Strabismus Clinical Trial
Official title:
Symmetrical Versus Asymmetrical Inferior Oblique Muscle Weakening Surgery for Asymmetrical Inferior Oblique Overaction
Overaction of the inferior oblique (IO) muscle is a commonly observed component of childhood
strabismus, and is often seen combined with other ocular deviations. It manifests with
excessive elevation of the affected eye in adduction, and may cause a pattern strabismus and
vertical deviation of the affected eye. IO overaction (IOOA) may be primary or secondary to
superior oblique underaction, is often bilateral, and may be symmetrical or asymmetrical.
Surgical management of the overacting IO muscle is often required to achieve ocular
alignment. The most commonly performed IO muscle weakening procedures are IO myectomy and
graded IO recession. The surgical decision is primarily based on degree of overaction of the
IO muscle. Various studies have compared the two IO weakening procedures and have reported a
similar success rate for both procedures.
The aim of this study is to compare the effect of two IO weakening procedures (symmetrical vs
asymmetrical myectomy or graded recession) in normalizing the IOOA, obtaining vertical
alignment and collapse of pattern, when employed in the treatment of asymmetrical IOOA.
1. Background (Introduction):
An excessive elevation of the eyeball on adduction, both on horizontal movement and in
upgaze, is often due to inferior oblique over action (IOOA). It is a common disorder of
ocular motility, and is usually bilateral and asymmetrical. The asymmetry may be due to
difference in time of onset or difference in degree of severity of the IO overaction in
the two eyes.
IOOA may be primary and of unknown etiology, or secondary to a congenital superior
oblique palsy. Primary IOOA is commonly associated with congenital esotropia, with the
oblique overaction usually presenting after one year of age. In addition to congenital
esotropia, primary IO overaction may be associated with exotropia or may occur as an
isolated IO overaction without other strabismus.
IOOA can be isolated or combined with other types of deviations. Primary IOOA has been
reported to develop between one to six years of age in up to two-thirds of patients with
infantile esotropia, and is usually bilateral. The cause is unknown. IOOA may be seen in
70% of patients with esotropia and in 30% of patients with exotropia. Secondary IOOA is
often unilateral and is caused by paresis or paralysis of the superior oblique muscle.
Depending on severity, IOOA is graded as: (+1) to (+4) overaction. A (+1) overaction
indicates slight over elevation in adduction, and (+4) overaction indicates severe over
elevation in adduction. It has been suggested that (+1), (+2), (+3) and (+4) overactions
roughly translate to 5, 10, 15 and 20 prism diopter (PD) of hypertropia on side gaze.
Clinically, in addition to the excessive elevation of the eye ball on adduction, IOOA
may be associated with "V" pattern of strabismus and vertical deviation in primary
position. A "V" pattern is relative divergence on the up gaze and convergence on down
gaze. When the eyes converge more than 15 PD from upgaze to downgaze, the "V" pattern is
said to be significant. With the eyes in the lateral gaze to the opposite side,
alternate cover testing shows that the higher eye refixates with a downward movement and
that the lower eye does so with an upward movement.
Although patients with IOOA present with an excessively elevated eye in adduction, there
is little vertical deviation in the primary position, when the condition is bilateral
and symmetrical. In contrast, unilateral IOOA or bilateral and asymmetrical IOOA is
associated with a significant vertical deviation in the primary position.
All patients with strabismus undergo full ocular and orthoptic examinations. The angle
of strabismus is measured by prisms and alternate cover test for distant and near in
primary position of gaze. In distance fixation, the strabismus angle is also measured in
secondary positions of gaze to detect presence of pattern deviation or incomitance.
Surgery to weaken the IO muscle is indicated when the muscle is overacting and is
associated with a significant "V" pattern or vertical deviation.
There are various surgical techniques for weakening an overacting IO muscle. Most
commonly used techniques these days are IO myectomy, graded recession and
anteriorization. Normalization of the IOOA, vertical ocular alignment within + 5 PD of
orthotropia and collapse of pattern are considered ideal outcomes for the surgery.
There are many studies comparing IO myectomy and IO recession and all have concluded
that they have a similar success rate. However, no study has been conducted to evaluate
the effectivity of symmetrical weakening procedures (bilateral myectomy or bilateral
equal graded recession) vs asymmetrical procedures (myectomy - recession / bilateral
recession of different amounts) in achieving ocular alignment in patients with
asymmetrical IOOA. The effect of presence of superior oblique underaction preoperative
vertical deviation on the outcome of the surgery has also not been studied to date.
2. Aim of the study :
To compare the effect of symmetrical vs asymmetrical Inferior oblique (IO) weakening
procedures when employed in the treatment of asymmetrical Inferior oblique over action
(IOOA) in :
Primary objective:
Normalizing IO action
Secondary objectives:
Correcting vertical deviation and "V" pattern
3. Material and Methods:
A randomized, interventional clinical trial. All Patients with asymmetrical IOOA,
requiring surgical correction (IO weakening procedure) from July 2017 to June 2020 will
be prospectively recruited. Prior to surgery all patients will undergo full
comprehensive ocular examination, standard orthoptic evaluation and cycloplegic
refraction. Minimum of two investigators will assess the preoperative angles of
strabismus in a standard manner for each patient. Standard 9-gaze photos will be taken
for each patient.
Standardized surgical procedure will be followed in all patients according to the grade
of IOOA, extent of the "V" pattern and the degree of vertical deviation in primary
position. Only patients with a minimal period of 3 months of follow up will be selected
for analysis.
4. Randomization:
Patients will be randomly allocated to symmetrical or asymmetrical surgery using
permuted block randomization of sizes 2, 4 or 6 (SAS 9.1.3).
If symmetrical surgery is planned, then surgical plan for more severe IOOA will be
considered for both eyes.
5. Sample size:
The study is designed to show that symmetrical surgery is non inferior to asymmetrical
surgery. Sample size was estimated considering a study power of 0.8 with an alpha error
of 0.05, aiming to detect a difference of 5 PD in the angle of strabismus between the
two groups and a postoperative standard deviation (SD) of 5.3. Based on this estimation,
a total of 14 patients was found to be adequate in each group.
6. Statistical analysis:
The baseline quantitative variables will be expressed using mean with SD across the two
groups if the distribution of the variables are symmetric. If not, then median with
interquartile range will be presented across the groups. The baseline categorical variables
will be presented using frequencies and percentages across the groups.
Primary outcomes: The difference in pre- and post-operative measurements (mean and SD) will
be calculated for both the groups. The 95% confidence interval (CI) for the difference in
change will then be calculated. If there are any clinical differences in the baseline
parameters, then analysis of co-variance will be used to compare the change across the groups
adjusted for the baseline values. If the lower limit of the CI is within 5 units, then
symmetrical surgery will be concluded non-inferior to asymmetrical surgery. Intention to
Treat and per-protocol analysis will be done for the primary outcome.
Secondary outcomes: The secondary outcomes will be compared across the groups using
independent t-test or Wilcoxon rank sum test depending on the distribution of the continuous
variables. Fisher's exact test will be used to compare categorical variables across the
groups.
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