion of the
elbow is regained and this would introduce the variability associated with remodeling and
rehabilitation and would not accurately reflect the efficacy of the immobilization method
itself. Although a standardized method for obtaining the lateral radiograph will be employed
in all study patients, it has been noted that the LHCA can vary significantly if there is
humeral rotation on the radiograph. For this reason, the quality of the radiograph will also
be recorded after assessing the superimposition of the posterior supracondylar ridges.
Perfect superimposition of the supracondylar ridges indicates a true lateral of the distal
humerus.
Secondary Endpoints: Baumann's Angle, Flynn's Elbow Score, Conversion to Operative
treatment, Revision Operation, Complications Baumann's angle is that formed between the
physeal line of the lateral condyle and a line perpendicular to the long axis of the humerus
as seen on anteroposterior radiographs of the elbow. Change in the angle over time will be
measured. This angle can be used to detect varus angulation of the distal part of the
humerus. A normal angle is in the range of 9° to 26°. The Baumann angle has been shown to
vary 6° for every 10° of humeral rotation on the anteroposterior radiograph. Thus a
difference of 6° between the post-reduction and final Baumann angles has been empirically
chosen to represent a meaningful change. This allows for minor variations in arm positioning
during the radiographic evaluation as well as measurement variability.
Flynn's elbow score accounts for both elbow function and cosmesis. Elbow function is
measured in degrees of lost flexion and/or extension compared to the opposite elbow. Elbow
cosmesis is measured by the change in carrying angle compared to the opposite elbow. These
are rated as excellent (0-5°), good (6-10°), fair (11-15°) and poor (>15°). Overall results
are determined by the worst grade in functional and cosmetic ratings.
Patients requiring operative intervention after failing non-operative treatment, as well as
those requiring revision operation, will have such results and their clinical contexts
recorded. Complications, both objectively observed by the clinical team as well as those
subjectively experienced by patients and families will likewise be assessed and recorded.
Statistical Analysis:
It is estimated based on a power analysis and sample size calculation assessing for
non-inferiority of non-operative management that a minimum total of 36 (18 patients in each
cohort) patients will be needed for this study. This sample size is based on a one-tailed
t-test for independent means, with α=0.05, β=0.1 (power of 0.90). A significant difference
is considered to be within 6 degrees of change in the LHCA (Lateral Humeral Capitellar
Angle) between the operative and non-operative groups, as differences of 5 degrees or less
on elbow radiographs are considered to be within measurement error. The measurement error is
expected to be the same in both groups. Estimations of means and standard deviations of LHCA
were based on recent local research (Roberts 2014) . Using an online institutional power and
sample size calculator (Brant 2014) which is based on standard two-sample inference
estimation of sample size and power for comparing two means, the investigators developed a
table with various iterations of possible calculations. Erring on the conservative, the
investigators have chosen to accept a sample size of 18 patients in each group.
Baseline demographics and characteristics will be summarized using standard summary
statistics. Continuous variables will be expressed in terms of means and standard
deviations, and categorical variables will be summarized in terms of frequency and
percentages. A one-sided student's t-test will be used for comparison between primary
outcomes of the study cohorts, for non-inferiority. All statistical tests will be performed
at an α-level of 0.05. Multi-variate regression analyses will be performed to assess for
other variables affecting outcomes. Sub-group analyses will be undertaken to assess for
within group differences.
Based on our power analysis and sample size calculations, and a conservative projected drop
out rate of 20%, the investigators conclude that a minimum of 23 patients per treatment
group (18 subjects divided by 0.8 to account for projected drop out) need to be recruited to
effectively prove non-inferiority. That said, given that the investigators plan to also
pursue as secondary measures multi-variate analyses and sub-group analyses, the plan is to
improve our likelihood of obtaining significance by aiming for a minimum recruitment of 30
patients per cohort, for a total minimum number of patients of 60.
By using a multi-centre methodology, the investigators hope to be able to not only meet but
also significantly exceed our minimum recruitment requirements. This should serve the dual
purpose of adding variability in care environments and providers and therefore improve
generalizability of results, as well as strengthen our statistical significance particularly
with our secondary outcomes.
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