Myopia Clinical Trial
Official title:
Myopia Progression in Children Wearing Near Center and Distance Center Multifocals - a Randomized Controlled Clinical Trial
Myopia has been increasing in prevalence and severity throughout the world over the last 30
years. Increasing levels of myopia are associated with increased frequency and severity of
various ocular pathologies. Slowing myopia progression may help to reduce the future risks of
these ocular pathologies.
Conventional spectacles and contact lenses correct myopia by moving the central focus of the
eye from in front of the retina to on the retina centrally. To varying degrees, these lenses
allow the light to focus behind the retina, at varying peripheral retinal locations. These
findings have led to efforts to design spectacle and contact lenses which correct peripheral
hyperopic defocus, to reduce myopia progression.
The consensus theory for how both multifocal contact lenses (MFCLs) and orthokeratology can
control myopia progression is that they reduce, eliminate, or reverse relative peripheral
hyperopic defocus. Existing published studies on the use of multifocal contact lenses to
control myopia in humans have utilized lenses with the distance correction in the center with
peripheral plus power to correct the peripheral blur.
It is possible that one of the mechanisms responsible for myopia progression control with
MFCLs is that when the eye is exposed to an image focused on the retina and simultaneously an
image anterior to the retina, that this will suppress axial elongation and myopia
progression. This mechanism would not be dependent on whether the anterior image is located
in the central area of the retina or the peripheral area of the retina. While there are no
published human studies demonstrating the effectiveness of near center MFCLs, this author has
presented retrospective data showing no differences in myopia progression between near center
and distance center MFCLs.
Synergeyes, Inc.'s Duette contact lenses are hybrids of rigid gas permeable (RGP) with a
silicon hydrogel peripheral portion or "skirt." They now make their MFCLs in both distance
center (DC) and near center (NC) designs.
This study will analyze the myopia progression of children after being randomly assigned to
wear Duette MFCLs or Duette standard single vision contact lenses over a span of two years.
Subjects assigned to the MFCL group will wear a DC lens on one eye and a NC lens on the other
and will reverse this lens assignment every six months. Refractive changes will be measured
by cycloplegic autorefraction and axial lengths will be measured with a laser interference
biometer (Zeiss IOLMaster) at six-month intervals.
Nature & Purpose Myopia is the focus of growing attention and concern because of the now
extremely high prevalence of myopia in some East Asian populations. For example, myopia
prevalence figures in the low to mid 90's have been reported in some studies of University
student populations in Taiwan and Shanghai, with a figure of 96.5% being reported for young
adult Korean male conscripts in Seoul. Equivalent prevalence figures for the US have also
been trending upwards, albeit lagging behind those of East Asia. For example, comparison of
data from two studies of the same population over the time periods 1971-72 and 1999-2004,
reveals an increase in the prevalence of myopia from 25% to 41.6% for the 12-54 year age
range. These figures would not be of concern, were it not for the well-established link
between myopia and sight-threatening ocular pathologies. Importantly, and as well summarized
in a recent review by Ian Flitcroft, even low myopia is associated with an increased risk of
pathology, with the latter, measured in terms of odds ratios, simply increasing with
increasing myopia. Myopes are at increased risk of myopic maculopathy, retinal detachment,
cataracts and glaucoma, with myopic maculopathy now the leading cause of monocular blindness
in Japan and of new cases of blindness in Shanghai.
The rapidly changing myopia prevalence figures are consistent with the increasing acceptance
of the role that environmental influences play in the development of myopia. Some but not all
studies have linked myopia with increased near work, e.g., books read,8 and one recent German
study showed a correlation between years of formal education with level of myopia. There are
other studies pointing to outdoor activities being protective against the development of
myopia. While unresolved are the specific factors contributing to myopia development and
progression, that visual experience appears to play a central role has refocused attention on
the possibility that myopia progression can and should be controlled.
Studies involving animal models for myopia (chicks, guinea pigs, marmosets, rhesus monkeys),
provide compelling evidence for active emmetropization and a role for optical defocus in
ocular growth modulation. Specifically, hyperopic defocus imposed on young eyes accelerates
eye growth while imposed myopia slows it. Local retinal mechanisms have been implicated, with
the peripheral retina apparently playing an important role in ocular growth regulation. Of
relevance to the current study, in recent animal model studies, multifocal lenses
incorporating zones of positive power were found to inhibit eye growth, even when these zones
are limited to the periphery of the lenses. For already myopic eyes, both stabilization of
myopia and reversal have been described.
The above observations with animal models, translated to human myopia, raise the possibility
of increased progression with standard corrective spectacle and soft contact lenses, given
that the image shell providing accurate on-axis focus typically falls increasingly behind the
retina with increasing distance off-axis. Furthermore, more prolate eye shapes, a common
finding in myopia, are expected to exaggerate this problem. Conversely, prescribing optical
devices that impose peripheral myopic defocus are predicted to slow myopia progression,
consistent with results from a number of independent myopia control studies involving
orthokeratology, which produces a relative myopic shift in peripheral retinal defocus, a
consequence of induced corneal shape changes.
While there are now many studies showing an average of around 50% control with both
multifocal contact lenses and with orthokeratology, there are no published studies using
either RGP or hybrid multifocal lenses for control of myopia. There are also no studies
testing the efficacy of near center contact lenses for myopia control although animal studies
suggest that the retinal location of imposed myopic defocus (i.e. focal plane in front of the
retina), may not be critical to myopia control. Indeed, inhibited eye growth has been
reported with positive adds located centrally, peripherally or in a multi-zonal format yet
among clinicians there is a general belief that only multifocal contact lenses with
peripheral adds work, no doubt a testament to the widely publicized finding in monkeys by
Prof. Earl Smith's research group, that eye growth can be regulated by the peripheral retina
alone. Nonetheless, Prof. Smith never stated that one could control myopia only through
manipulation of the peripheral optics and indeed, his group more recently reported robust
inhibitory effects on eye growth of multi-zonal lenses in monkeys.
The specific aim of this proposal is:
To compare the efficacy and thus merits of distance center and near center design bifocal
hybrid contact lenses for controlling (slowing) progression of myopia in children and
adolescents. Bifocal contact lens wearing participants will wear a distance center lens on
one eye and a near center lens in their other eye, with one third of the participants wearing
single vision contact lenses as a control (reference) group.
Outcome measures to be used to assess efficacy in the study include ocular refractions,
corneal curvature and eye length at intervals, with data to be collected at 6 months
intervals over a period of 24 months.
Participants Two groups of participants (all myopic), between the ages of 7 and 14 yr. (n=20
in the control group and n=40 in the test group), will be recruited. All will be fitted with
either Duette single vision or bifocal contact lenses.
To be accepted into the study, participants will also need to be deemed suitable candidates
for hybrid contact lenses. Successful single vision soft contact lens wearers will be
automatically accepted into the study, while non-contact lens wearers will first undergo
routine clinical pre-fitting assessment to verify their suitability for contact lens wear. To
avoid excessive dropouts, only those who can demonstrate an ability to properly insert,
remove and care for hybrid lenses will be enrolled.
Participants will be randomly assigned to each treatment group, i.e. single vision vs.
bifocal hybrid contact lenses. To lessen the chance of a poorly randomized sample due to the
small sample size, a modified covariate adaptive randomization method will be used.
Procedures All measurements specific to the vision screening, contact lens fitting and
monitoring of myopia progression will be carried out at Thomas Aller's practice in San Bruno.
Once the participants have passed the screening protocol and read and signed the informed
consent form, they will be required to attend a maximum of 10 office visits:
1. A baseline measurement session (this may be combined with screening and/or session 2)
2. A contact lens fitting session
3. A contact lens dispensing/training session
4. A routine contact lens follow-up session to verify that the lenses fit satisfactorily,
and the lenses are not adversely affecting eye health
5. A 6-month follow-up measurement session
6. A 12-month follow-up measurement session
7. An 18-month follow-up measurement session
8. A 24-month follow-up measurement session.
The contact lens fitting session: Each participant will have their initial lenses selected,
both single vision and bifocal lenses, based on the manufacturer's suggested fitting
protocol. For all participants prescriptions will be modified as necessary to provide optimal
distance vision, through both types of lenses (single vision and bifocal). Visual acuity will
need to be at least 20/30 in the worse eye and at least 20/25 binocularly. Bifocal contact
lens prescriptions will be selected to achieve both good distance and near vision. The add
powers will be selected as the highest add power which results in acceptable distance visual
acuity. The DCMF design allows for altering the zone sizes, but the default zone sizes will
be used, subject to alteration as necessary to achieve good distance visual acuity. After Dr.
Aller has determined the provisional prescriptions, the actual lens assignments will be made
by a masked assistant. In this way it will be possible to mask and randomize the lens
assignments appropriately. Bifocal contact lens wearers will also be randomly assigned to
wear a distance center multifocal (DCMF) in one eye with the other eye wearing a near center
multifocal (NCMF). At each six-month interval, the lens types assigned to the right and left
eyes will be switched. The same procedure will be utilized for the single vision wearers,
though this will only be a sham switch to help maintain masking. This crossover study design
will help to identify any differences in myopia control efficacy between NC and DC designs,
and also to lessen the chance of induced anisometropia, should there prove to be a difference
in myopia control efficacy in these designs.
Follow-up contact lens review (aftercare) session: In order to verify that the lenses
dispensed to the participants are fitting well and there are no complications regarding
vision or the health of the eye, the participants will return for a follow-up appointment 2
weeks after the lenses have been dispensed. This is routine in clinical practice.
Follow-up visits at 6-month intervals: Baseline measurements will be repeated at the 6-month
follow-up session (see Table 1 for measurements and procedures). The fit of the contact
lenses and health of the front surface of the eye will be assessed also, as per routine
contact lens practice. Adjustments to contact lens prescriptions may also be ordered, based
on the results of this exam. If the prescription has changed by ≥ 0.5D or if the visual
acuity has dropped below 20/30 in the worse eye or below 20/25 binocularly.
24-month follow-up measurement & aftercare session: Final measurements will be taken at this
visit, repeating all baseline measurements. To lessen topographical changes induced by the
rigid portion of the hybrid contact lenses, no lenses will be worn for 3 days prior to this
visit.
Benefits In addition to the 3 comprehensive eye examinations received at no cost each
participant will receive two years' supply of lenses and lens-related solutions. Professional
fees for contact lens fittings and followup exams will be charged to the subjects at the
standard rate for the practice. Also, through participation in this study, individuals will
have the opportunity to learn more about their myopia and the overall health of their eyes.
Finally if, at the end of the study, results show that a participant may benefit from the
alternative treatment (single vision contact lenses vs. bifocal lenses), the participant will
be informed and offered a prescription for the alternative treatment.
Risks The risks are limited to those associated with routine clinical procedures and are
negligible. Reactions to local anesthetics are a rare but possible side-effect of their use
for cycloplegia. Appropriate questioning of subjects and/or their parents about their prior
experience with, and reaction to, local anesthetics, and exclusion of those with a history of
previous reactions to local anesthetics can minimize this risk. Such reactions are treated
with topical antibiotics and/or artificial tears and generally resolve within 24 hr. Hybrid
contact lenses of both types are widely prescribed in routine clinical practice and the risks
associated with their daily wear are minimal, given appropriate patient education and
appropriately-timed "aftercare" exams. Aftercare exams are scheduled at 2 weeks, 6 and 12, 18
and 24 months.
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